CN210162467U - A surveying instrument bears case for building site - Google Patents

Abstract

The utility model relates to a surveying instrument bears case for building site relates to the surveying instrument and bears the field, has solved and has made the surveying instrument very easily because outside reason damages to can lead to the surveying instrument can not use or the unsafe emergence of measured data, influence the problem of engineering progress. The technical characteristics include: the connecting plate is a polygonal connecting plate and is used for connecting the box body; a support structure disposed on a lower surface of the connection plate for supporting the device; the bearing structure is arranged on the upper surface of the connecting plate and is used for bearing and bearing the surveying and mapping instrument; deposit the structure, deposit the structure and settle in bearing structure, just deposit the structure and be used for depositing the surveying instrument. Can effectually protect the surveying instrument to bearing the weight of the incasement, avoid the surveying instrument to damage because of external factor.

Description

A surveying instrument bears case for building site

Technical Field

The utility model relates to a surveying instrument bears technical field, in particular to surveying instrument bears case for building site.

Background

Surveying instruments, which are simply instruments and devices for data acquisition, processing, output and the like designed and manufactured for surveying and mapping operation, are used for various aspects of orientation, distance measurement, angle measurement, height measurement, mapping, photogrammetry and the like required by measurement work in the planning, design, construction and operation management stages in engineering construction.

At present, a bearing box for surveying instrument bears, generally all be a box, do not have safeguard measure, especially use on the workplace, make the surveying instrument very easily because outside reason damages to can lead to the surveying instrument to be unable or the inaccurate emergence of measured data, influence the engineering progress, consequently in order to solve this problem, it is very necessary to design a surveying instrument bearing box for building site.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve and make the surveying instrument very easily among the prior art and damage because of outside reason to can lead to the emergence that the surveying instrument can not be used or measured data is unsafe, influence the technical problem of engineering progress, provide a surveying instrument bearing box for building site.

In order to solve the technical problem, the technical scheme of the utility model is specifically as follows:

a mapper carrying case for a worksite, comprising:

the connecting plate is a polygonal connecting plate and is used for connecting the box body;

a support structure disposed on a lower surface of the connection plate for supporting the device;

the bearing structure is arranged on the upper surface of the connecting plate and is used for bearing and bearing the surveying and mapping instrument;

a storage structure disposed within the load-bearing structure, the storage structure for storing the surveying instrument;

a shock absorbing structure disposed on the load bearing structure, the shock absorbing structure for absorbing shock to the device.

The support structure includes: the device comprises a fixed bottomless shell, a supporting plate, a first telescopic rod group, a second telescopic rod group, a first conical fixed rod matched with the first telescopic rod group, a second conical fixed rod matched with the second telescopic rod group, a pair of fixed plates and a pair of handles;

the fixed bottomless shell is arranged on the lower surface of the connecting plate, the supporting plate is arranged in the fixed bottomless shell, the first telescopic rod group is arranged on the edge of the lower surface of the supporting plate, the second telescopic rod group is arranged on the edge of the lower surface of the supporting plate, the first conical fixing rod is arranged on the corresponding first telescopic rod group, the second conical fixing rod is arranged on the second telescopic rod group, one fixing plate is arranged on the first telescopic rod group, the other fixing plate is arranged on the second telescopic rod group, one handle is arranged on the corresponding fixing plate, and the other handle is arranged on the corresponding fixing plate.

The load bearing structure comprises: the first uncovered box body, the first waterproof sealing ring and the first blocking cover are arranged on the first side wall;

the first uncovered box body is arranged on the upper surface of the connecting plate, the first waterproof sealing ring is arranged on the upper surface of the first uncovered box body, and the first blocking cover is hinged to the upper surface of the first uncovered box body.

The storage structure includes: the two groups of linkage assemblies, limiting plates matched with the two groups of linkage assemblies, connecting rods, a second uncovered box body, a second waterproof sealing ring, a second baffle and a protective layer;

the two groups of linkage assemblies are arranged on the inner side surface of the first uncovered box body, the two groups of limiting plates are arranged in the first uncovered box body, the connecting rod is arranged between the two groups of linkage assemblies, the second uncovered box body is arranged on the two groups of linkage assemblies, the second waterproof sealing ring is arranged on the upper surface of the second uncovered box body, the second cover is hinged to the second uncovered box body, and the protective layer is arranged in the second uncovered box body.

The shock-absorbing structure includes: the annular fixing frame and the two pairs of damping layers are arranged on the annular fixing frame;

the side surface of the first uncovered box body is provided with an annular through groove, the annular fixing frame is embedded in the annular through groove, and the two pairs of damping layers are arranged in the annular fixing frame.

