CN114500807A - Building data acquisition equipment based on BIM technique - Google Patents

Abstract

A building data acquisition device based on BIM technology belongs to the technical field of buildings and aims to solve the problem that the traditional building data acquisition device is inconvenient for shooting and acquiring data in indoor and narrow areas, so that the data acquisition and shooting integrity is not high; according to the invention, the whole device is sleeved on the left big arm, the human body infrared sensing module senses the position of the big arm of a worker, the driving module drives the scanning camera to be opened, the data acquisition box can scan and shoot a building area at the moment, the button is pressed to charge the electromagnet block to generate magnetism, the electromagnet block is in contact with the clothes of the worker at the moment, and the electromagnet block is in magnetic attraction connection with the magnetic attraction structure arranged at the clothes of the worker, so that the position of the whole device is stabilized.

Description

Building data acquisition equipment based on BIM technique

Technical Field

The invention relates to the technical field of buildings, in particular to building data acquisition equipment based on a BIM (building information modeling) technology.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and structures. A house refers to an engineering building for human residence, work, study, production, management, entertainment, storage of goods, and other social activities, and the design of a conventional building generally employs BIM and surveys the construction area on the spot in the early stages of the design.

When carrying out real-time reconnaissance to the building region, the data acquisition device that adopts the building to use carries out data acquisition and makes a video recording to the building region usually, traditional building data acquisition device is not convenient for make a video recording and data acquisition to indoor and narrow and small region, the integrity that leads to data acquisition and make a video recording is not high, and traditional building data acquisition device is not convenient for the drive protective structure protection camera structure of coordinated type, lead to making a video recording the structure and easily appearing the damage when out of work, traditional building data acquisition device is not convenient for utilize the cooling means to cool down the structure of making a video recording of long-time work, lead to making a video recording the structure and easily produce the damage because of its inside high temperature.

In order to solve the problems, the building data acquisition equipment based on the BIM technology is provided.

Disclosure of Invention

The invention aims to provide building data acquisition equipment based on a BIM (building information modeling) technology, which solves the problems that when a building area is actually surveyed in the background art, a data acquisition device for a building is usually adopted to acquire and photograph data of the building area, the traditional building data acquisition device is inconvenient to photograph and acquire data of indoor and narrow areas, so that the integrity of the data acquisition and photographing is not high, the traditional building data acquisition device is inconvenient to jointly drive a protection structure to protect a photographing structure, so that the photographing structure is easy to damage when not working, and the traditional building data acquisition device is inconvenient to cool the photographing structure working for a long time by using a cooling means, so that the photographing structure is easy to damage due to high temperature inside.

In order to achieve the purpose, the invention provides the following technical scheme: a building data acquisition device based on BIM technology comprises a first magic tape and a second magic tape pasted on one side of the first magic tape, wherein a data acquisition box is arranged on one side of the second magic tape, a connecting block is arranged on one side of the first magic tape, and the first magic tape and the second magic tape are members made of elastic materials;

the data acquisition box comprises a cooling box arranged at the upper end of the data acquisition box and a through groove arranged on one side of the data acquisition box, a clamping groove is formed in the through groove, a shielding component is movably clamped in the clamping groove, the length and width of the shielding component are larger than the diameter of the through groove, the data acquisition box also comprises a fixed cylinder arranged in the data acquisition box and a scanning camera movably arranged in the fixed cylinder, a linkage component is arranged at the upper end of the fixed cylinder and positioned in the data acquisition box, the fixed cylinder, the scanning camera and the through groove are positioned on the same axis, a circulating water cavity is formed in the data acquisition box, and the circulating water cavity is arranged outside the scanning camera;

the linkage assembly comprises a fixed motor arranged inside the data acquisition box and a first driving wheel connected with the output end of the fixed motor, one side of the first driving wheel is connected with a second driving wheel through a shaft, a third driving wheel is meshed with one side of the second driving wheel, a fourth driving wheel is connected with the third driving wheel through a shaft, a fifth driving wheel is meshed with one side of the fourth driving wheel, and the third driving wheel, the fourth driving wheel and the fifth driving wheel are positioned right above the fixed cylinder.

