CN219573059U - Open-air mapping device is used to hydraulic and hydroelectric engineering - Google Patents

Abstract

The utility model discloses a field mapping device for water conservancy and hydropower engineering, and relates to the technical field of water conservancy and hydropower engineering. The solar energy power generation device comprises an upper component, a bottom component, a solar energy power generation panel component and a connecting component, wherein the mapping component is connected inside the upper component, the connecting components are connected to four corners of the upper side of the upper component, the bottom component is connected to the lower side of the upper component, and the solar energy power generation panel component is connected to the left side and the right side of the bottom component. The utility model is convenient for a user to hide and expose the total station by arranging the upper assembly and the connecting assembly, is convenient for the user to carry the total station by the hollow frame, is convenient for the user to carry the field mapping device for the hydraulic and hydroelectric engineering, and provides electric energy for the field mapping device for the hydraulic and hydroelectric engineering used in the field by arranging the solar panel assembly, thereby ensuring sufficient electric quantity of the total station and increasing the application range of the field mapping device for the hydraulic and hydroelectric engineering.

Description

Open-air mapping device is used to hydraulic and hydroelectric engineering

Technical Field

The utility model belongs to the technical field of hydraulic and hydroelectric engineering, and particularly relates to a field mapping device for hydraulic and hydroelectric engineering.

Background

Mapping, meaning measurement and mapping, collectively referred to as mapping; at present, when working personnel are used for hydraulic and hydroelectric engineering construction, construction sites need to be mapped, and nowadays, the working personnel adopt a mapping instrument for measuring and mapping information related to the hydraulic and hydroelectric engineering construction.

Through retrieving, disclose a mapping device for hydraulic and hydroelectric engineering in patent publication number CN215981569U, relate to hydraulic and hydroelectric engineering technical field, specifically be a mapping device for hydraulic and hydroelectric engineering, including the braced frame, first through-hole has been seted up to the inside of braced frame, the inside rotation of first through-hole is connected with first axostylus axostyle, the surface rotation of first axostylus axostyle is connected with the mounting panel. This surveying and mapping device for hydraulic and hydroelectric engineering, through the cooperation setting of fixed plate, the gear, rack and first spring, can stir the fixed plate in the in-process of using, make one side fixed plate slide along the guide bar, extrude first spring, and the fixed plate of opposite side, the simultaneous to opposite side slip under the cooperation of gear and rack, adjust the distance between the fixed plate, after adjusting, loosen the fixed plate, under the effect of first spring, chucking total powerstation, thereby played the effect of conveniently fixing different total powerstations.

However, the following drawbacks still exist in practical use:

the surveying and mapping device for the hydraulic and hydroelectric engineering disclosed in the patent document with the patent publication number of CN215981569U can fold and fold the loop bar and the adjusting rod in the supporting frame, so that a user can conveniently carry the surveying and mapping device for the hydraulic and hydroelectric engineering disclosed in the patent document with the patent publication number of CN215981569U, but the surveying and mapping instrument is required to be taken down from the inside of the supporting frame and cannot be hidden in the inside of the supporting frame, and the user cannot carry the surveying and mapping instrument through the carrying supporting frame;

the construction of a surveying and mapping device for hydro-power engineering disclosed in patent publication CN215981569U is single, and electric energy cannot be supplemented in the field, so that the surveying and mapping device for hydro-power engineering disclosed in patent publication CN215981569U cannot work once electric energy is insufficient, and the use of the surveying and mapping device for hydro-power engineering disclosed in patent publication CN215981569U is limited by the area, i.e., the area where the surveying and mapping device for hydro-power engineering disclosed in patent publication CN215981569U is applicable is reduced.