The linkage assembly includes: the device comprises a first rotating rod, a first belt connecting shaft, a second rotating rod, a second belt connecting shaft, a first linkage rod, a second linkage shaft, a second linkage rod, a belt and a rotating handle;

the first belt connecting shaft is arranged on the first rotating rod, the second belt connecting shaft is arranged on the second rotating rod, the first linkage shaft is arranged on the first belt connecting shaft, the second linkage shaft is arranged on the second belt connecting shaft, the first linkage rod is arranged on the second uncovered box body and connected with the first linkage shaft, the second linkage rod is arranged on the second uncovered box body and connected with the second linkage shaft, the belt is arranged on the first belt connecting shaft and the second belt connecting shaft, the rotating handle is arranged on the first rotating rod, and the rotating handle extends out of the second uncovered box body.

The utility model discloses following beneficial effect has:

the device can be better bear the surveying instrument, can effectually protect the surveying instrument who bears the incasement, has avoided the surveying instrument to damage because of external factor.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a surveying instrument carrying box for a construction site according to the present invention;

fig. 2 is a top view of a surveying instrument carrying box for a construction site according to the present invention;

fig. 3 is a side view of a surveying instrument carrying case for a construction site according to the present invention;

fig. 4 is a schematic view of a linkage assembly of the present invention;

fig. 5 is a partial schematic view of the support structure of the present invention.

The reference numerals in the figures denote:

1. a connecting plate; 2. fixing the bottomless shell; 3. a support plate; 4. a first telescopic rod group; 5. a second telescopic rod group; 6. a first tapered fixing rod; 7. a second tapered fixing rod; 8. a fixing plate; 9. a handle; 10. a first uncovered box; 11. a first waterproof seal ring; 12. a first shield cover; 13. a limiting plate; 14. a connecting rod; 15. a second uncovered box; 16. a second waterproof seal ring; 17. a second shield cover; 18. a protective layer; 19. an annular fixing frame; 20. a shock-absorbing layer; 21. a first rotating lever; 22. a first belt connecting shaft; 23. a second rotating lever; 24. a second belt connecting shaft; 25. a first linkage shaft; 26. a first linkage rod; 27. a second linkage shaft; 28. a second linkage rod; 29. a belt; 30. the handle is rotated.

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. 1-5, a mapper cassette for a worksite, comprising: the connecting plate 1 is a polygonal connecting plate, and the connecting plate 1 is used for connecting the box body; a support structure disposed on the lower surface of the connection plate 1 for supporting the device; the bearing structure is arranged on the upper surface of the connecting plate 1 and is used for bearing and bearing the surveying and mapping instrument; a storage structure disposed within the load-bearing structure, the storage structure for storing the surveying instrument; a shock absorbing structure disposed on the load bearing structure, the shock absorbing structure for absorbing shock to the device.

The support structure includes: the device comprises a fixed bottomless shell 2, a supporting plate 3, a first telescopic rod group 4, a second telescopic rod group 5, a first conical fixing rod 6 matched with the first telescopic rod group 4, a second conical fixing rod 7 matched with the second telescopic rod group 5, a pair of fixing plates 8 and a pair of handles 9; the fixed bottomless shell 2 is arranged on the lower surface of the connecting plate, the fixed bottomless shell 2 is used for fixing, the supporting plate 3 is arranged in the fixed bottomless shell 2, the supporting plate 3 is used for supporting, the first telescopic rod group 4 is arranged at the edge of the lower surface of the supporting plate 3, the first telescopic rod group 4 is used for supporting and adjusting, the second telescopic rod group 5 is arranged at the edge of the lower surface of the supporting plate 3, the second telescopic rod group 5 is used for supporting and adjusting, the first conical fixing rod 6 is arranged on the corresponding first telescopic rod group 4, the first conical fixing rod 6 is used for fixing, the second conical fixing rod 7 is arranged on the second telescopic rod group 5, the second conical fixing rod 7 is used for fixing, one fixing plate 8 is arranged on the first telescopic rod group 4, the other fixing plate 8 is arranged on the second telescopic rod group 5, one handle 9 is arranged on the corresponding fixing plate 8, the other handle 9 is placed on the corresponding fixing plate 8.

The bearing structure comprises: the first uncovered box body 10, the first waterproof sealing ring 11 and the first blocking cover 12; the first uncovered box 10 is arranged on the upper surface of the connecting plate 1, the first uncovered box 10 is used for bearing, the first waterproof sealing ring 11 is arranged on the upper surface of the first uncovered box 10, the first waterproof sealing ring 11 is used for sealing, the first blocking cover 12 is hinged to the upper surface of the first uncovered box 10, and the first blocking cover 12 is used for blocking.

