CN212903215U

CN212903215U - Engineering cost on-site mapping device based on BIM technology

Info

Publication number: CN212903215U
Application number: CN202022286864.8U
Authority: CN
Inventors: 玉延
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-04-06
Anticipated expiration: 2030-10-14

Abstract

The utility model discloses an engineering cost on-spot mapping device based on BIM technique, including first device shell, first gear and slider, first device shell one side one end is installed through the bearing and is run through to the inside first gear of first device shell, and installs through the bearing to the inside bottom of the first device shell of first gear one end and run through to first device shell top and first gear intermeshing's second gear. This on-spot mapping device of engineering cost based on BIM technique through dragging the bolt according to pole drive wane, drives the bracing piece through the picture peg simultaneously and removes, and the rethread bracing piece drives third device shell and removes, loosens again and extrudees the wane through second spring ejector pin after pressing the pole, and the rethread bolt is fixed third device shell and bracing piece for the device can be better when using support the device, improves the practicality of device.

Description

Engineering cost on-site mapping device based on BIM technology

Technical Field

The utility model relates to a mapping equipment technical field specifically is the on-spot mapping device of engineering cost based on BIM technique.

Background

With the development of society and the continuous progress of science and technology, in recent years, building engineering is used as the rapid development of emerging industries in China and is the key for realizing the sustainable development of building engineering, the BIM technology is a data tool applied to engineering design and construction management, and the traditional engineering cost field mapping device based on the BIM technology can basically meet the use requirements of people, but certain problems still exist, and the specific problems are as follows:

1. when most of the engineering cost on-site mapping devices based on the BIM technology in the current market are used, the devices cannot be well fixed after being adjusted in height when being placed, so that the practicability of the devices is low;

2. most of on-spot mapping device of engineering cost based on BIM technique is when using in the existing market, and the device need adjust the direction of whole device when using for it is convenient inadequately that the device is using.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an engineering cost field mapping device based on BIM technique to the practicality that proposes in solving above-mentioned background is less and uses not convenient enough problem.

In order to achieve the above object, the utility model provides a following technical scheme: the engineering cost on-site surveying and mapping device based on the BIM technology comprises a first device shell, a first gear and a sliding block, wherein one end of one side of the first device shell is provided with the first gear which penetrates through the first device shell through a bearing, the bottom end of one end of the first gear inside the first device shell is provided with a second gear which penetrates through the top end of the first device shell and is meshed with the first gear through a bearing, the top end of the second gear is provided with a second device shell, two ends of the second device shell are respectively provided with a fixing bolt which penetrates through the second device shell, the bottom end of the second device shell is uniformly provided with a seventh device shell, the bottom end of the seventh device shell is respectively provided with a spring body, the top end of the spring body is provided with a first ejector rod which penetrates through the top end of the seventh device shell, and the top end of the first ejector rod is provided with a top plate, the two ends of the bottom ends of the two sides in the second device shell are hinged with L-shaped clamping rods, the bottom end of the first device shell is hinged with a hinged shell uniformly, a third device shell penetrating through the bottom end of the hinged shell is arranged in the hinged shell, a fifth device shell is arranged at the bottom end of the third device shell, a supporting rod penetrating through the bottom end of the fifth device shell is arranged in the third device shell, the bottom ends of the supporting rods are hinged with an inserting plate, a fourth device shell is arranged at the bottom end, far away from one end of a lead screw, of the hinged shell, a wane is hinged in the fourth device shell and at the middle position of the two sides in the fifth device shell, a second spring ejector rod is arranged at the bottom end of one end in the fourth device shell and the bottom end in the fifth device shell, and a press rod penetrating through the fourth device shell and the fifth device shell is hinged at the top end, the wane bottom all articulates there is the bolt that runs through fourth device shell and fifth device shell and keep away from second spring ejector pin.

Preferably, a screw rod is installed in the middle of the bottom end of the first device shell, and a nut is arranged on the outer side of the screw rod.