Accordingly, the surveying and mapping apparatus for hydraulic and hydroelectric engineering disclosed in patent document CN215981569U cannot meet the demands in practical use, and thus there is a strong need for an improved technique for solving the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a field mapping device for hydraulic and hydroelectric engineering, which solves the problems that the mapping device for hydraulic and hydroelectric engineering is inconvenient to carry a mapping instrument and is limited in applicable field by arranging an upper component, a connecting component and a solar power panel component in the patent document with the patent publication number of CN 215981569U.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a field mapping device for hydraulic and hydroelectric engineering, which comprises an upper component, a bottom component, a solar panel component and a connecting component, wherein the mapping component is connected inside the upper component, the connecting components are connected to four corners of the upper side of the upper component, the bottom component is connected to the lower side of the upper component, and the solar panel component is connected to the left side and the right side of the bottom component.

Further, the upper assembly includes a hollow frame and a slot; the four corners of the upper side of the hollow frame are provided with hole grooves, the upper parts of the inner side walls of the hole grooves are provided with internal screw thread bodies, and the left inner side wall and the right inner side wall of the hollow frame are provided with U-shaped sliding grooves in a front-back symmetrical way.

Further, the mapping assembly comprises a total station and a top plate; the roof is located the hollow frame and directly over the side, and roof downside intermediate connection has total powerstation, and roof downside outside four corners all are connected with first bearing, and roof upside intermediate connection has the handle.

Further, the connecting component comprises a vertical shaft and an external threaded rod; the vertical shaft is located inside the hole groove, the upper end of the periphery of the vertical shaft is rotationally connected with the first bearing, and the lower end of the vertical shaft is connected with an external threaded rod.

Further, the bottom component comprises supporting feet and an upper opening frame; the upper opening frame is connected to the lower side of the hollow frame, and four corners of the lower side of the upper opening frame are connected with supporting feet.

Further, the solar panel assembly comprises a solar photovoltaic panel and a drawer; the two drawers are respectively positioned at the left side and the right side of the inside of the upper opening frame, and the upper side of each drawer is connected with a solar photovoltaic panel.

Further, the lower side of the mapping component is connected with a movable component, and the movable component comprises a bottom plate and a sliding block; the bottom plate is located total powerstation downside, and the symmetry is connected with the slider around the bottom plate left and right sides all, slider and U-shaped spout sliding connection, and the bottom plate downside is connected with battery and photovoltaic dc-to-ac converter.

Further, the middle parts of the lower parts of the front side, the rear side, the left side, the right side and the left side of the bottom assembly are respectively connected with a support assembly, and each support assembly comprises a conical rod, a hollow shaft and a U-shaped seat; the four U-shaped seats are respectively positioned in the middle of the lower parts of the front side, the rear side, the left side, the right side and the left side of the upper opening frame, the left side and the right side of the U-shaped seats are respectively connected with damping bearings, the lower parts of the front side and the rear side of the hollow shaft are respectively connected with shaft pins, the shaft pins are rotationally connected with the damping bearings, the upper parts of the front sides of the hollow shaft are in threaded connection with second bolts, the inside of the hollow shaft is movably connected with a conical rod, the upper sides of the periphery of the conical rod are connected with lugs, and the upper sides of the lugs are in threaded connection with first bolts.

The utility model has the following beneficial effects:

the utility model is convenient for a user to hide the total station in the hollow frame by arranging the upper component and the connecting component, so that the user can carry the total station when carrying the hollow frame, the carrying of the total station by the user is convenient, and the problem that the mapping device for the hydraulic and hydroelectric engineering disclosed in the patent document with the patent publication number of CN215981569U is inconvenient to carry the mapping instrument is solved.

According to the utility model, the solar power generation panel assembly is arranged to supplement electric energy to the field mapping device for the water conservancy and hydropower engineering, so that the total station is ensured to have enough electric energy, the normal use of the field mapping device for the water conservancy and hydropower engineering is ensured, the applicable field range of the field mapping device for the water conservancy and hydropower engineering is increased, and the problem that the applicable field of the mapping device for the water conservancy and hydropower engineering disclosed in patent document No. CN215981569U is limited is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a field mapping device for hydraulic and hydroelectric engineering;

FIG. 2 is a schematic illustration of the connection of a base assembly and a solar panel assembly;

FIG. 3 is a schematic illustration of the connection of the mapping assembly, support assembly and movable assembly;

FIG. 4 is a schematic illustration of the connection of the upper aperture frame and the upper assembly;

FIG. 5 is a schematic illustration of the connection of the mapping assembly, the movable assembly, and the connection assembly.

