CN112666071A

CN112666071A - Fine decoration design system based on BIM three-dimensional visualization technology

Info

Publication number: CN112666071A
Application number: CN202110089548.8A
Authority: CN
Inventors: 刘艳; 王佳; 姚增辉; 徐吉; 陈波
Original assignee: Chengdu Construction Engineering Decoration & Fitment Co ltd
Current assignee: Chengdu Construction Engineering Decoration & Fitment Co ltd
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-04-16
Anticipated expiration: 2041-01-22
Also published as: CN112666071B

Abstract

The application relates to a precise decoration design system based on a BIM three-dimensional visualization technology, which comprises a detection room, wherein the detection room comprises a top plate, a bottom plate and a plurality of support rods, the support rods are vertically arranged on the bottom plate, and the top plate is arranged on the support rods and is positioned above the bottom plate; a coating area, a drying area and a rusting test area are arranged on the bottom plate; the top plate is provided with a gripping device in a sliding manner and used for gripping the steel member, and the top plate is also provided with a driving device which is used for driving the gripping device to move along the length direction of the top plate; the coating district is used for the steel member coating anti-rust paint that snatchs grabbing device, and the drying area is used for supplying the steel member that the coating has anti-rust paint to dry, and the rust test district is used for carrying out the rust test to the steel member that the coating has anti-rust paint and after drying. This application has the cost of labor who improves the steel member inspection and the effect of time cost problem.

Description

Fine decoration design system based on BIM three-dimensional visualization technology

Technical Field

The application relates to the field of fine decoration house design, in particular to a fine decoration design system based on a BIM three-dimensional visualization technology.

Background

At present, when a finish decoration scheme is designed, data in all aspects are collected and sorted in a manual mode, then a finish decoration house prefabricated steel member is made according to the data and through a BIM three-dimensional visualization technology, and then the finished decoration house prefabricated steel member is taken to an inspection center for rust prevention inspection.

In view of the above-mentioned related technologies, the inventor believes that after a prefabricated steel component is made on site, the rust-proof paint needs to be manually painted on the steel component, and then the prefabricated steel component needs to be taken to an inspection center for rust-proof inspection, which not only increases the labor intensity of workers, but also increases the time investment cost in the early period, and is not beneficial to the development of subsequent work.

Disclosure of Invention

In order to improve the labor cost and time cost problem of steel member inspection, the application provides a finish decoration design system based on BIM three-dimensional visualization technology.

The application provides a finish decoration design system based on BIM three-dimensional visualization technique adopts following technical scheme:

a fine decoration design system based on a BIM three-dimensional visualization technology comprises a detection room, wherein the detection room comprises a top plate, a bottom plate and a plurality of support rods, the support rods are vertically arranged on the bottom plate, and the top plate is arranged on the support rods and is positioned above the bottom plate; the bottom plate is provided with a coating area, a drying area and a rusting test area; the steel member clamping device comprises a top plate, a clamping device and a driving device, wherein the top plate is provided with the clamping device in a sliding manner and used for clamping a steel member; the coating district is used for the steel member coating antirust paint that snatchs grabbing device, the drying zone is used for supplying the steel member that has the coating antirust paint to dry, rust test district is used for carrying out the rust test to the steel member that has the coating antirust paint and after drying.

By adopting the technical scheme, after the steel member is manufactured, the prefabricated steel member is directly grabbed on site through the grabbing device, and then the grabbing device drives the steel member to move through the driving device, so that the steel member moves to a coating area, and the surface of the steel member is coated with the antirust paint; grabbing the steel member to a drying area through a grabbing device, drying the steel member coated with the antirust paint in the drying area, grabbing the steel member to a rust testing area through the grabbing device, and performing rust testing on the steel member coated with the antirust paint; after setting up like this, when prefabricated steel component is good at the scene, alright in order directly to carry out rust-resistant test to the steel component at the scene to also need not artifical manual the paining when coating anti-rust paint, thereby reach the effect that improves the cost of labor and the time cost problem of steel component inspection.

Optionally, grabbing device includes walking beam, first cylinder and magnetism suction disc, the walking beam removes to set up on the roof, first cylinder setting is on the walking beam just the vertical downwardly extending of piston rod of first cylinder, the magnetism suction disc sets up the tailpiece of the piston rod portion at first cylinder, magnetism suction disc is used for adsorbing the steel member, first cylinder respectively is provided with one at the length direction's of walking beam both ends.

Through adopting above-mentioned technical scheme, when needing to snatch the steel member, directly place the steel member on the bottom plate, then remove the walking beam to the steel member directly over, then start first cylinder for the piston rod extension of first cylinder lets magnetism inhale the board and laminates to the steel member surface, because inhale the adsorption effect of magnetism, magnetism inhales the board and inhales the steel member, and then can let the walking beam take by absorbent steel member to remove on the length direction of roof, and reach and snatch the comparatively convenient effect of steel member.

Optionally, still be provided with on the walking beam and throw off the subassembly, it is used for breaking away from the steel member magnetic suction plate to throw off the subassembly, it includes second cylinder and disengagement board to throw off the subassembly, the second cylinder sets up in the middle part of walking beam, the extending direction of the piston rod of second cylinder is unanimous with the extending direction of the piston rod of first cylinder, disengagement board sets up the piston rod tip at the second cylinder, the maximum extension length of the piston rod of second cylinder is greater than the maximum extension length of the piston rod of first cylinder.