Preferably, the fixing bolt is connected with the second device shell through threads, and the fixing bolt and the second device shell form a locking structure.

Preferably, the top end of the nut is provided with a sliding groove, and a sliding block penetrating through the top end of the nut is arranged inside the sliding groove.

Preferably, the sixth device shell is all installed at the both ends of roof bottom, and the inside top of sixth device shell all installs first spring ejector pin, first spring ejector pin bottom all installs and runs through sixth device shell and L type kelly articulated second ejector pin mutually.

Preferably, the top end of the sliding block is provided with a rotating ring, and the top end of the rotating ring is uniformly hinged with a hinged ejector rod which is hinged with the hinged shell close to the top end of one end of the screw rod.

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

1. through installing the third device shell, the support rod and the inserting plate, the rocker is driven by the pressing rod to pull the bolt, meanwhile, the support rod is driven by the inserting plate to move, then the third device shell is driven by the support rod to move, the pressing rod is loosened, then the rocker is extruded through the second spring ejector rod, and then the third device shell and the support rod are fixed through the bolt, so that the device can be better supported when in use, and the practicability of the device is improved;

2. meanwhile, the device is provided with the first gear, the second gear and the fixing bolt, the first gear rotates, the second gear is driven to rotate when the first gear rotates, the second gear drives the shell of the second device to rotate when the second gear rotates, the fixing bolt extrudes the L-shaped clamping rod when the fixing bolt rotates, and the device is fixed, so that the device can be used more conveniently;

3. the device rotates in the outside of lead screw through installing lead screw, articulated shell and articulated ejector pin through the nut simultaneously, drives the swivel through the nut and extrudees articulated ejector pin simultaneously, supports articulated shell when articulated ejector pin receives the extrusion for the device can be better when using fix the device, improves the stability of device.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the portion B of FIG. 1 according to the present invention;

fig. 6 is an enlarged schematic view of the part C in fig. 1 according to the present invention.

In the figure: 1. a first device housing; 2. a first gear; 3. a second gear; 4. fixing the bolt; 5. a pressing rod; 6. a first ejector rod; 7. a second device housing; 8. a screw rod; 9. a hinged housing; 10. a third device housing; 11. a support bar; 12. a fourth device housing; 13. a fifth device housing; 14. inserting plates; 15. a seesaw; 16. a bolt; 17. a mandril is hinged; 18. rotating the ring; 19. a nut; 20. an L-shaped clamping rod; 21. a second ejector rod; 22. a sixth device housing; 23. a first spring ejector rod; 24. a top plate; 25. a seventh device housing; 26. a spring body; 27. a slider; 28. a second spring ejector rod; 29. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: the engineering cost on-site surveying and mapping device based on the BIM technology comprises a first device shell 1, a first gear 2 and a sliding block 27, wherein the first gear 2 penetrating into the first device shell 1 is installed at one end of one side of the first device shell 1 through a bearing, a screw rod 8 is installed at the middle position of the bottom end of the first device shell 1, a nut 19 is arranged on the outer side of the screw rod 8, the screw rod can better rotate on the outer side of the screw rod 8 through the nut 19 in use, and when the nut 19 rotates on the outer side of the screw rod 8, a hinge ejector rod 17 is pushed to support a hinge shell 9;

the top end of the nut 19 is provided with a sliding groove 29, the sliding block 27 penetrating to the top end of the nut 19 is arranged inside the sliding groove 29, and the sliding block 27 can better rotate inside the sliding groove 29 when the device is used, so that the device can better assist the movement of the rotating ring 18 when the device is used;

the top end of the sliding block 27 is provided with a rotating ring 18, the top end of the rotating ring 18 is uniformly hinged with a hinged ejector rod 17 hinged with the hinged shell 9 at the top end close to the screw rod 8, when in use, the rotating ring 18 can be pushed to move better through a nut 19, when in pushing, the rotating ring 18 supports the hinged ejector rod 17, and meanwhile, the hinged shell 9 is supported through the hinged ejector rod 17, so that the device can be better fixed when in use;