Further, the connecting block upper end is provided with the button, connecting block one side is provided with the electromagnet piece, button and electromagnet piece electric connection, the connecting block side is provided with the curved surface connection piece, curved surface connection piece one end gomphosis is inside the data acquisition box, the connecting block is connected with the data acquisition box through the curved surface connection piece, connecting block one side is provided with coupling assembling, and coupling assembling sets up the multiunit, the connecting block is pasted the area through coupling assembling and first magic and is connected, the data acquisition box is pasted the area through coupling assembling and second magic and is connected.

Further, coupling assembling including set up at the stationary blade of first magic tape one side and run through the connecting thread post that sets up in the stationary blade inside, coupling assembling still includes the connecting thread groove of seting up in the connecting block side, and the connecting thread post runs through stationary blade threaded connection inside the connecting thread groove.

Further, the arc wall has been seted up to curved surface connection piece one side, and the arc wall sets up two sets ofly, two sets of arc wall inner wall both sides all be provided with first semicircle piece, and first semicircle piece sets up the multiunit, and the curved surface connection piece still including setting up the cooperation strip in data acquisition box inside, and the cooperation strip sets up two sets ofly, a set of cooperation strip gomphosis in corresponding a set of the arc wall inside, cooperation strip both sides are provided with second semicircle piece, and second semicircle piece sets up the multiunit, second semicircle piece and first semicircle piece are the component that the looks isostructure was made, a set of second semicircle piece be in two sets ofly first semicircle piece interval position.

Furthermore, the shielding assembly comprises a clamping plate block clamped inside the clamping groove and a visual window arranged inside the clamping plate block, a first rack groove is formed in the upper end of the clamping plate block, a meshing wheel is arranged on the upper side face of the first rack groove in a meshed mode, a connecting shaft is arranged on one side of the meshing wheel, and the meshing wheel is connected with a fifth driving wheel through the connecting shaft.

Furthermore, an exposure groove is formed in one side of the fixed cylinder, a second rack groove is formed in one side of the scanning camera, the second rack groove and the exposure groove are located on the same axis, and the first driving wheel penetrates through the exposure groove and is meshed with the second rack groove.

Further, the cooling box is including seting up its inside pump suction chamber and setting up the cooling chamber in pump suction chamber one side, and pump suction chamber one side is provided with communicating pipe, and pump suction chamber is linked together with the cooling chamber through communicating pipe, and pump suction intracavity portion is provided with the water pump, and pump suction chamber one side is provided with the pipe that absorbs water, and absorbs water intraduct and be provided with the solenoid valve, and cooling chamber one side is provided with the outlet pipe, and the inside ball valve that is provided with of outlet pipe, the pipe that absorbs water and outlet pipe and circulating water chamber are linked together.

Furthermore, a circulation groove penetrates through the interior of the ball valve, the diameter of the ball valve is equal to that of the water outlet pipe, a linkage shaft is arranged on the lower side of the ball valve, and the ball valve is connected with the second driving wheel through the linkage shaft.

Furthermore, a central processing module, a driving module, a closing module and a data sharing module are arranged inside the data acquisition box, a human body infrared sensing module is arranged on one side of the data acquisition box, and the human body infrared sensing module, the driving module, the closing module and the data sharing module are all electrically connected with the central processing module.

Furthermore, the human body infrared sensing module is used for sensing whether the data acquisition box is in contact with a human body or not and the contact time, the driving module is used for driving an electric element inside the data acquisition box, the closing module is used for closing the electric element inside the data acquisition box, and the data sharing module is used for sharing images and data scanned and shot by the data acquisition box.

Compared with the prior art, the invention has the following beneficial effects:

1. when a worker needs to scan and shoot a building area, the whole device is sleeved on the left big arm through the matching of the second magic tape and the first magic tape, so that the curved surface connecting sheet is embedded at different positions in the data acquisition box to adjust the distance between the data acquisition box and the connecting block, the second semicircular block of one group is positioned at the distance between the first semicircular blocks of the corresponding two groups, the human body infrared sensing module senses the big arm of the worker, when the sensing time reaches a certain limit value, the driving module drives the scanning camera to be started, the data acquisition box can scan and shoot the building area, the button is pressed to charge the electromagnetic iron block to generate magnetism, the electromagnetic iron block is contacted with the clothes of the worker, and the electromagnetic iron block is connected with the magnetic attraction structure arranged at the clothes of the worker, thereby firm whole device's position, when the staff removed in indoor or narrow and small area, data acquisition box scanned and made a video recording ambient environment and building, need not hand or carry and lift the structure of making a video recording, reduced staff's physical demands, and data acquisition box carries out the sharing of scan data and data of making a video recording with the external world through data sharing module.

