CN215524510U - Intelligence construction measuring device based on BIM - Google Patents

Abstract

The utility model discloses an intelligent construction measuring device based on BIM (building information modeling), which comprises a rotating mechanism, a lifting mechanism and an infrared measuring instrument body, wherein the lifting mechanism is rotatably connected to the top of the rotating mechanism; this scheme, it rotates to drive the worm through the motor, the worm drives the transmission shaft through the worm wheel with it meshing and rotates, the transmission shaft and then the cooperation through second gear and first gear, it rotates to drive the rotation post, the third gear that can pass through the opposite side when rotating the rotation post drives the dwang and rotates, the dwang and then the axle that drives on the angular displacement sensor rotate, reach the purpose of measuring turned angle, can be according to the intelligent regulation turned angle of the order that BIM sent, convenience when rotating has been improved greatly.

Description

Intelligence construction measuring device based on BIM

Technical Field

The utility model relates to the technical field of construction measurement, in particular to an intelligent construction measurement device based on BIM.

Background

The BIM can help to realize the integration of building information, and various information is always integrated in a three-dimensional model information database from the design, construction and operation of a building to the end of the whole life cycle of the building, so that personnel of a design team, a construction unit, a facility operation department, an owner and the like can perform cooperative work based on the BIM, thereby effectively improving the working efficiency, saving resources, reducing the cost and realizing sustainable development.

The construction survey refers to a measurement work such as control, lofting, and completion acceptance performed for construction. In contrast to the conventional mapping work, construction layout is to mark the designed building position, shape, size and elevation on the ground according to the design drawing so as to perform construction according to the marked dotted lines.

Traditional construction measuring device, rotation that can not be nimble in the use, need remove whole device and rotate when needs adjustment horizontal angle, and then rotate measuring instrument, in some narrow and small spaces, very inconvenient when adjusting whole device, greatly reduced construction measuring device's suitability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent construction measuring device based on BIM, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an intelligent construction measuring device based on BIM includes: the infrared measuring instrument comprises a rotating mechanism, a lifting mechanism and an infrared measuring instrument body, wherein the lifting mechanism is rotatably connected to the top of the rotating mechanism, and the infrared measuring instrument body is detachably arranged on the top of a fixed plate;

the rotating mechanism comprises a fixed box and a rotating column, the rotating column is rotatably connected to the center of the bottom of the inner cavity of the fixed box, and the top of the rotating column penetrates through the fixed box;

the lifting mechanism comprises a rotating plate, an air cylinder and a fixing plate, the rotating plate is welded to the top end of the rotating column, the air cylinder is fixedly installed at the top of the rotating plate, and the middle of the bottom of the fixing plate is fixedly connected with the upper end of a piston rod of the air cylinder.

Through adopting above-mentioned technical scheme, it rotates to drive the worm through the motor, the worm drives the transmission shaft through the worm wheel with it meshing and rotates, the transmission shaft and then the cooperation through second gear and first gear, it rotates to drive the rotation post, the third gear that can pass through the opposite side when rotating the post and rotating, the dwang then drives the axle on the angle displacement sensor and rotates, reach the purpose of measuring turned angle, can be according to the regulation turned angle of the order intelligence that BIM sent, convenience when rotating has been improved greatly.

Preferably, a motor is fixedly mounted on one side of the inner cavity of the fixed box, a worm is welded on an output shaft of the motor, a first gear is welded on the surface of the rotating column, and the first gear is located in the inner cavity of the fixed box.

By adopting the technical scheme, the motor can be used as a driver, and the purpose of automatic control is achieved.

Preferably, the inner chamber of fixed case rotates and is connected with the transmission shaft, the transmission shaft is located between worm and the rotation post, the bottom welding on transmission shaft surface has the worm wheel, the top welding on transmission shaft surface has the second gear.

Preferably, one side of the first gear close to the second gear is meshed with the second gear, and one side of the worm wheel close to the worm is meshed with the worm.

Through adopting above-mentioned technical scheme, can be through the cooperation of second gear and first gear and the cooperation of worm and worm wheel, make the motor drive rotate the post and rotate, and then realize driven purpose.

Preferably, the top of fixed case inner chamber and the one side of keeping away from the motor rotate and be connected with the dwang, the skin weld of dwang has the third gear, one side and the first gear meshing that the third gear is close to first gear, the bottom welding of dwang has the angular displacement sensor.

By adopting the technical scheme, the rotation angle of the rotating column can be counted through the angular displacement sensor, and the rotation angle is processed by the IBM system after being uploaded to the IBM system, so that the rotation angle of the rotating column is controlled.

Preferably, the bottom fixed mounting of fixed plate has displacement sensor, splint have all been welded to the both sides at fixed plate top, the infrared measuring instrument body is located two between the splint.