a second gear 3 which penetrates through the top end of the first device shell 1 and is meshed with the first gear 2 is arranged at the bottom end of the first device shell 1 at one end of the first gear 2 through a bearing, a second device shell 7 is arranged at the top end of the second gear 3, and fixing bolts 4 which penetrate through the second device shell 7 are arranged at two ends of the second device shell 7;

the fixing bolt 4 is connected with the second device shell 7 through threads, the fixing bolt 4 and the second device shell 7 form a locking structure, when the surveying and mapping instrument is used, the fixing bolt 4 can better rotate in the second device shell 7, and the fixing bolt 4 extrudes the L-shaped clamping rod 20 to fix the surveying and mapping instrument;

seventh device shells 25 are uniformly installed at the bottom ends inside the second device shells 7, spring bodies 26 are installed at the bottom ends inside the seventh device shells 25, first ejector rods 6 penetrating through the top ends of the seventh device shells 25 are installed at the top ends of the spring bodies 26, and top plates 24 are installed at the top ends of the first ejector rods 6;

the sixth device shell 22 is mounted at two ends of the bottom end of the top plate 24, the first spring ejector rod 23 is mounted at the top end of the interior of the sixth device shell 22, the second ejector rod 21 which penetrates through the sixth device shell 22 and is hinged with the L-shaped clamping rod 20 is mounted at the bottom end of the first spring ejector rod 23, and the second ejector rod 21 can be pushed to support the L-shaped clamping rod 20 through the first spring ejector rod 23 in the sixth device shell 22 during use, so that the device can be mounted and dismounted more conveniently during use;

l-shaped clamping rods 20 are hinged at two ends of the bottom ends of two sides in the second device shell 7, a hinged shell 9 is hinged at the bottom end of the first device shell 1, a third device shell 10 penetrating through the bottom end of the hinged shell 9 is arranged in the hinged shell 9, a fifth device shell 13 is arranged at the bottom end of the third device shell 10, a support rod 11 penetrating through the bottom end of the fifth device shell 13 is arranged in the third device shell 10, an inserting plate 14 is hinged at the bottom end of the support rod 11, a fourth device shell 12 is arranged at the bottom end of the hinged shell 9 far away from the screw rod 8, wanes 15 are hinged at the middle positions of two sides in the fourth device shell 12 and the fifth device shell 13, second spring ejector rods 28 are arranged at the bottom ends of the inner ends of the fourth device shell 12 and the fifth device shell 13, and press rods 5 penetrating through the fourth device shell 12 and the fifth device shell 13 are hinged at the top ends of the wanes 15, the bottom ends of the rocker plates 15 are hinged with a bolt 16 which penetrates through the fourth device shell 12 and the fifth device shell 13 and is far away from the second spring ejector rod 28.

The working principle is as follows: when the engineering cost on-site surveying and mapping device based on the BIM technology is used, the rocker 15 is extruded through the press rod 5, the bolt 16 is pulled after the rocker 15 is extruded, the support rod 11 is driven to be pulled out of the inside of the third device shell 10 through the insertion plate 14, the third device shell 10 is driven to move out of the hinged shell 9 through the support rod 11, the rocker 15 is pushed by the second spring ejector rod 28 to extrude the bolt 16 through the rocker 15, the third device shell 10 and the support rod 11 are fixed, the nut 19 rotates, the swivel 18 is driven to move upwards when the nut 19 rotates, the slider 27 inside the sliding groove 29 is driven to rotate through the swivel 18, the hinged ejector rod 17 is driven to move the hinged shell 9 through the swivel 18, and therefore the device can be better fixed when in use,