2. The invention provides building data acquisition equipment based on BIM technology, when a scanning camera is opened, a driving module drives a fixed motor to enable an output shaft of the fixed motor to rotate in a forward direction, so that a first driving wheel rotates, the scanning camera is jacked out and moves towards a through groove, when the first driving wheel rotates, a second driving wheel, a third driving wheel, a fourth driving wheel, a fifth driving wheel, a connecting shaft and a meshing wheel are driven to rotate, namely, a clamping plate block moves, so that the through groove is exposed until one end of the scanning camera is positioned outside a data acquisition box, when a human body infrared sensing module does not sense a human body for a long time, the driving module drives the fixed motor to enable the output shaft of the fixed motor to rotate in a reverse direction, at the moment, the scanning camera is accommodated in the data acquisition box, the scanning camera is in a closed state, and a shielding component shields the through groove, the scanning camera is protected, and damage to the scanning camera is avoided.

3. The building data acquisition equipment based on the BIM technology provided by the invention has the advantages that when the output shaft of the fixed motor rotates in the forward direction, namely the scanning camera lifts up, the rotation of the second driving wheel drives the ball valve to rotate, so that cooling water in the cooling cavity enters the circulating water cavity through the water outlet pipe, the driving module can open the water pump and the electromagnetic valve in the pumping cavity, so that the pumping cavity absorbs the cooling water in the circulating water cavity, the cooling water forms circulation, the scanning camera is cooled, the scanning camera is prevented from generating high temperature when working for a long time, after the output shaft of the fixed motor rotates in the reverse direction, the second driving wheel drives the ball valve to rotate, so that the cooling water in the cooling cavity does not flow outwards any more, the pumping cavity still absorbs the cooling water in the circulating water cavity, and after the absorption reaches a limited time, the closing module closes the water pump and the electromagnetic valve arranged in the pumping cavity, for the next use.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B of the present invention;

FIG. 4 is a schematic perspective view of a data acquisition cartridge according to the present invention;

FIG. 5 is a schematic plan view of the data acquisition box of the present invention;

FIG. 6 is a schematic view of a shielding assembly according to the present invention;

FIG. 7 is a schematic view of a linkage assembly according to the present invention;

FIG. 8 is a schematic view of the cooling cartridge of the present invention;

FIG. 9 is a schematic view of the flow channel and linkage shaft configuration of the present invention;

fig. 10 is a schematic diagram of a module structure according to the present invention.

In the figure: 1. a data acquisition box; 11. a cooling box; 111. a pumping chamber; 112. a cooling chamber; 113. a communicating pipe; 114. a suction pipe; 115. an electromagnetic valve; 116. a water outlet pipe; 117. a ball valve; 1171. a circulation tank; 1172. a linkage shaft; 12. a through groove; 13. a clamping groove; 14. a shutter assembly; 141. clamping the plate; 142. a visualization window; 143. a first rack slot; 144. an engaging wheel; 145. a connecting shaft; 15. a fixed cylinder; 151. exposing the strip groove; 16. scanning a camera; 161. a second rack groove; 17. a linkage assembly; 171. fixing a motor; 172. a first drive wheel; 173. a second drive wheel; 174. a third driving wheel; 175. a fourth driving wheel; 176. a fifth driving wheel; 18. a circulating water cavity; 2. connecting blocks; 21. an electromagnet block; 22. a button; 23. a curved surface connecting sheet; 231. an arc-shaped slot; 232. a first semicircular block; 233. a mating strip; 234. a second semicircular block; 24. a connection assembly; 241. a fixing sheet; 242. connecting the threaded columns; 243. connecting the thread groove; 3. a first magic tape; 4. a second magic tape; 5. a data sharing module; 6. a human body infrared induction module; 7. a drive module; 8. a central processing module; 9. and closing the module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problem that the traditional building data acquisition device is inconvenient for shooting and acquiring data in indoor and narrow areas, which results in low data acquisition and shooting integrity, as shown in fig. 1-3 and 10, the following preferred technical scheme is provided:

a building data acquisition device based on BIM technology comprises a first magic tape 3 and a second magic tape 4 adhered to one side of the first magic tape 3, a data acquisition box 1 is arranged on one side of the second magic tape 4, a connecting block 2 is arranged on one side of the first magic tape 3, the first magic tape 3 and the second magic tape 4 are members made of elastic materials, a button 22 is arranged at the upper end of the connecting block 2, an electromagnetic iron block 21 is arranged on one side of the connecting block 2, the button 22 is electrically connected with the electromagnetic iron block 21, a curved surface connecting sheet 23 is arranged on the side surface of the connecting block 2, one end of the curved surface connecting sheet 23 is embedded in the data acquisition box 1, the connecting block 2 is connected with the data acquisition box 1 through the curved surface connecting sheet 23, a connecting assembly 24 is arranged on one side of the connecting block 2, a plurality of groups of connecting assemblies 24 are arranged on the connecting assembly 24, the connecting block 2 is connected with the first magic tape 3 through the connecting assembly 24, data acquisition box 1 is connected with second magic tape 4 through coupling assembling 24, and coupling assembling 24 is including setting up at the stationary blade 241 of first magic tape 3 one side and running through the connecting thread post 242 of setting in stationary blade 241 inside, and coupling assembling 24 is still including seting up the connecting thread groove 243 in connecting block 2 side, and connecting thread post 242 runs through stationary blade 241 threaded connection inside connecting thread groove 243.

The curved surface connecting sheet 23 has one side provided with an arc-shaped groove 231, the arc-shaped groove 231 is provided with two groups, two groups of arc-shaped grooves 231 are provided with first semicircular blocks 232 on two sides, the first semicircular blocks 232 are provided with a plurality of groups, the curved surface connecting sheet 23 further comprises matching strips 233 arranged inside the data acquisition box 1, the matching strips 233 are provided with two groups, one group of matching strips 233 are embedded inside the corresponding group of arc-shaped grooves 231, the two sides of the matching strips 233 are provided with second semicircular blocks 234, the second semicircular blocks 234 are provided with a plurality of groups, the second semicircular blocks 234 and the first semicircular blocks 232 are members made of the same structure, one group of second semicircular blocks 234 are positioned at the interval positions of the two groups of first semicircular blocks 232, the data acquisition box 1 is internally provided with a central processing module 8, a driving module 7, a closing module 9 and a data sharing module 5, one side of the data acquisition box 1 is provided with a human body infrared induction module 6, and the human body infrared induction module 6, The driving module 7, the closing module 9 and the data sharing module 5 are electrically connected with the central processing module 8, the human infrared sensing module 6 is used for sensing whether the data acquisition box 1 is in contact with a human body or not and contact time, the driving module 7 is used for driving an electric element inside the data acquisition box 1, the closing module 9 is used for closing the electric element inside the data acquisition box 1, and the data sharing module 5 is used for sharing images and data scanned and shot by the data acquisition box 1.

Specifically, when a worker needs to scan and shoot a building area, the whole device is sleeved on the left big arm through the matching of the second magic tape 4 and the first magic tape 3, so that the curved surface connecting sheet 23 is embedded at different positions inside the data acquisition box 1 to adjust the distance between the data acquisition box 1 and the connecting block 2, at the moment, the position of one group of the second semicircular block 234 is at the corresponding position of two groups of the first semicircular blocks 232, at the moment, the human body infrared sensing module 6 senses the big arm of the worker, when the sensing time reaches a certain limit value, the driving module 7 drives the scanning camera 16 to be opened, at the moment, the data acquisition box 1 can scan and shoot the building area, the button 22 is pressed to charge the electromagnetic iron block 21 to generate magnetism, at the moment, the electromagnetic iron block 21 is in contact with the clothes of the worker, the electromagnetic iron block 21 is in magnetic attraction connection with a magnetic attraction structure arranged at the clothes of the worker, thereby firm whole device's position, when the staff removed in indoor or narrow and small area, data acquisition box 1 scanned and made a video recording to surrounding environment and building, need not hand or carry and lift the structure of making a video recording, reduced staff's physical demands, and data acquisition box 1 carries out the sharing of scan data and data of making a video recording through data sharing module 5 and the external world.

