CN220435929U - Engineering cost mapping equipment - Google Patents

Abstract

The utility model relates to the field of surveying and mapping equipment, in particular to engineering cost surveying and mapping equipment which comprises a support base, a steering machine part arranged on the support base, a main support frame arranged on the steering machine part and a surveying and mapping machine frame arranged on the top of the main support frame, wherein the main support frame is provided with a plurality of positioning plates; the support base is provided with an adjusting pusher and an adjusting bracket arranged at the pushing end of the adjusting pusher; the frame of the adjusting bracket is connected with the main bracket; the surveying and mapping machine frame is provided with an adjustable detection machine box, an adjusting support frame and a telescopic pushing frame arranged on the adjusting support frame are further arranged at the bottom of the main support frame, and the detection machine box is erected on a frame rail of the telescopic pushing frame. The method and the device can adapt to foundation conditions of different areas and are used for detecting building engineering of each area; the oblique angle ground surface features and the plane ground surface features can be compared under the same coordinate reference, so that the analysis degree of freedom of the engineering cost is higher.

Description

Engineering cost mapping equipment

Technical Field

The utility model relates to the field of surveying and mapping equipment, in particular to engineering cost surveying and mapping equipment.

Background

The working processes of predicting, planning, controlling, accounting, analyzing, evaluating and the like the construction cost are called construction cost management by comprehensively utilizing knowledge and skills in the aspects of management, economy, engineering technology and the like. The prediction or determination of the construction cost and its constituent contents according to the procedures, methods and bases specified by laws and regulations and standards is called construction cost. Before the engineering is started, engineering cost personnel usually need to use various measuring equipment to measure and calculate various data of a construction site, so that a more accurate estimation result can be obtained.

After engineering cost personnel arrive at a construction site in the prior art, the engineering surrounding environment is surveyed mainly by means of a small unmanned aerial vehicle provided with a camera, and then the construction site is oriented, measured in angle and measured in height by various surveying and mapping frame devices, so that various data of the construction site are collected. But the topography or foundation structure of the construction site is not a flat structure, and mapping equipment needs to be adapted to the construction site to ensure the accuracy of the operation.

Disclosure of Invention

The utility model aims to provide engineering cost mapping equipment for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the engineering cost surveying and mapping equipment comprises a support base, a steering machine part arranged on the support base, a main support frame arranged on the steering machine part, and a surveying and mapping machine frame arranged on the top of the main support frame;

the support base is provided with an adjusting pusher and an adjusting bracket arranged at the pushing end of the adjusting pusher; the frame of the adjusting bracket is connected with the main bracket;

the surveying and mapping machine frame is provided with an adjustable detection machine box, an adjusting support frame and a telescopic pushing frame arranged on the adjusting support frame are further arranged at the bottom of the main support frame, and the detection machine box is erected on a frame rail of the telescopic pushing frame.

As a further scheme of the utility model: the steering mechanism comprises a supporting base, a steering mechanism and a main support frame, wherein the supporting base is provided with an upper frame plate, the steering mechanism comprises a middle supporting shaft arranged on the upper frame plate, a rotating sleeve arranged on the middle supporting shaft and a supporting frame body arranged on the rotating sleeve, and the main support frame is arranged in a frame of the supporting frame body.

As a further scheme of the utility model: the adjusting pusher comprises a working machine fence, a pushing track arranged on the working machine fence, an adjusting sliding block arranged in the pushing track and an electric control pushing rod used for pushing the adjusting sliding block; the outer sliding block is externally connected with an outer sliding block, the outer sliding block is externally connected with a support frame rod, an outer support head is mounted at the rod end of the support frame rod, the outer support head is externally connected with a support frame surface, and the support frame surface is fixedly mounted with the main support frame.

As a further scheme of the utility model: the surveying and mapping machine frame comprises a supporting column arranged on the main support frame and a rotating bolt arranged on the supporting column, and the detection machine box comprises a surveying instrument inserted in the supporting column and turned through the rotating bolt, an extension machine barrel arranged on the surveying instrument and a detection machine head arranged on the extension machine barrel.

As a further scheme of the utility model: the adjusting support frame comprises an installation frame installed at the bottom of the main support frame and an inclined support column installed on the installation frame, the telescopic pushing frame comprises a telescopic support rod installed in the inclined support column and a support end installed in the telescopic support rod, a positioning ring is arranged on the support end, and the detecting machine head is erected in the positioning ring and is supported through the support end.