extrude first ejector pin 6 through roof 24, extrude seventh device shell 25 inside spring body 26 through first ejector pin 6 simultaneously, drive first spring ejector pin 23 through roof 24 simultaneously and extrude second ejector pin 21, it fixes to the mapper on roof 24 top to move L type kelly 20 simultaneously through second ejector pin 21 top, make the device can be better when using install the mapper, it rotates to drive second gear 3 through first gear 2 when the device is surveying and mapping, drive second device shell 7 when the second gear 3 is pivoted, make the device can be better when using adjust the angle of device, above do the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. On-spot mapping device of engineering cost based on BIM technique includes first device shell (1), first gear (2) and slider (27), its characterized in that: a first gear (2) penetrating into the first device shell (1) is installed at one end of one side of the first device shell (1) through a bearing, a second gear (3) penetrating into the top end of the first device shell (1) and meshed with the first gear (2) is installed at the bottom end of one end of the first device shell (1) at one end of the first gear (2) through a bearing, a second device shell (7) is installed at the top end of the second gear (3), fixing bolts (4) penetrating into the second device shell (7) are arranged at two ends of the second device shell (7), seventh device shells (25) are evenly installed at the bottom end of the second device shell (7), spring bodies (26) are installed at the bottom ends of the seventh device shells (25), first ejector rods (6) penetrating through the top ends of the seventh device shells (25) are installed at the top ends of the spring bodies (26), a top plate (24) is installed at the top end of the first ejector rod (6), L-shaped clamping rods (20) are hinged to two ends of two side bottoms inside the second device shell (7), a hinged shell (9) is uniformly hinged to the bottom end of the first device shell (1), a third device shell (10) penetrating through the bottom end of the hinged shell (9) is arranged inside the hinged shell (9), a fifth device shell (13) is installed at the bottom end of the third device shell (10), a supporting rod (11) penetrating through the bottom end of the fifth device shell (13) is arranged inside the third device shell (10), inserting plates (14) are hinged to the bottom ends of the supporting rods (11), a fourth device shell (12) is installed at the bottom end, far away from one end of the screw rod (8), of the hinged shell (9), and warping plates (15) are hinged to intermediate positions inside the fourth device shell (12) and two sides inside the fifth device shell (13), second spring ejector rod (28) are all installed to the bottom of fourth device shell (12) and the inside one end of fifth device shell (13), rocker (15) top all articulates there is according to pole (5) of running through fourth device shell (12) and fifth device shell (13), rocker (15) bottom all articulates there is bolt (16) of running through fourth device shell (12) and fifth device shell (13) and keeping away from second spring ejector rod (28).

2. The BIM technology-based construction cost on-site mapping device according to claim 1, wherein: the middle position of the bottom end of the first device shell (1) is provided with a screw rod (8), and the outer side of the screw rod (8) is provided with a nut (19).

3. The BIM technology-based construction cost on-site mapping device according to claim 1, wherein: the fixing bolt (4) is connected with the second device shell (7) through threads, and the fixing bolt (4) and the second device shell (7) form a locking structure.

4. The BIM technology-based construction cost on-site mapping device according to claim 2, wherein: a sliding groove (29) is formed in the top end of the nut (19), and a sliding block (27) penetrating to the top end of the nut (19) is arranged inside the sliding groove (29).

5. The BIM technology-based construction cost on-site mapping device according to claim 1, wherein: sixth device shell (22) are all installed at the both ends of roof (24) bottom, and first spring ejector pin (23) are all installed on the inside top of sixth device shell (22), first spring ejector pin (23) bottom all is installed and is run through sixth device shell (22) and L type kelly (20) articulated second ejector pin (21) mutually.

6. The BIM technology-based construction cost on-site mapping device according to claim 4, wherein: the top end of the sliding block (27) is provided with a rotating ring (18), and the top end of the rotating ring (18) is evenly hinged with a hinged ejector rod (17) which is hinged with the hinged shell (9) and is close to the top end of one end of the screw rod (8).