Through adopting above-mentioned technical scheme, directly start the second cylinder for the piston rod extension of second cylinder, because the piston rod of second cylinder is the biggest extension length of piston rod that is greater than first cylinder, consequently, the board of breaking away can support the upper surface by absorbent steel member, and the board of breaking away can break away from magnetic attraction board and steel member by force under the thrust effect, and then reaches the comparatively convenient effect of steel member of breaking away.

Optionally, drive arrangement is including rotating motor and threaded rod, the inside cavity of roof sets up, it installs to rotate the motor in the roof, the threaded rod coaxial line sets up on the output shaft of rotation motor, the length direction of threaded rod parallels with the length direction of roof, the threaded rod keep away from the one end of rotating the motor with the inner endwall of roof rotates to be connected, the threaded sleeve is equipped with threaded sleeve on the threaded rod, threaded sleeve's both sides all are provided with L shape pole, the roof just has all seted up the strip hole of stretching out to the both sides that just are located the threaded rod on the face on ground, the length direction that stretches out the strip hole is unanimous with the length direction of threaded rod, the one end that supplies L shape pole to stretch out in the strip hole, the L shape pole is located the outer one end of roof with the walking.

Through adopting above-mentioned technical scheme, start the rotation motor for the output shaft that rotates the motor drives the threaded rod and rotates, because threaded sleeve establishes on the threaded rod, and threaded sleeve passes through L shape pole and is connected with the walking beam, therefore threaded sleeve can remove along the length direction of threaded rod, and then drives the length direction removal of walking beam along the roof, thereby reaches the effect that conveniently drives the walking beam removal.

Optionally, sliding rails are arranged on two sides of the threaded rod in the top plate, and the length direction of the sliding rails is consistent with that of the threaded rod; the support sliding rod is arranged on the L-shaped rod, a roller is arranged at one end, away from the L-shaped rod, of the support sliding rod, and the roller is matched with the sliding rail in a rolling mode.

By adopting the technical scheme, the supporting slide rod can support one section of the L-shaped rod positioned in the top plate, so that the L-shaped rod is not easy to deform due to the tensile force of the movable beam; and the arrangement of the sliding rail and the roller can ensure that the supporting sliding rod moves synchronously along with the L-shaped rod under the condition of being supported on the L-shaped rod.

Optionally, the coating district is including scribbling the lacquer case and connecing the lacquer case, be provided with the support on the bottom plate, connect the lacquer case to install on the support, the inside that connects the lacquer case is installed to the lacquer case, scribble the lacquer case and connect the lacquer case and be inside cavity and upper end opening setting.

By adopting the technical scheme, the antirust paint is poured into the paint coating box, then the steel member is moved to the position right above the paint coating box through the grabbing device, and then the steel member is vertically moved downwards so as to be submerged in the antirust paint in the paint coating box, and then the second air cylinder is started to separate the steel member from the magnetic attraction plate through the release plate so as to enable the steel member to be completely sunk into the antirust paint; then, the steel member adhered with the antirust paint is lifted out again through the magnetic suction plate; when the steel member is placed into the paint coating box, redundant antirust paint can overflow, and the overflowing antirust paint can directly flow into the paint receiving box to be stored, so that the effect of the overflowing antirust paint is not wasted, and the overflowing antirust paint can be recycled.

Optionally, a paint circulating device is further arranged on the bottom plate, the paint circulating device comprises a paint storage box, a flow guide pipe, an oil pump, a suction pipe and a conveying pipe, the paint storage box is arranged on the bottom plate and located below the paint receiving box, the flow guide pipe is communicated with the space between the paint receiving box and the paint storage box and used for introducing anti-rust paint in the paint receiving box into the paint storage box, the oil pump is arranged on one side of the paint storage box on the bottom plate, one end of the suction pipe is communicated with a pump inlet of the oil pump, the other end of the suction pipe is communicated with the inside of the paint storage box, and the conveying pipe is communicated with a pump outlet end of the oil pump; the upper end wall of the paint coating box is provided with a flow guide hole, one end of the flow guide hole, which is far away from an upper end opening of the paint coating box, is communicated with the inside of the paint coating box, and one end of the conveying pipe, which is far away from the oil pump, is communicated with the flow guide hole.

Through adopting above-mentioned technical scheme, connect the interior anti-corrosive paint of lacquer case can flow into to depositing the lacquer incasement through the honeycomb duct, start the oil pump after that, will connect the interior anti-corrosive paint of lacquer incasement to let in the water conservancy diversion downthehole through draft tube and conveyer pipe, and anti-corrosive paint then can flow into again through the water conservancy diversion hole and scribble the lacquer incasement to reach the effect of the anti-corrosive paint that makes things convenient for cyclic utilization to overflow out.

Optionally, the drying zone includes a turnover cage, a baking box, a heating assembly and a rotating assembly, the baking box is mounted on the bottom plate, the turnover cage is located in the baking box, and the turnover cage and the baking box are both provided with openings at upper ends; a rotating shaft is arranged between the center of the side wall of the turnover net cage and the inner side wall of the baking box, the turnover net cage is rotatably connected with the baking box through the rotating shaft, and the heating assembly is arranged in the baking box and used for providing hot air for the interior of the baking box; the rotating assembly is installed on the bottom plate and used for driving the overturning mesh cage to rotate in the baking box.