In the drawings, the list of components represented by the various numbers is as follows:

1. a mapping assembly; 11. a total station; 12. a handle; 13. a top plate; 14. a first bearing; 2. an upper assembly; 21. a U-shaped chute; 22. a hollow frame; 23. a hole groove; 24. an internal thread body; 3. a base assembly; 31. supporting feet; 32. an upper opening frame; 4. a solar panel assembly; 41. a solar photovoltaic panel; 42. a drawer; 5. a support assembly; 51. a tapered rod; 52. ear pieces; 53. a first bolt; 54. a second bolt; 55. a hollow shaft; 56. a U-shaped seat; 57. a shaft pin; 58. damping bearings; 6. a movable assembly; 61. a bottom plate; 62. a storage battery; 63. a photovoltaic inverter; 64. a slide block; 7. a connection assembly; 71. a vertical axis; 72. an external threaded rod.

Description of the embodiments

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 5, the utility model discloses a field mapping device for hydraulic and hydroelectric engineering, which comprises an upper assembly 2, a bottom assembly 3, a solar panel assembly 4 and a connecting assembly 7, wherein the upper assembly 2 is internally connected with a mapping assembly 1, four corners of the upper side of the upper assembly 2 are respectively connected with the connecting assembly 7, the lower side of the upper assembly 2 is connected with the bottom assembly 3, and the left side and the right side of the bottom assembly 3 are respectively connected with the solar panel assembly 4;

the field mapping device for the hydraulic and hydroelectric engineering comprises the following using steps: the user releases the limit of the support component 5 to the position of the surveying and mapping component 1, the user applies upward external force to the surveying and mapping component 1, the surveying and mapping component 1 moves upward, the connecting component 7 moves upward, the user rotates the connecting component 7 until the connecting component 7 is in threaded connection with the upper component 2, the surveying and mapping component 1 is stably positioned right above the upper component 2, the user adjusts the inclination angle between the support component 5 and the bottom component 3, the support component 5 is obliquely inserted into the ground, the water conservancy and hydropower engineering is stably positioned on the field ground by using a field surveying and mapping device, the user adjusts the length of the support component 5, and the height of the surveying and mapping component 1 is adjusted until the height of the surveying and mapping component 1 accords with the height of the user, and then the user uses the surveying and mapping component 1 to conduct the surveying and mapping of the hydropower engineering; when the user encounters sunny weather, the user withdraws the solar panel assembly 4 from the inside of the bottom assembly 3 to absorb sunlight; when encountering severe weather, the user conceals the solar panel assembly 4 from being concealed inside the base assembly 3.

Wherein, as shown in fig. 4 and 5, the upper component 2 comprises a hollow frame 22 and a hole groove 23; the four corners of the upper side of the hollow frame 22 are respectively provided with a hole groove 23, the upper part of the inner side wall of the hole groove 23 is provided with an internal thread body 24, and the left inner side wall and the right inner side wall of the hollow frame 22 are respectively provided with a U-shaped chute 21 in a front-back symmetry way;

the surveying and mapping assembly 1 comprises a total station 11 and a top plate 13; the top plate 13 is positioned right above the hollow frame 22, the total station 11 is connected in the middle of the lower side of the top plate 13, the first bearings 14 are connected to four corners of the outer part of the lower side of the top plate 13, and the handle 12 is connected in the middle of the upper side of the top plate 13;

the connecting component 7 comprises a vertical shaft 71 and an external threaded rod 72; the vertical shaft 71 is positioned in the hole groove 23, the upper end of the periphery of the vertical shaft 71 is rotationally connected with the first bearing 14, and the lower end of the vertical shaft 71 is connected with an external threaded rod 72;