In order to solve the technical problem that the traditional building data acquisition device is not convenient for the linkage type driving protection structure to protect the camera structure and causes the camera structure to be easy to damage when not in work, as shown in fig. 4-7, the following preferable technical scheme is provided:

the data acquisition box 1 comprises a cooling box 11 arranged at the upper end of the data acquisition box 1, a through groove 12 arranged at one side of the data acquisition box 1, a clamping groove 13 is arranged in the through groove 12, a shielding component 14 is movably clamped in the clamping groove 13, the length and width of the shielding component 14 are larger than the diameter of the through groove 12, the data acquisition box 1 further comprises a fixed cylinder 15 arranged in the data acquisition box and a scanning camera 16 movably arranged in the fixed cylinder 15, a linkage component 17 is arranged at the upper end of the fixed cylinder 15, the linkage component 17 is positioned in the data acquisition box 1, the fixed cylinder 15, the scanning camera 16 and the through groove 12 are positioned on the same axis, a circulating water cavity 18 is arranged in the data acquisition box 1, the circulating water cavity 18 is arranged outside the scanning camera 16, the linkage component 17 comprises a fixed motor 171 arranged in the data acquisition box 1 and a first driving wheel 172 connected with the output end of the fixed motor 171, one side of the first driving wheel 172 is connected with a second driving wheel 173 through a shaft, one side of the second driving wheel 173 is engaged with a third driving wheel 174, the third driving wheel 174 is connected with a fourth driving wheel 175 through a shaft, one side of the fourth driving wheel 175 is engaged with a fifth driving wheel 176, the positions of the third driving wheel 174, the fourth driving wheel 175 and the fifth driving wheel 176 are positioned right above the fixed cylinder 15, the shielding assembly 14 comprises a clamping plate 141 clamped in the clamping groove 13 and a visual window 142 arranged in the clamping plate 141, a first rack groove 143 is arranged at the upper end of the clamping plate 141, an engaging wheel 144 is engaged with the upper side of the first rack groove 143, one side of the engaging wheel 144 is provided with a connecting shaft 145, the engaging wheel 144 is connected with the fifth driving wheel 176 through the connecting shaft 145, one side of the fixed cylinder 15 is provided with an exposed strip groove 151, one side of the scanning camera 16 is provided with a second rack groove 161, the second rack groove 161 and the exposed strip groove 151 are positioned on the same axis, the first drive wheel 172 passes through the exposure groove 151 to engage with the second rack groove 161.

Specifically, when the scanning camera 16 is turned on, the driving module 7 drives the fixed motor 171 to make the output shaft thereof rotate in the forward direction, so that the first driving wheel 172 rotates, so that the scanning camera 16 is lifted out to move to the through groove 12, and when the first driving wheel 172 rotates, the second driving wheel 173, the third driving wheel 174, the fourth driving wheel 175, the fifth driving wheel 176, the connecting shaft 145 and the engaging wheel 144 are driven to rotate, i.e. the engaging plate 141 moves, so as to expose the through groove 12 until one end of the scanning camera 16 is located outside the data collecting box 1, when the human infrared sensing module 6 does not sense a human body for a long time, the driving module 7 drives the fixed motor 171 to make the output shaft thereof rotate in the reverse direction, at this time, the scanning camera 16 is stored in the data collecting box 1, and the scanning camera 16 is in the closed state, the shielding component 14 shields the through slot 12 to protect the scanning camera 16 and prevent the scanning camera 16 from being damaged.

In order to solve the technical problem that the traditional building data acquisition device is inconvenient to cool the camera shooting structure working for a long time by using a cooling means, so that the camera shooting structure is easy to damage due to high temperature in the camera shooting structure, as shown in fig. 8-9, the following preferable technical scheme is provided:

the cooling box 11 comprises a pumping cavity 111 and a cooling cavity 112, wherein the pumping cavity 111 is arranged in the cooling box, the cooling cavity 112 is arranged on one side of the pumping cavity 111, a communicating pipe 113 is arranged on one side of the pumping cavity 111, the pumping cavity 111 is communicated with the cooling cavity 112 through the communicating pipe 113, a water pump is arranged in the pumping cavity 111, a water suction pipe 114 is arranged on one side of the pumping cavity 111, an electromagnetic valve 115 is arranged in the water suction pipe 114, a water outlet pipe 116 is arranged on one side of the cooling cavity 112, a ball valve 117 is arranged in the water outlet pipe 116, the water suction pipe 114 and the water outlet pipe 116 are communicated with the circulating water cavity 18, a circulating groove 1171 is arranged in the ball valve 117 in a penetrating mode, the diameter of the ball valve 117 is equal to that of the water outlet pipe 116, a linkage shaft 1172 is arranged on the lower side of the ball valve 117, and the ball valve 117 is connected with a second driving wheel 173 through the linkage shaft 1172.