Heating element includes hot-blast case, air-blower, battery and heating wire, toast and leave the clearance between case and the bottom plate, air-blower and battery are all installed in the position of toasting between case and the bottom plate, hot-blast case is installed and is toasted the incasement and be located the upset cylinder mould and toast the position between the inner diapire of case, the heating wire is laid in hot-blast case, one side that hot-blast case is close to the upset cylinder mould is provided with many hot-blast main with the inside intercommunication of hot-blast incasement, the air outlet end intercommunication of air-blower has the tuber pipe, go out the tuber pipe with hot-blast case is linked together, the heating wire with the battery passes through the wire.

The rotary component comprises a servo motor, a third cylinder, a sliding seat, a butt joint screen plate, a covering screen plate and a sliding rod, wherein the third cylinder is arranged on the bottom plate and positioned on one side of the baking box, the extending direction of a piston rod of the third cylinder is parallel to the length direction of a rotating shaft, the sliding seat is arranged on the piston rod of the third cylinder and slides relative to the surface of the bottom plate, the servo motor is arranged on the sliding seat, an inlet and outlet hole is formed in the side wall of the baking box, an output shaft of the servo motor penetrates through the inlet and outlet hole and extends into the baking box, the output shaft of the servo motor and the rotating shaft are positioned on the same straight line, the butt joint screen plate is vertically arranged at the end part of the output shaft of the servo motor, the covering screen plate is horizontally arranged on the butt joint screen plate and is far away from one side of the bottom wall in the baking box, the sliding rod is horizontally arranged on the, a sliding cylinder for inserting a sliding rod is arranged on the outer wall of the turnover cylinder mould, the opening end of the sliding cylinder is opposite to the end part of the sliding rod, and the length direction of the sliding cylinder is parallel to the length direction of the rotating shaft; after the sliding rod is inserted into the sliding cylinder, the covering screen plate covers the opening of the turnover net cage.

By adopting the technical scheme, the steel member adhered with the antirust paint is moved to the drying area, is positioned right above the opening at the upper end of the turnover net cage, is lowered, enters the turnover net cage, is separated from the magnetic suction plate through the release plate, and is left in the turnover net cage; then, a third cylinder is started, a piston rod of the third cylinder extends, the sliding seat drives the servo motor to move towards the direction close to the baking box, at the moment, the output shaft of the servo motor drives the butt joint screen plate to move towards the side close to the overturning mesh cage, at the moment, the sliding rod is gradually inserted into the sliding cylinder, and the covering mesh plate on the butt joint screen plate covers the opening of the overturning mesh cage; at the moment, an output shaft of the servo motor is started to drive the butt joint net plate to rotate, so that the whole overturning mesh cage can also synchronously rotate with the rotating shaft; in the rotating process, the blower is started to blow air into the hot air box, the heating wire electrically connected with the storage battery generates heat at the moment, and the air from the hot air pipe is hot air; and under the continuous rotation of upset cylinder mould, hot-blast can contact with the steel member fully to let the anti rust paint on steel member surface be weathered, thereby reach the comparatively convenient effect of stoving steel hook spare.

Optionally, the rusting test area comprises a hydrogen peroxide water bin installed on the bottom plate, the upper end of the hydrogen peroxide water bin is opened, the interior of the hydrogen peroxide water bin is hollow, and hydrogen peroxide is filled in the hydrogen peroxide water bin.

Through adopting above-mentioned technical scheme, directly put into the hydrogen peroxide solution storehouse to the steel member of coating anti-rust paint, let hydrogen peroxide solution oxidize the steel hook spare that has the coating anti-rust paint, observe the rusty time length of steel hook spare that has the coating anti-rust paint in the hydrogen peroxide solution to reach the comparatively convenient effect of anti-rust performance of measurement steel hook spare.

Optionally, a visible window is arranged on the outer wall of the hydrogen peroxide bin.

Through adopting above-mentioned technical scheme, but the setting of visual window can make things convenient for survey crew to survey the condition of steel member in the hydrogen peroxide storehouse.

In summary, the present application includes at least one of the following beneficial technical effects:

after the steel member is manufactured, the prefabricated steel member is directly grabbed on site through a grabbing device, and then the grabbing device drives the steel member to move through a driving device, so that the steel member moves to a coating area, and the surface of the steel member is coated with antirust paint; grabbing the steel member to a drying area through a grabbing device, drying the steel member coated with the antirust paint in the drying area, grabbing the steel member to a rust testing area through the grabbing device, and performing rust testing on the steel member coated with the antirust paint; after the arrangement, when the prefabricated steel component is manufactured on site, the steel component can be directly subjected to rust prevention test on site, and manual smearing is not needed when the rust prevention paint is coated, so that the effects of improving the labor cost and time cost of steel component inspection are achieved;

moving the steel member adhered with the antirust paint to a drying area, enabling the steel member to be located right above an opening at the upper end of the turnover net cage, then lowering the steel member, enabling the steel member to enter the turnover net cage, immediately separating the steel member from the magnetic suction plate through the release plate, and enabling the steel member to be left in the turnover net cage; then, a third cylinder is started, a piston rod of the third cylinder extends, the sliding seat drives the servo motor to move towards the direction close to the baking box, at the moment, the output shaft of the servo motor drives the butt joint screen plate to move towards the side close to the overturning mesh cage, at the moment, the sliding rod is gradually inserted into the sliding cylinder, and the covering mesh plate on the butt joint screen plate covers the opening of the overturning mesh cage; at the moment, an output shaft of the servo motor is started to drive the butt joint net plate to rotate, so that the whole overturning mesh cage can also synchronously rotate with the rotating shaft; in the rotating process, the blower is started to blow air into the hot air box, the heating wire electrically connected with the storage battery generates heat at the moment, and the air from the hot air pipe is hot air; and under the continuous rotation of upset cylinder mould, hot-blast can contact with the steel member fully to let the anti rust paint on steel member surface be weathered, thereby reach the comparatively convenient effect of stoving steel hook spare.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a partial sectional view of an embodiment of the present application for showing the interior of a top panel.