the user applies upward external force to the handle 12 by hand, the top plate 13 moves upward, the total station 11 moves upward, the external screw rod 72 and the vertical shaft 71 move upward until the external screw rod 72 moves to the lower side of the internal screw body 24, the user rotates the vertical shaft 71 clockwise, the vertical shaft 71 rotates clockwise and moves upward, the external screw rod 72 rotates clockwise and moves upward, simultaneously, the external screw rod 72 is connected with the internal screw body 24 by screw threads, the vertical shaft 71 and the external screw rod 72 support the top plate 13, and the total station 11 is stably positioned right above the hollow frame 22; otherwise, the total station 11 is hidden inside the hollow frame 22.

As shown in fig. 1 and 2, the bottom assembly 3 includes a supporting leg 31 and an upper opening frame 32; the upper opening frame 32 is connected to the lower side of the hollow frame 22, and four corners of the lower side of the upper opening frame 32 are connected with supporting legs 31;

the solar panel assembly 4 comprises a solar photovoltaic panel 41 and a drawer 42; two drawers 42 are respectively positioned at the left side and the right side of the inside of the upper opening frame 32, and the upper side of each drawer 42 is connected with a solar photovoltaic panel 41;

the user applies external force to the drawer 42 in a direction away from the inside of the upper opening frame 32 by hand, the drawer 42 is gradually opened, the solar photovoltaic panel 41 is gradually moved out of the inside of the upper opening frame 32, and the solar photovoltaic panel 41 is exposed to absorb sunlight; instead, the solar photovoltaic panel 41 is hidden inside the upper opening frame 32.

As shown in fig. 3 and 5, the lower side of the mapping assembly 1 is connected with a movable assembly 6, and the movable assembly 6 comprises a bottom plate 61 and a sliding block 64; the bottom plate 61 is positioned at the lower side of the total station 11, the left side and the right side of the bottom plate 61 are symmetrically connected with sliding blocks 64 in front-back, the sliding blocks 64 are in sliding connection with the U-shaped sliding grooves 21, and the lower side of the bottom plate 61 is connected with a storage battery 62 and a photovoltaic inverter 63;

when a user applies an upward external force to the handle 12, the slider 64 moves upward along the U-shaped chute 21, the bottom plate 61 moves upward, and the battery 62 and the photovoltaic inverter 63 move upward; conversely, the bottom plate 61 moves downward.

As shown in fig. 1 and 3, the bottom component 3 is connected with a supporting component 5 in the middle of the lower parts of the front, back, left and right sides, and the supporting component 5 comprises a conical rod 51, a hollow shaft 55 and a U-shaped seat 56; the four U-shaped seats 56 are respectively positioned in the middle of the lower parts of the front, back, left and right sides of the upper opening frame 32, the left and right sides of the U-shaped seats 56 are connected with damping bearings 58, the lower parts of the front and back sides of the hollow shaft 55 are connected with shaft pins 57, the shaft pins 57 are rotationally connected with the damping bearings 58, the upper part of the front side of the hollow shaft 55 is in threaded connection with a second bolt 54, the inside of the hollow shaft 55 is movably connected with a conical rod 51, the upper side of the periphery of the conical rod 51 is connected with an ear block 52, and the upper side of the ear block 52 is in threaded connection with a first bolt 53;

the user unscrews the first bolt 53 clockwise, namely the first bolt 53 is separated from the top plate 13, the user applies external force to the hollow shaft 55, the shaft pin 57 rotates on the U-shaped seat 56, the hollow shaft 55 moves in an arc manner by taking the shaft pin 57 as the shaft, the conical rod 51 moves along with the movement of the hollow shaft 55, the ear block 52 moves along with the movement of the conical rod 51, the limitation of the ear block 52 on the top plate 13 is relieved, the user unscrews the second bolt 54 clockwise, namely the second bolt 54 is separated from the conical rod 51, the user applies external force to the conical rod 51, the conical rod 51 moves inside the hollow shaft 55, the total length of the conical rod 51 and the hollow shaft 55 is adjusted, and the height of the total station 11 is adjusted; conversely, the ear piece 52 defines the top plate 13.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (8)