Specifically, when the output shaft of the fixed motor 171 rotates in the forward direction, that is, the scanning camera 16 is lifted up, the rotation of the second driving wheel 173 drives the ball valve 117 to rotate, so that the cooling water in the cooling cavity 112 enters the circulating water cavity 18 through the water outlet pipe 116, the driving module 7 opens the water pump and the electromagnetic valve 115 in the pumping cavity 111, so that the pumping cavity 111 absorbs the cooling water in the circulating water cavity 18, so that the cooling water forms a circulation, thereby cooling the scanning camera 16, avoiding the scanning camera 16 from generating high temperature after long-time operation, after the output shaft of the fixed motor 171 rotates in the reverse direction, the second driving wheel 173 drives the ball valve 117 to rotate, so that the cooling water in the cooling cavity 112 does not flow out any more, but the pumping cavity 111 still absorbs the cooling water in the circulating water cavity 18, and when the absorption reaches a limited time, the closing module 9 closes the water pump and the electromagnetic valve 115 arranged in the pumping cavity 111, for the next use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a building data acquisition equipment based on BIM technique, includes first magic tape (3) and pastes second magic tape (4) in first magic tape (3) one side, its characterized in that: a data acquisition box (1) is arranged on one side of the second magic tape (4), a connecting block (2) is arranged on one side of the first magic tape (3), and the first magic tape (3) and the second magic tape (4) are members made of elastic materials;

the data acquisition box (1) comprises a cooling box (11) arranged at the upper end of the data acquisition box and a through groove (12) arranged at one side of the data acquisition box (1), a clamping groove (13) is arranged in the penetrating groove (12), a shielding component (14) is movably clamped in the clamping groove (13), the length and width of the shielding component (14) are larger than the diameter of the through groove (12), the data acquisition box (1) also comprises a fixed cylinder (15) arranged in the data acquisition box and a scanning camera (16) movably arranged in the fixed cylinder (15), the upper end of the fixed cylinder (15) is provided with a linkage component (17), the linkage assembly (17) is positioned inside the data acquisition box (1), the fixed cylinder (15), the scanning camera (16) and the through groove (12) are positioned on the same axis, a circulating water cavity (18) is formed inside the data acquisition box (1), and the circulating water cavity (18) is arranged on the outer side of the scanning camera (16);

linkage subassembly (17) is including setting up at inside fixed motor (171) of data acquisition box (1) and first action wheel (172) that are connected with fixed motor (171) output, there is second action wheel (173) first action wheel (172) one side through the hub connection, second action wheel (173) one side meshing is provided with third action wheel (174), third action wheel (174) have fourth action wheel (175) through the hub connection, fourth action wheel (175) one side meshing is provided with fifth action wheel (176), third action wheel (174), fourth action wheel (175) and fifth action wheel (176) position are in directly over solid fixed cylinder (15).

2. The BIM technology-based building data acquisition equipment as claimed in claim 1, wherein: connecting block (2) upper end is provided with button (22), connecting block (2) one side is provided with electromagnet piece (21), button (22) and electromagnet piece (21) electric connection, connecting block (2) side is provided with curved surface connection piece (23), curved surface connection piece (23) one end gomphosis is inside data acquisition box (1), connecting block (2) are connected with data acquisition box (1) through curved surface connection piece (23), connecting block (2) one side is provided with coupling assembling (24), and coupling assembling (24) set up the multiunit, connecting block (2) are connected with first magic tape (3) through coupling assembling (24), data acquisition box (1) are connected with second magic tape (4) through coupling assembling (24).