Fig. 3 is an enlarged view of a portion a in fig. 2.

FIG. 4 is a partial cross-sectional view of an embodiment of the present application showing a paint field.

Fig. 5 is a partial sectional view for showing a drying section according to an embodiment of the present application.

Fig. 6 is an enlarged view of a portion a in fig. 5.

Description of reference numerals: 1. detecting a room; 11. a top plate; 111. a bar-extending hole; 12. a base plate; 121. a support; 13. a support bar; 2. a coating area; 21. painting box; 211. a flow guide hole; 22. a paint receiving box; 3. a drying zone; 31. turning over the cylinder mould; 311. a sliding cylinder; 32. a baking oven; 321. an inlet and outlet hole; 33. a heating assembly; 331. a hot air box; 3311. a hot air pipe; 332. a blower; 333. a storage battery; 334. an electric heating wire; 34. a rotating assembly; 341. a servo motor; 342. a third cylinder; 343. a sliding seat; 344. butting the net plates; 345. covering the screen plate; 346. a slide bar; 35. a rotating shaft; 4. a hydrogen peroxide bin; 41. a visual window; 5. a gripping device; 51. a moving beam; 52. a first cylinder; 53. a magnetic attraction plate; 6. a drive device; 61. rotating the motor; 62. a threaded rod; 63. a threaded sleeve; 631. an L-shaped rod; 7. a disconnect assembly; 71. a second cylinder; 72. releasing the plate; 8. a paint circulating device; 81. a paint storage box; 82. a flow guide pipe; 83. an oil pump; 84. a draft tube; 85. a delivery pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a finish decoration design system based on a BIM three-dimensional visualization technology. Referring to fig. 1 and 2, the finishing decoration design system based on the BIM three-dimensional visualization technology comprises a detection room 1, wherein the detection room 1 comprises a top plate 11, a bottom plate 12 and a support rod 13, the shapes of the surfaces of the bottom plate 12 and the top plate 11 are rectangular, and the surface areas of the two plate bodies are the same; four supporting rods 13 are vertically welded on the bottom plate 12 and are respectively positioned at four corners of the bottom plate 12; the top plate 11 is arranged on the support rod 13 and is positioned above the bottom plate 12; the bottom plate 12 is provided with a coating area 2, a drying area 3 and a rust test area; the top plate 11 is provided with a grabbing device 5 in a sliding mode, and the grabbing device 5 is used for grabbing the steel member; the top plate 11 is also provided with a driving device 6, and the driving device 6 is used for driving the gripping device 5 to move along the length direction of the top plate 11; in the moving process, the steel wire sequentially passes through the coating area 2, the drying area 3 and the rusting test area; coating district 2 is used for the steel member coating antirust paint that snatchs grabbing device 5, and drying zone 3 is used for supplying the steel member that has the coating antirust paint to dry, and the test district that rusts is used for carrying out the rust test to the steel member that has the coating antirust paint and after drying. It is worth noting that in the embodiment, the rust test is to put the steel member coated with the anti-rust paint into hydrogen peroxide, check the rust time of the steel member coated with the anti-rust paint, and according to different construction sites, the qualified time of the steel member is different; and the steel member used for testing is I-steel with a long strip shape.

As shown in fig. 2 and 3, the gripping device 5 includes a movable beam 51, a first cylinder 52 and a magnetic attraction plate 53, the movable beam 51 is movably disposed on the top plate 11, the first cylinder 52 is bolted to the movable beam 51, a piston rod of the first cylinder 52 extends vertically downward, the magnetic attraction plate 53 is welded at an end of the piston rod of the first cylinder 52, the magnetic attraction plate 53 is used for attracting a steel member, and the magnetic attraction plate 53 is substantially a magnet with a rectangular plate surface; the first cylinder 52 is connected to each of both ends of the transfer beam 51 in the longitudinal direction by bolts; the shifting beam 51 is further provided with a disengaging assembly 7, the disengaging assembly 7 is used for disengaging the steel member from the magnetic suction plate 53, the disengaging assembly 7 comprises a second air cylinder 71 and a disengaging plate 72, the second air cylinder 71 is connected to the middle of the shifting beam 51 through a bolt, the extension direction of a piston rod of the second air cylinder 71 is consistent with that of a piston rod of the first air cylinder 52, the disengaging plate 72 is welded at the end part of the piston rod of the second air cylinder 71, and the maximum extension length of the piston rod of the second air cylinder 71 is larger than that of the piston rod of the first air cylinder 52; and the distances between the second cylinder 71 and the two first cylinders 52 are all equal.

When the steel member needs to be grabbed, the steel member is directly placed on the bottom plate 12, then the movable beam 51 is moved to a position right above the steel member, then the first air cylinder 52 is started, a piston rod of the first air cylinder 52 is extended, the magnetic attraction plate 53 is attached to the surface of the steel member, and due to the magnetic attraction effect, the magnetic attraction plate 53 attracts the steel member, so that the movable beam 51 can drive the attracted steel member to move in the length direction of the top plate 11, and the effect of conveniently grabbing the steel member is achieved; when the steel member needs to be disengaged, the second cylinder 71 is directly started, so that the piston rod of the second cylinder 71 extends, and because the maximum extension length of the piston rod of the second cylinder 71 is greater than that of the piston rod of the first cylinder 52, the disengagement plate 72 can abut against the upper surface of the adsorbed steel member, and the disengagement plate 72 can forcibly disengage the magnetic attraction plate 53 from the steel member under the action of thrust.