1. The utility model provides a water conservancy and hydropower engineering is with open-air mapping device, includes upper portion subassembly (2), bottom subassembly (3), solar panel subassembly (4) and coupling assembling (7), its characterized in that: the solar energy power generation system is characterized in that the upper assembly (2) is internally connected with the mapping assembly (1), four corners of the upper side of the upper assembly (2) are respectively connected with the connecting assembly (7), the lower side of the upper assembly (2) is connected with the bottom assembly (3), and the left side and the right side of the bottom assembly (3) are respectively connected with the solar energy power generation panel assembly (4).

2. The field mapping device for hydraulic and hydroelectric engineering according to claim 1, wherein: the upper assembly (2) comprises a hollow frame (22) and a hole groove (23); the four corners of the upper side of the hollow frame (22) are respectively provided with a hole groove (23), the upper parts of the inner side walls of the hole grooves (23) are respectively provided with an internal thread body (24), and the left inner side wall and the right inner side wall of the hollow frame (22) are respectively provided with a U-shaped chute (21) in a front-back symmetry way.

3. The field mapping device for hydraulic and hydroelectric engineering according to claim 1, wherein: the surveying and mapping assembly (1) comprises a total station (11) and a top plate (13); the intelligent total station is characterized in that the top plate (13) is located right above the hollow frame (22), the total station (11) is connected in the middle of the lower side of the top plate (13), first bearings (14) are connected to four corners outside the lower side of the top plate (13), and a lifting handle (12) is connected in the middle of the upper side of the top plate (13).

4. The field mapping device for hydraulic and hydroelectric engineering according to claim 1, wherein: the connecting component (7) comprises a vertical shaft (71) and an external threaded rod (72); the vertical shaft (71) is located inside the hole groove (23), the upper end of the periphery of the vertical shaft (71) is rotationally connected with the first bearing (14), and the lower end of the vertical shaft (71) is connected with the external threaded rod (72).

5. The field mapping device for hydraulic and hydroelectric engineering according to claim 1, wherein: the bottom component (3) comprises supporting feet (31) and an upper opening frame (32); the upper opening frame (32) is connected to the lower side of the hollow frame (22), and four corners of the lower side of the upper opening frame (32) are connected with the supporting feet (31).

6. The field mapping device for hydraulic and hydroelectric engineering according to claim 1, wherein: the solar power generation panel assembly (4) comprises a solar photovoltaic panel (41) and a drawer (42); the two drawers (42) are respectively positioned at the left side and the right side of the inside of the upper opening frame (32), and the upper side of each drawer (42) is connected with the solar photovoltaic panel (41).

7. A field mapping device for hydraulic and hydroelectric engineering according to claim 3, characterized in that: the lower side of the mapping assembly (1) is connected with a movable assembly (6), and the movable assembly (6) comprises a bottom plate (61) and a sliding block (64); the base plate (61) is located the downside of total powerstation (11), both sides all around symmetry are connected with base plate (61) slider (64), slider (64) and U-shaped spout (21) sliding connection, base plate (61) downside is connected with battery (62) and photovoltaic inverter (63).

8. The field mapping device for hydraulic and hydroelectric engineering according to claim 5, wherein: the middle of the lower parts of the front, rear, left and right sides of the bottom assembly (3) are connected with a supporting assembly (5), and the supporting assembly (5) comprises a conical rod (51), a hollow shaft (55) and a U-shaped seat (56); four U-shaped seat (56) are located respectively in the middle of four sides lower part around upper shed frame (32), U-shaped seat (56) both sides all are connected with damping bearing (58), both sides lower part all is connected with pivot (57) around hollow shaft (55), pivot (57) are connected with damping bearing (58) rotation, hollow shaft (55) front side upper portion threaded connection has second bolt (54), hollow shaft (55) inside swing joint has taper rod (51), taper rod (51) periphery upside is connected with ear piece (52), ear piece (52) upside threaded connection has first bolt (53).