3. The BIM technology-based building data acquisition equipment according to claim 2, wherein: the connecting assembly (24) comprises a fixing piece (241) arranged on one side of the first magic tape (3) and a connecting threaded column (242) penetrating through the fixing piece (241), the connecting assembly (24) further comprises a connecting threaded groove (243) formed in the side face of the connecting block (2), and the connecting threaded column (242) penetrates through the fixing piece (241) and is in threaded connection with the inside of the connecting threaded groove (243).

4. The BIM technology-based building data acquisition equipment according to claim 2, wherein: curved surface connection piece (23) one side has been seted up arc wall (231), and arc wall (231) set up two sets ofly, two sets of arc wall (231) inner wall both sides all be provided with first semicircle piece (232), and first semicircle piece (232) set up the multiunit, curved surface connection piece (23) still including setting up at inside cooperation strip (233) of data acquisition box (1), and cooperation strip (233) set up two sets ofly, a set of cooperation strip (233) gomphosis in corresponding a set of arc wall (231) inside, cooperation strip (233) both sides are provided with second semicircle piece (234), and second semicircle piece (234) set up the multiunit, second semicircle piece (234) and first semicircle piece (232) are the component that the looks isostructure was made, a set of second semicircle piece (234) be in two sets ofly first semicircle piece (232) interval position.

5. The BIM technology-based building data acquisition equipment as claimed in claim 1, wherein: the shielding assembly (14) comprises a clamping plate block (141) clamped in the clamping groove (13) and a visual window (142) arranged in the clamping plate block (141), a first rack groove (143) is formed in the upper end of the clamping plate block (141), a meshing wheel (144) is arranged on the side face of the first rack groove (143) in a meshed mode, a connecting shaft (145) is arranged on one side of the meshing wheel (144), and the meshing wheel (144) is connected with a fifth driving wheel (176) through the connecting shaft (145).

6. The BIM technology-based building data acquisition equipment as claimed in claim 1, wherein: a strip exposing groove (151) is formed in one side of the fixed cylinder (15), a second strip groove (161) is formed in one side of the scanning camera (16), the second strip groove (161) and the strip exposing groove (151) are located on the same axis, and the first driving wheel (172) penetrates through the strip exposing groove (151) and is meshed with the second strip groove (161).

7. The BIM technology-based building data acquisition equipment as claimed in claim 1, wherein: the cooling box (11) comprises a pump suction cavity (111) and a cooling cavity (112), the pump suction cavity (111) is arranged inside the cooling box, the cooling cavity (112) is arranged on one side of the pump suction cavity (111), a communicating pipe (113) is arranged on one side of the pump suction cavity (111), the pump suction cavity (111) is communicated with the cooling cavity (112) through the communicating pipe (113), a water pump is arranged inside the pump suction cavity (111), a water suction pipe (114) is arranged on one side of the pump suction cavity (111), an electromagnetic valve (115) is arranged inside the water suction pipe (114), a water outlet pipe (116) is arranged on one side of the cooling cavity (112), a ball valve (117) is arranged inside the water outlet pipe (116), and the water suction pipe (114) and the water outlet pipe (116) are communicated with a circulating water cavity (18).

8. The BIM technology-based building data acquisition equipment according to claim 7, wherein: a circulation groove (1171) penetrates through the interior of the ball valve (117), the diameter of the ball valve (117) is equal to that of the water outlet pipe (116), a linkage shaft (1172) is arranged on the lower side of the ball valve (117), and the ball valve (117) is connected with the second driving wheel (173) through the linkage shaft (1172).

9. The BIM technology-based building data acquisition equipment as claimed in claim 1, wherein: the data acquisition box (1) is internally provided with a central processing module (8), a driving module (7), a closing module (9) and a data sharing module (5), one side of the data acquisition box (1) is provided with a human body infrared sensing module (6), and the human body infrared sensing module (6), the driving module (7), the closing module (9) and the data sharing module (5) are all electrically connected with the central processing module (8).

10. The BIM technology-based building data acquisition equipment according to claim 9, wherein: the human body infrared sensing module (6) is used for sensing whether the data acquisition box (1) is in contact with a human body or not and the contact time, the driving module (7) is used for driving an electric element inside the data acquisition box (1), the closing module (9) is used for closing the electric element inside the data acquisition box (1), and the data sharing module (5) is used for sharing images and data scanned and shot by the data acquisition box (1).

Images