As shown in fig. 2 and 3, the driving device 6 includes a rotating motor 61 and a threaded rod 62, the inside of the top plate 11 is hollow, and the rotating motor 61 is bolted inside the top plate 11; the threaded rod 62 is coaxially welded on the output shaft of the rotating motor 61, and the length direction of the threaded rod 62 is parallel to the length direction of the top plate 11; one end of the threaded rod 62, which is far away from the rotating motor 61, is rotatably connected with the inner end wall of the top plate 11, namely, a rolling bearing is welded on the inner end wall of the top plate 11, and the threaded rod 62 penetrates through the inner ring of the rolling bearing and is in interference fit with the rolling bearing; threaded sleeve 63 is equipped with to the last thread bush of threaded rod 62, and L shape pole 631 has all been welded to the both sides of threaded sleeve 63, and roof 11 just has all seted up on the face on ground and be located threaded rod 62 and has stretched out a hole 111, and the length direction who stretches out a hole 111 is unanimous with the length direction of threaded rod 62, and the one end that stretches out a hole 111 confession L shape pole 631 stretches out, and L shape pole 631 is located the outer one end of roof 11 and welds mutually with walking beam 51. In order to increase the bending strength of the L-shaped rod 631, slide rails (not shown) are provided in the top plate 11 on both sides of the threaded rod 62, and the longitudinal direction of the slide rails (not shown) coincides with the longitudinal direction of the threaded rod 62; a support sliding rod (not shown in the figure) is vertically welded on the L-shaped rod 631, one end of the support sliding rod (not shown in the figure) far away from the L-shaped rod 631 is rotatably provided with a roller (not shown in the figure), the roller (not shown in the figure) is in rolling fit with the sliding rail (not shown in the figure), namely, a sliding groove (not shown in the figure) is formed in the sliding rail (not shown in the figure) along the length direction of the sliding rail (not shown in the figure), and the roller (not shown in the figure) rolls along the length direction of the.

The rotating motor 61 is started, so that the output shaft of the rotating motor 61 drives the threaded rod 62 to rotate, the threaded sleeve 63 is sleeved on the threaded rod 62 in a threaded manner, and the threaded sleeve 63 is connected with the movable beam 51 through the L-shaped rod 631, so that the threaded sleeve 63 can move along the length direction of the threaded rod 62, and the support slide bar 6311 can support a section of the L-shaped rod 631 located in the top plate 11, so that the L-shaped rod 631 is not easily deformed by the pulling force of the movable beam 51; and the arrangement of the sliding rail 112 and the roller 6312 enables the supporting slide bar 6311 to move synchronously with the L-shaped bar 631 while being supported by the L-shaped bar 631. At this time, the transfer beam 51 is moved along the length direction of the top plate 11, so that the transfer beam 51 can grasp the hook and move along the length direction of the top plate 11.

As shown in fig. 1 and 4, the paint area 2 includes a paint box 21 and a paint receiving box 22, and the paint box 21 and the paint receiving box 22 are rectangular; the welding has support 121 on the bottom plate 12, connects the lacquer case 22 then to weld on support 121, and the case of scribbling 21 welds on the inside wall that connects the lacquer case 22 through two horizontal extension's horizontal poles, scribbles the case of scribbling 21 and connect the lacquer case 22 and be inside cavity and upper end opening setting. The bottom plate 12 is further provided with a paint circulating device 8, the paint circulating device 8 comprises a paint storage box 81, a flow guide pipe 82, an oil pump 83, a suction pipe 84 and a conveying pipe 85, the paint storage box 81 is placed on the bottom plate 12 and is positioned below the paint receiving box 22, and the flow guide pipe 82 is communicated between the paint receiving box 22 and the paint storage box 81 and is used for introducing antirust paint in the paint receiving box 22 into the paint storage box 81; the oil pump 83 is arranged on the bottom plate 12 and positioned at one side of the paint storage box 81, one end of the suction pipe 84 is communicated with a pump inlet of the oil pump 83, and the other end of the suction pipe is communicated with the interior of the paint storage box 81; the delivery pipe 85 is communicated with the pump outlet end of the oil pump 83; the upper end wall of the painting box 21 is provided with a diversion hole 211 (the wall of the painting box 21 has a certain thickness, so the diversion hole 211 is arranged on the wall of the painting box 21), one end of the diversion hole 211, which is far away from the upper end opening of the painting box 21, is communicated with the inside of the painting box 21, and one end of the delivery pipe 85, which is far away from the oil pump 83, is communicated with the diversion hole 211.

Pouring antirust paint into the paint coating box 21, moving the steel member to the position right above the paint coating box 21 through the grabbing device 5, vertically moving the steel member downwards to enable the steel member to be submerged in the antirust paint in the paint coating box 21, and then starting the second air cylinder 71 to separate the steel member from the magnetic attraction plate 53 through the release plate 72 to enable the steel member to be completely submerged in the antirust paint; then, the steel member adhered with the antirust paint is lifted out again through the magnetic suction plate 53; when the steel member is placed in the paint coating box 21, the redundant antirust paint overflows, and the overflowing antirust paint directly flows into the paint receiving box 22 to be stored; the anti-rust paint in the paint receiving box 22 flows into the paint storage box 81 through the guide pipe 82, then the oil pump 83 is started, the anti-rust paint in the paint receiving box 22 is introduced into the guide hole 211 through the suction pipe 84 and the conveying pipe 85, and the anti-rust paint flows into the paint coating box 21 again through the guide hole 211, so that the effect of conveniently recycling the overflowing anti-rust paint is achieved.