The storage structure includes: the two groups of linkage assemblies, limiting plates 13 matched with the two groups of linkage assemblies, connecting rods 14, a second uncovered box body 15, a second waterproof sealing ring 16, a second baffle 17 and a protective layer 18; two sets of linkage components settle in first uncovered box 10 internal side surface, this linkage component is used for the linkage, two sets of limiting plates 13 settle in first uncovered box 10, this limiting plate 13 is used for spacingly, connecting rod 14 settles between two sets of linkage components, this connecting rod 14 is used for connecting, second uncovered box 15 settles on two sets of linkage components, this second uncovered box 15 is used for bearing, second waterproof sealing ring 16 settles in second uncovered box 15 upper surface, this second waterproof sealing ring 16 is used for waterproofly, second flap 17 hinged joint is on second uncovered box 15, this second flap 17 is used for blocking, the inoxidizing coating 18 settles in second uncovered box 15, this inoxidizing coating 18 is used for the protection.

The shock-absorbing structure includes: an annular fixed frame 19 and two pairs of shock-absorbing layers 20; an annular through groove is formed in the side surface of the first uncovered box body 10, an annular fixing frame 19 is embedded in the annular through groove, the annular fixing frame 19 is used for fixing, two pairs of damping layers 20 are arranged in the annular fixing frame 19, and the damping layers 20 are used for damping.

The linkage assembly includes: a first rotating rod 21, a first belt connecting shaft 22, a second rotating rod 23, a second belt connecting shaft 24, a first linkage shaft 25, a first linkage rod 26, a second linkage shaft 27, a second linkage rod 28, a belt 29 and a rotating handle 30; a first belt connecting shaft 22 is arranged on the first rotating rod 21, the first belt connecting shaft 22 is used for driving a belt, a second belt connecting shaft 24 is arranged on the second rotating rod 23, the second belt connecting shaft 24 is used for driving a belt, a first linkage shaft 25 is arranged on the first belt connecting shaft 22, the first linkage shaft 25 is used for linkage, a second linkage shaft 27 is arranged on the second belt connecting shaft 24, the second linkage shaft 27 is used for linkage, a first linkage rod 26 is arranged on the second uncovered box body 15, the first linkage rod 26 is used for linkage, the first linkage rod 26 is connected with the first linkage shaft 25, the second linkage rod 28 is arranged on the second uncovered box body 15, the second linkage rod 28 is used for linkage, the second linkage rod 28 is connected with the second linkage shaft 27, the belt 29 is arranged on the first belt 22 and the second belt 24, the rotating handle 30 is arranged on the first rotating rod 21, and the rotating handle 30 is extended out of the second case body 15.

The working principle is as follows:

firstly, the fixed plate 8 is moved by the handle 9, so that the first telescopic rod group 4 and the second telescopic rod group 5 are lifted, the support plate 3 on the fixed bottomless shell 2 is supported, then the first uncovered box 10 is supported, water on the ground is prevented from entering the first uncovered box 10, the first baffle cover 12 on the upper surface of the first uncovered box 10 is opened, then the rotating handle 30 is rotated, the rotating handle 30 drives the first rotating rod 21 to rotate, the first rotating rod 21 drives the first belt connecting shaft 22 to rotate, the second belt connecting shaft 24 is driven to rotate by the connection of a belt, the first belt connecting shaft 22 drives the first linkage shaft 25 to rotate while the second belt connecting shaft 24 drives the second linkage shaft 27 to rotate, so that the first linkage rod 26 and the second linkage rod 28 move, and the second uncovered box 15 is lifted, open second fender 17, take out the surveying instrument in the uncovered box 15 of follow second, thereby survey and drawing, when meetting rainy day, when 11 effects of first waterproof sealing circle are not good, water can flow in first uncovered box 10, and sealing washer on the uncovered box 15 of second still protects the surveying instrument, thereby better protect the surveying instrument, the side can be accomplished the back, put back second uncovered box 15 with the surveying instrument, put back first uncovered box 10 with uncovered box 15 of second through gravity and linkage subassembly, closing first fender lid 12 and second fender 17, annular mount 19 and shock-absorbing layer 20 can be better reduce external impact force, prevent that the surveying instrument from damaging, it is very convenient.