By adopting the technical scheme, the lifting height of the fixing plate can be recorded and is processed by the IBM system after being uploaded to the IBM system, so that the lifting height of the fixing plate is controlled.

Preferably, the rollers are welded on two sides of the bottom of the rotating plate, the top of the fixing box is provided with a groove, the bottom of each roller is in contact with the bottom of the inner cavity of the groove, and the rollers are in rolling connection with the grooves.

Through adopting above-mentioned technical scheme, can support the both sides of rotor plate, avoided the condition that the rotor plate appears inclining.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the worm is driven to rotate by the motor, the worm drives the transmission shaft to rotate by the worm wheel meshed with the worm, the transmission shaft further drives the rotating column to rotate by the matching of the second gear and the first gear, the rotating column can drive the rotating rod to rotate by the third gear on the other side when rotating, and the rotating rod further drives the shaft on the angular displacement sensor to rotate, so that the purpose of measuring the rotating angle is achieved, the rotating angle can be intelligently adjusted according to a command sent by the BIM, and the convenience in rotating is greatly improved.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent construction measuring device of the present invention;

FIG. 2 is a schematic cross-sectional view of an intelligent construction measuring device according to the present invention;

FIG. 3 is an enlarged view of a portion of A of FIG. 2;

FIG. 4 is a schematic top view of the sectional structure of the fixing box of the present invention;

fig. 5 is a schematic view of a connection structure of the transmission rod and the second gear.

In the figure: 1. a rotating mechanism; 2. a lifting mechanism; 11. a fixed box; 12. an angular displacement sensor; 13. a third gear; 14. rotating the rod; 15. rotating the column; 16. a first gear; 17. a second gear; 18. a drive shaft; 19. a worm gear; 110. a worm; 111. a motor; 112. a groove; 21. a rotating plate; 22. a cylinder; 23. a displacement sensor; 24. a fixing plate; 25. a splint; 26. a roller; 3. an infrared measuring instrument body.

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.

Referring to fig. 1-5, the present invention provides a technical solution:

an intelligent construction measuring device based on BIM includes: the device comprises a rotating mechanism 1, a lifting mechanism 2 and an infrared measuring instrument body 3, wherein the lifting mechanism 2 is rotatably connected to the top of the rotating mechanism 1, and the infrared measuring instrument body 3 is detachably arranged on the top of a fixing plate 24;

the rotating mechanism 1 comprises a fixed box 11 and a rotating column 15, the rotating column 15 is rotatably connected to the center of the bottom of the inner cavity of the fixed box 11, and the top of the rotating column 15 penetrates through the fixed box 11;

the lifting mechanism 2 comprises a rotating plate 21, an air cylinder 22 and a fixing plate 24, the rotating plate 21 is welded at the top end of the rotating column 15, the air cylinder 22 is fixedly installed at the top of the rotating plate 21, and the middle of the bottom of the fixing plate 24 is fixedly connected with the upper end of a piston rod of the air cylinder 22.

Through adopting above-mentioned technical scheme, it rotates to drive worm 110 through motor 111, worm 110 drives transmission shaft 18 through worm wheel 19 with it meshing and rotates, transmission shaft 18 and then the cooperation through second gear 17 and first gear 16, it rotates to drive pivot post 15, can drive dwang 14 through the third gear 13 of opposite side when pivot post 15 rotates and rotate, dwang 14 and then the axle that drives on the angle displacement sensor 12 rotates, reach the purpose of measuring turned angle, can be according to the intelligent regulation turned angle of the order that BIM sent, convenience when having improved the rotation infrared measuring instrument body 3 greatly.

Can realize automatic control's purpose through motor 111 as the driver, one side fixed mounting of fixed case 11 inner chamber has motor 111, and the output shaft welding of motor 111 has worm 110, and the surface welding of rotation post 15 has first gear 16, and first gear 16 is located the inner chamber of fixed case 11.

In order to enable the motor 111 to drive the rotating column 15 to rotate through the matching of the second gear 17 and the first gear 16 and the matching of the worm 110 and the worm wheel 19, and further achieve the purpose of transmission, a transmission shaft 18 is rotatably connected to the inner cavity of the fixed box 11, the transmission shaft 18 is located between the worm 110 and the rotating column 15, the worm wheel 19 is welded to the bottom of the surface of the transmission shaft 18, the second gear 17 is welded to the top of the surface of the transmission shaft 18, one side of the first gear 16, which is close to the second gear 17, is meshed with the second gear 17, and one side of the worm wheel 19, which is close to the worm 110, is meshed with the worm 110.