As shown in fig. 5 and 6, the drying zone 3 includes a turnover cage 31, a baking box 32, a heating assembly 33 and a rotating assembly 34, the baking box 32 is welded on the bottom plate 12, the turnover cage 31 is located in the baking box 32, the turnover cage 31 and the baking box 32 are both rectangular, and the turnover cage 31 and the baking box 32 are both provided with openings at upper ends; a rotating shaft 35 is welded between the center of the side wall of the turnover cage 31 and the inner side wall of the baking box 32, and the turnover cage 31 is rotatably connected with the baking box 32 through the rotating shaft 35; the welding has antifriction bearing on the inside wall of toasting case 32 promptly, and axis of rotation 35 passes antifriction bearing's inner circle and with antifriction bearing interference fit, and the one end welding that axis of rotation 35 kept away from antifriction bearing is at the lateral wall center of upset cylinder mould 31, and is very steady when can letting upset cylinder mould 31 rotate like this. The heating assembly 33 is disposed inside the oven 32 and serves to supply hot wind to the inside of the oven 32; a rotation assembly 34 is mounted on the base plate 12 and is used to drive the flip cage 31 for rotation within the toasting chamber 32.

As shown in fig. 5 and 6, the heating assembly 33 includes a hot air box 331, a blower 332, a storage battery 333 and a heating wire 334, and a gap is left between the baking box 32 and the bottom plate 12, i.e. the baking box 32 is supported on the bottom plate 12 by a frame; the blower 332 and the battery 333 are bolted to the floor at a location between the roaster oven 32 and the floor 12. The hot air box 331 is welded on the inner bottom wall of the baking box 32 and is positioned between the turnover mesh cage 31 and the inner bottom wall of the baking box 32, and the heating wire 334 is arranged in the hot air box 331; one side of the hot air box 331 close to the turnover cylinder mould 31 is provided with a plurality of hot air pipes 3311 communicated with the inside of the hot air box 331, the air outlet end of the blower 332 is communicated with an air outlet pipe, the air outlet pipe is communicated with the hot air box 331, and the heating wire 334 is electrically connected with the storage battery 333 through a conducting wire.

As shown in fig. 5 and 6, the rotating assembly 34 includes a servo motor 341, a third cylinder 342, a sliding seat 343, a butt-joint screen plate 344, a covering screen plate 345 and a sliding rod 346, one side of the bottom plate 12 is welded with an extension plate in a rectangular parallelepiped shape, the third cylinder 342 is bolted on the extension plate and is located at one side of the baking box 32, the length direction of the extension plate is parallel to the length direction of the piston rod of the third cylinder 342, the extension direction of the piston rod of the third cylinder 342 is parallel to the length direction of the rotating shaft 35, and the piston rod of the third cylinder 342 extends in a direction approaching the baking box 32; the sliding seat 343 is welded at the end of the piston rod of the third cylinder 342 and slides relative to the plate surface of the bottom plate 12, that is, a guide rail consistent with the length direction of the extension plate is arranged on the extension plate, and the sliding seat 343 slides in the guide rail; the servo motor 341 is bolted to the top of the sliding seat 343, an access hole 321 in a rectangular shape is formed in the side wall of the baking oven 32, and an output shaft of the servo motor 341 passes through the access hole 321 and then extends into the baking oven 32; the output shaft of the servo motor 341 and the rotating shaft 35 are in the same straight line, and the butt joint net plate 344 is vertically welded at the end part of the output shaft of the servo motor 341; the cover screen 345 is horizontally disposed on the docking screen 344 at a side away from the inner bottom wall of the toaster case 32, the sliding bar 346 is horizontally disposed on the docking screen 344 at a side close to the inner bottom wall of the toaster case 32, and the cross-sectional shapes of the cover screen 345, the docking grid and the sliding bar 346 are "U" shaped. The outer wall of the inverted cylinder mould 31 is welded with a sliding cylinder 311 for inserting the sliding rod 346, and the open end of the sliding cylinder 311 is opposite to the end of the sliding rod 346, namely the sliding cylinder 311 and the sliding rod 346 are on the same straight line. The length direction of the slide cylinder 311 is parallel to the length direction of the rotary shaft 35; after the sliding bar 346 is inserted into the sliding cylinder 311, the cover screen 345 covers the opening of the reversed cylinder mould 31.

Moving the steel member adhered with the antirust paint to the drying area 3, enabling the steel member to be located right above the opening at the upper end of the turnover net cage 31, then lowering the steel member, enabling the steel member to enter the turnover net cage 31, immediately separating the steel member from the magnetic suction plate 53 through the release plate 72, and enabling the steel member to be left in the turnover net cage 31; then, the third cylinder 342 is started, so that the piston rod of the third cylinder 342 extends, the sliding seat 343 drives the servo motor 341 to move toward the baking box 32, at this time, the output shaft of the servo motor 341 drives the docking screen plate 344 to move toward the side of the flipping cage 31, at this time, the sliding rod 346 is gradually inserted into the sliding cylinder 311, and the opening of the flipping cage 31 is covered by the covering screen plate 345 on the docking screen plate 344; at this time, the output shaft of the servo motor 341 is started to drive the butt joint net plate 344 to rotate, so that the whole overturning mesh cage 31 also rotates synchronously with the rotating shaft 35; in the process of rotation, the blower 332 is started, so that the blower 332 blows air into the hot air box 331, the heating wire 334 electrically connected with the storage battery 333 generates heat, and the air coming out of the hot air pipe 3311 is hot air; and under the continuous rotation of upset cylinder mould 31, hot-blast can contact with the steel member fully to let the anti rust paint on steel member surface be weathered, thereby reach the comparatively convenient effect of stoving steel hook spare.