The first embodiment is as follows: the protective layer 18 in the first uncovered box 10 can be adjusted by means of a mapper.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (6)

1. A mapper carrying case for a worksite, comprising:

the connecting plate (1), the connecting plate (1) is a polygonal connecting plate, and the connecting plate (1) is used for connecting the box body;

a support structure disposed on the lower surface of the connection plate (1) and used for supporting the device;

the bearing structure is arranged on the upper surface of the connecting plate (1) and is used for bearing and bearing the surveying and mapping instrument;

a storage structure disposed within the load-bearing structure, the storage structure for storing the surveying instrument;

a shock absorbing structure disposed on the load bearing structure, the shock absorbing structure for absorbing shock to the device.

2. A mapper carriage as claimed in claim 1 for a worksite, wherein said support structure comprises: the device comprises a fixed bottomless shell (2), a supporting plate (3), a first telescopic rod group (4), a second telescopic rod group (5), a first conical fixing rod (6) matched with the first telescopic rod group (4), a second conical fixing rod (7) matched with the second telescopic rod group (5), a pair of fixing plates (8) and a pair of handles (9);

the fixed bottomless shell (2) is arranged on the lower surface of the connecting plate, the supporting plate (3) is arranged in the fixed bottomless shell (2), the first telescopic rod group (4) is arranged on the edge of the lower surface of the supporting plate (3), the second telescopic rod group (5) is arranged on the edge of the lower surface of the supporting plate (3), the first conical fixing rod (6) is arranged on the corresponding first telescopic rod group (4), the second conical fixing rod (7) is arranged on the second telescopic rod group (5), one fixing plate (8) is arranged on the first telescopic rod group (4), the other fixing plate (8) is arranged on the second telescopic rod group (5), one handle (9) is arranged on the corresponding fixing plate (8), and the other handle (9) is arranged on the corresponding fixing plate (8).

3. A mapper load box for a worksite according to claim 1, characterised in that said load-bearing structure comprises: the device comprises a first uncovered box body (10), a first waterproof sealing ring (11) and a first blocking cover (12);

the first uncovered box body (10) is arranged on the upper surface of the connecting plate (1), the first waterproof sealing ring (11) is arranged on the upper surface of the first uncovered box body (10), and the first blocking cover (12) is hinged to the upper surface of the first uncovered box body (10).

4. A mapper carriage as defined in claim 1 for a worksite, wherein said storage structure comprises: the two groups of linkage assemblies, limiting plates (13) matched with the two groups of linkage assemblies, connecting rods (14), a second uncovered box body (15), a second waterproof sealing ring (16), a second blocking cover (17) and a protective layer (18);

the two groups of linkage assemblies are arranged on the inner side surface of a first uncovered box body (10), the two groups of limiting plates (13) are arranged in the first uncovered box body (10), the connecting rod (14) is arranged between the two groups of linkage assemblies, the second uncovered box body (15) is arranged on the two groups of linkage assemblies, the second waterproof sealing ring (16) is arranged on the upper surface of the second uncovered box body (15), the second blocking cover (17) is hinged to the second uncovered box body (15), and the protective layer (18) is arranged in the second uncovered box body (15).

5. A mapper load box for a worksite according to claim 3, wherein said shock-absorbing structure comprises: an annular fixed frame (19) and two pairs of shock-absorbing layers (20);

an annular through groove is formed in the side surface of the first uncovered box body (10), the annular fixing frame (19) is embedded in the annular through groove, and the two pairs of damping layers (20) are arranged in the annular fixing frame (19).

6. A mapper carriage as defined in claim 4 for a worksite, wherein said linkage assembly comprises: the device comprises a first rotating rod (21), a first belt connecting shaft (22), a second rotating rod (23), a second belt connecting shaft (24), a first linkage shaft (25), a first linkage rod (26), a second linkage shaft (27), a second linkage rod (28), a belt (29) and a rotating handle (30);

the first belt connecting shaft (22) is arranged on the first rotating rod (21), the second belt connecting shaft (24) is arranged on the second rotating rod (23), the first linkage shaft (25) is arranged on the first belt connecting shaft (22), the second linkage shaft (27) is arranged on the second belt connecting shaft (24), the first linkage rod (26) is arranged on the second uncovered box body (15), the first linkage rod (26) is connected with a first linkage shaft (25), the second linkage rod (28) is arranged on the second uncovered box body (15), the second linkage rod (28) is connected with the second linkage shaft (27), the belt (29) is arranged on the first belt connecting shaft (22) and the second belt connecting shaft (24), the rotating handle (30) is arranged on the first rotating rod (21), and the rotating handle (30) extends out of the second uncovered box body (15).

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