In order to count the rotation angle of the rotation column 15 through the angular displacement sensor 12, the top of the inner cavity of the fixed box 11 and one side far away from the motor 111 are rotatably connected with a rotation rod 14, a third gear 13 is welded on the surface of the rotation rod 14, one side of the third gear 13 close to the first gear 16 is meshed with the first gear 16, and the angular displacement sensor 12 is welded at the bottom of the rotation rod 14.

In order to record the lifting height of the fixing plate 24, the displacement sensor 23 is fixedly installed at the bottom of the fixing plate 24, the clamping plates 25 are welded on two sides of the top of the fixing plate 24, and the infrared measuring instrument body 3 is located between the two clamping plates 25.

In order to support the two sides of the rotating plate 21, the rollers 26 are welded on the two sides of the bottom of the rotating plate 21, the groove 112 is formed in the top of the fixing box 11, the bottom of the roller 26 is in contact with the bottom of the inner cavity of the groove 112, and the roller 26 is in rolling connection with the groove 112.

The structure principle is as follows: by starting the motor 111, the fixed box 11 drives the worm 110 to rotate through the output shaft, the worm 110 drives the transmission shaft 18 to rotate through the matching with the worm wheel 19, the transmission shaft 18 drives the rotating column 15 to rotate through the second gear 17 on the surface and the first gear 16 on the surface of the rotating column 15, and further the lifting mechanism 2 and the infrared measuring instrument body 3 mounted at the top of the rotating column 15 can be horizontally adjusted, during adjustment, the first gear 16 simultaneously drives the rotating rod 14 to rotate through the third gear 13, the rotating rod 14 drives the shaft of the angular displacement sensor 12 to rotate, and after the angular displacement sensor 12 uploads data to the IBM system, the data is processed by the IBM system, so that the rotating angle of the rotating column 15 is controlled.

The parts not involved in the present invention are the same as or can be implemented by the prior art. 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an intelligence construction measuring device based on BIM which characterized in that includes: the device comprises a rotating mechanism (1), a lifting mechanism (2) and an infrared measuring instrument body (3), wherein the lifting mechanism (2) is rotatably connected to the top of the rotating mechanism (1), and the infrared measuring instrument body (3) is detachably mounted on the top of a fixing plate (24);

the rotating mechanism (1) comprises a fixed box (11) and a rotating column (15), the rotating column (15) is rotatably connected to the center of the bottom of an inner cavity of the fixed box (11), and the top of the rotating column (15) penetrates through the fixed box (11);

the lifting mechanism (2) comprises a rotating plate (21), an air cylinder (22) and a fixing plate (24), the rotating plate (21) is welded at the top end of the rotating column (15), the air cylinder (22) is fixedly installed at the top of the rotating plate (21), and the middle of the bottom of the fixing plate (24) is fixedly connected with the upper end of a piston rod of the air cylinder (22).

2. The BIM-based intelligent construction measuring device according to claim 1, wherein: one side fixed mounting of fixed case (11) inner chamber has motor (111), the output shaft welding of motor (111) has worm (110), the skin weld of rotation post (15) has first gear (16), first gear (16) are located the inner chamber of fixed case (11).

3. The BIM-based intelligent construction measuring device according to claim 2, wherein: the inner chamber of fixed case (11) rotates and is connected with transmission shaft (18), transmission shaft (18) are located worm (110) and rotate between post (15), the bottom welding on transmission shaft (18) surface has worm wheel (19), the top welding on transmission shaft (18) surface has second gear (17).

4. The BIM-based intelligent construction measuring device according to claim 3, wherein: one side of the first gear (16) close to the second gear (17) is meshed with the second gear (17), and one side of the worm wheel (19) close to the worm (110) is meshed with the worm (110).

5. The BIM-based intelligent construction measuring device according to claim 2, wherein: fixed case (11) inner chamber's top and keep away from one side rotation of motor (111) and be connected with dwang (14), the skin weld of dwang (14) has third gear (13), one side and the meshing of first gear (16) that third gear (13) are close to first gear (16), the bottom welding of dwang (14) has angle displacement sensor (12).

6. The BIM-based intelligent construction measuring device according to claim 1, wherein: displacement sensor (23) are fixedly mounted at the bottom of fixed plate (24), clamping plates (25) are welded on the two sides of the top of fixed plate (24), and infrared measuring instrument bodies (3) are located between the clamping plates (25).

7. The BIM-based intelligent construction measuring device according to claim 5, wherein: the roller wheels (26) are welded on two sides of the bottom of the rotating plate (21), the groove (112) is formed in the top of the fixing box (11), the bottom of each roller wheel (26) is in contact with the bottom of the inner cavity of the corresponding groove (112), and the roller wheels (26) are in rolling connection with the corresponding grooves (112).

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