As shown in fig. 1, the rusting test area comprises a hydrogen peroxide water bin 4 arranged on a bottom plate 12, the upper end of the hydrogen peroxide water bin 4 is open, the interior of the hydrogen peroxide water bin 4 is hollow, and hydrogen peroxide is filled in the hydrogen peroxide water bin 4. In order to facilitate the measurement personnel to observe the conditions in the hydrogen peroxide bin 4, a visual window 41 is arranged on the outer wall of the hydrogen peroxide bin 4; directly put into hydrogen peroxide solution storehouse 4 to the steel member of coating anti-rust paint, let hydrogen peroxide solution oxidize the steel hook spare that has the coating anti-rust paint, observe the rusty length of time of steel hook spare that has the coating anti-rust paint in hydrogen peroxide solution to reach the comparatively convenient effect of measurement steel hook spare's anti-rust performance.

The implementation principle of the fine decoration design system based on the BIM three-dimensional visualization technology in the embodiment of the application is as follows: after the steel member is manufactured, the prefabricated steel member is directly grabbed on site through the grabbing device 5, then the grabbing device 5 drives the steel member to move through the driving device 6, so that the steel member moves to the coating area 2, and the surface of the steel member is coated with antirust paint; then grabbing the steel member to the drying area 3 through the grabbing device 5 to dry the steel member coated with the anti-rust paint in the drying area 3, grabbing the steel member to a rust test area through the grabbing device 5, and performing rust test on the steel member coated with the anti-rust paint; after setting up like this, when prefabricated steel component is good at the scene, alright in order directly to carry out rust-resistant test to the steel component at the scene to also need not artifical manual the paining when coating anti-rust paint, thereby reach the effect that improves the cost of labor and the time cost problem of steel component inspection.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a smart fitment design system based on BIM three-dimensional visualization technique which characterized in that: the device comprises a detection room (1), wherein the detection room (1) comprises a top plate (11), a bottom plate (12) and a plurality of supporting rods (13), the supporting rods (13) are vertically arranged on the bottom plate (12), and the top plate (11) is arranged on the supporting rods (13) and is positioned above the bottom plate (12); the bottom plate (12) is provided with a coating area (2), a drying area (3) and a rust test area; the steel structure lifting device is characterized in that a grabbing device (5) is arranged on the top plate (11) in a sliding mode, the grabbing device (5) is used for grabbing steel components, a driving device (6) is further arranged on the top plate (11), and the driving device (6) is used for driving the grabbing device (5) to move along the length direction of the top plate (11); coating district (2) are used for the steel member coating anti-rust paint that snatchs grabbing device (5), drying area (3) are used for supplying the steel member that has the coating anti-rust paint to dry, rust test district is used for carrying out the rust test to the steel member that has the coating anti-rust paint and after drying.

2. The finishing design system based on BIM three-dimensional visualization technology of claim 1, which is characterized in that: grabbing device (5) include walking beam (51), first cylinder (52) and magnetism suction disc (53), walking beam (51) remove the setting and are in on roof (11), first cylinder (52) set up on walking beam (51) and the vertical downwardly extending of piston rod of first cylinder (52), magnetism suction disc (53) set up the piston rod tip in first cylinder (52), magnetism suction disc (53) are used for adsorbing the steel member, first cylinder (52) respectively are provided with one at the length direction's of walking beam (51) both ends.

3. The finishing design system based on BIM three-dimensional visualization technology of claim 2, wherein: the movable beam (51) is further provided with a disengaging assembly (7), the disengaging assembly (7) is used for disengaging the steel member from the magnetic suction plate (53), the disengaging assembly (7) comprises a second air cylinder (71) and a disengaging plate (72), the second air cylinder (71) is arranged in the middle of the movable beam (51), the extending direction of a piston rod of the second air cylinder (71) is consistent with the extending direction of a piston rod of the first air cylinder (52), the disengaging plate (72) is arranged at the end part of the piston rod of the second air cylinder (71), and the maximum extending length of the piston rod of the second air cylinder (71) is larger than that of the first air cylinder (52).

4. The finishing design system based on BIM three-dimensional visualization technology of claim 2, wherein: drive arrangement (6) are including rotating motor (61) and threaded rod (62), the inside cavity of roof (11) sets up, it installs to rotate motor (61) in roof (11), threaded rod (62) coaxial line sets up on the output shaft of rotating motor (61), the length direction of threaded rod (62) parallels with the length direction of roof (11), the one end that rotates motor (61) is kept away from in threaded rod (62) with the inner endwall of roof (11) rotates to be connected, threaded rod (62) are gone up the thread bush and are equipped with threaded sleeve (63), the both sides of threaded sleeve (63) all are provided with L shape pole (631), roof (11) just have all seted up on the face on ground and be located the both sides of threaded rod (62) and have stretched out a hole (111), the length direction that stretches out a hole (111) is unanimous with the length direction of threaded rod (62), the protruding strip hole (111) is used for extending one end of an L-shaped rod (631), and one end, located outside the top plate (11), of the L-shaped rod (631) is connected with the moving beam (51).

5. The finishing design system based on BIM three-dimensional visualization technology of claim 1, which is characterized in that: coating district (2) is including scribbling lacquer case (21) and connecing lacquer case (22), be provided with support (121) on bottom plate (12), connect lacquer case (22) to install on support (121), scribble lacquer case (21) and install the inside that connects lacquer case (22), scribble lacquer case (21) and connect lacquer case (22) to be inside cavity and upper end opening setting.

6. The finishing design system based on BIM three-dimensional visualization technology of claim 5, wherein: still be provided with lacquer circulating device (8) on bottom plate (12), lacquer circulating device (8) are including depositing lacquer case (81), honeycomb duct (82), oil pump (83), draft tube (84) and conveyer pipe (85), deposit lacquer case (81) and set up on bottom plate (12) and be located the below that connects lacquer case (22), honeycomb duct (82) intercommunication sets up and connects lacquer case (22) and deposit between lacquer case (81) and be used for letting in the anti rust paint that connects in lacquer case (22) to deposit lacquer case (81), one side that is located deposit lacquer case (81) on bottom plate (12) is installed to oil pump (83), the one end of draft tube (84) is linked together with the pump entry of oil pump (83), the other end is linked together with the inside of depositing lacquer case (81), conveyer pipe (85) intercommunication sets up the pump outlet end at oil pump (83); the paint spraying device is characterized in that a guide hole (211) is formed in the upper end wall of the paint spraying box (21), one end, far away from an upper end opening of the paint spraying box (21), of the guide hole (211) is communicated with the inside of the paint spraying box (21), and one end, far away from the oil pump (83), of the conveying pipe (85) is communicated with the guide hole (211).

7. The finishing design system based on BIM three-dimensional visualization technology of claim 1, which is characterized in that: the drying zone (3) comprises a turnover cylinder mould (31), a baking box (32), a heating assembly (33) and a rotating assembly (34), the baking box (32) is installed on the bottom plate (12), the turnover cylinder mould (31) is located in the baking box (32), and the turnover cylinder mould (31) and the baking box (32) are both arranged with openings at the upper ends; a rotating shaft (35) is arranged between the center of the side wall of the overturning netpen (31) and the inner side wall of the baking box (32), the overturning netpen (31) is rotatably connected with the baking box (32) through the rotating shaft (35), and the heating assembly (33) is arranged in the baking box (32) and is used for providing hot air for the inside of the baking box (32); the rotating assembly (34) is installed on the bottom plate (12) and is used for driving the overturning mesh cage (31) to rotate in the baking box (32);

the heating component (33) comprises a hot air box (331), a blower (332), a storage battery (333) and a heating wire (334), a gap is reserved between the baking box (32) and the bottom plate (12), the blower (332) and the storage battery (333) are both arranged at the position between the baking box (32) and the bottom plate (12), the hot air box (331) is installed in the baking box (32) and is positioned between the turnover net cage (31) and the inner bottom wall of the baking box (32), the electric heating wire (334) is arranged in the hot air box (331), one side of the hot air box (331) close to the turnover net cage (31) is provided with a plurality of hot air pipes (3311) communicated with the interior of the hot air box (331), the air outlet end of the blower (332) is communicated with an air outlet pipe which is communicated with the hot air box (331), the heating wire (334) is electrically connected with the storage battery (333) through a lead;

the rotating assembly (34) comprises a servo motor (341), a third cylinder (342), a sliding seat (343), a butt joint screen plate (344), a covering screen plate (345) and a sliding rod (346), the third cylinder (342) is arranged on the bottom plate (12) and positioned on one side of the baking box (32), the extending direction of a piston rod of the third cylinder (342) is parallel to the length direction of the rotating shaft (35), the sliding seat (343) is arranged on the piston rod of the third cylinder (342) and slides relative to the plate surface of the bottom plate (12), the servo motor (341) is arranged on the sliding seat (343), an inlet and outlet hole (321) is formed in the side wall of the baking box (32), an output shaft of the servo motor (341) passes through the inlet and outlet hole (321) and then extends into the baking box (32), and the output shaft of the servo motor (341) and the rotating shaft (35) are positioned on the same straight line, the butt joint screen plate (344) is vertically arranged at the end part of an output shaft of the servo motor (341), the covering screen plate (345) is horizontally arranged on the butt joint screen plate (344) and is far away from one side of the inner bottom wall of the baking box (32), the sliding rod (346) is horizontally arranged on the butt joint screen plate (344) and is close to one side of the inner bottom wall of the baking box (32), a sliding cylinder (311) for the sliding rod (346) to be inserted is arranged on the outer wall of the overturning mesh cage (31), the open end of the sliding cylinder (311) is opposite to the end part of the sliding rod (346), and the length direction of the sliding cylinder (311) is parallel to the length direction of the rotating shaft (35); after the sliding rod (346) is inserted into the sliding cylinder (311), the cover screen plate (345) covers the opening of the turnover net cage (31).

8. The finishing design system based on BIM three-dimensional visualization technology of claim 1, which is characterized in that: the rust test area comprises a hydrogen peroxide bin (4) installed on a bottom plate (12), an upper end opening of the hydrogen peroxide bin (4) is arranged in the hollow space, and hydrogen peroxide is installed in the hydrogen peroxide bin (4).

9. The finishing design system based on BIM three-dimensional visualization technology of claim 8, wherein: the outer wall of the hydrogen peroxide bin (4) is provided with a visual window (41).