As still further aspects of the utility model: the adjusting support frame is internally provided with an inner pusher, a hydraulic rod arranged on the inner pusher and an inner push rod arranged at the pushing end of the hydraulic rod, and the rod end of the inner push rod is connected with the telescopic support rod.

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

the detection machine case is a detection implementation tool, the adjusting pusher is a primary adjusting mechanism and drives the adjusting bracket to move so as to drive the main support frame to take the steering machine part as a rotating fulcrum, thus adjusting the inclination direction of the main support frame, namely adjusting the angle of a mapping supporting surface of the mapping machine frame, the adjusting support frame is a secondary adjusting mechanism and drives the telescopic pushing frame to move, thus adjusting the operation angle of the detection machine case, namely adjusting the angle of a mapping implementation end on the basis of adjusting the mapping supporting surface; therefore, the method can adapt to foundation conditions of different areas and is used for detecting building engineering of each area; the oblique angle ground surface features and the plane ground surface features can be compared under the same coordinate reference, so that the analysis degree of freedom of the engineering cost is higher.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. Meanwhile, these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to specific embodiments.

Fig. 1 is a schematic diagram of an overall construction of engineering cost mapping apparatus according to an embodiment of the present utility model.

Fig. 2 is a schematic view of the installation of a main support frame according to an embodiment of the present utility model.

Fig. 3 is an installation schematic diagram of a surveying instrument frame according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of an adjusting support frame and a telescopic pushing frame according to an embodiment of the present utility model.

In the figure: 11. a support base; 12. turning to a machine member; 13. a main support frame; 14. adjusting the pusher; 15. adjusting the bracket; 16. a mapping machine frame; 17. detecting a case; 18. adjusting the support frame; 19. a telescopic pushing frame; 21. a shelf board is arranged on the upper part; 22. a middle support shaft; 23. a rotating sleeve; 24. a support frame; 31. a work machine column; 32. pushing the rail; 33. an adjusting slide block; 34. an electric control pushing rod; 35. an outer slider; 36. a support frame rod; 37. an outer branch; 38. a support frame surface; 41. a support rail; 42. a rotation bolt; 43. a mapping instrument; 44. extending the barrel; 45. detecting a machine head; 51. a mounting frame; 52. an inclined support column; 53. a telescopic support rod; 54. a support end; 55. a positioning ring; 61. an inner pusher; 62. a hydraulic rod; 63. an inner push rod.

Description of the embodiments

The technical solutions according to the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings, examples of which are shown in the accompanying drawings. When the following description refers to the accompanying drawings, like numerals in the various drawings refer to like or similar elements, unless otherwise specified.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

In one embodiment;

referring to fig. 1, there is provided a construction cost mapping apparatus including a support base 11, a turning mechanism 12 mounted on the support base 11, a main support frame 13 mounted on the turning mechanism 12, and a mapping frame 16 mounted on top of the main support frame 13;

the support base 11 is provided with an adjusting pusher 14 and an adjusting bracket 15 arranged at the pushing end of the adjusting pusher 14; the frame of the adjusting bracket 15 is connected with the main bracket 13;

the surveying and mapping machine frame 16 is provided with an adjustable detection machine box 17, the bottom of the main support frame 13 is also provided with an adjusting support frame 18 and a telescopic pushing frame 19 arranged on the adjusting support frame 18, and the detection machine box 17 is erected on a frame rail of the telescopic pushing frame 19.

The embodiment is based on engineering cost mapping technology in the prior art, the azimuth adjustment of mapping devices is technically optimized, a supporting base 11 is supported on a foundation of a construction area, a main support frame 13 is erected on the supporting base 11, a detection case 17 is installed on the main support frame 13 through a mapping machine frame 16, the detection case 17 is a detection implementation tool, an adjustment pusher 14 is a primary adjustment mechanism and drives an adjustment bracket 15 to move so as to drive the main support frame 13 to take a steering machine part 12 as a rotation fulcrum, thereby adjusting the inclination direction of the main support frame 13, namely adjusting the angle of a mapping supporting surface of the mapping machine frame 16, an adjustment support frame 18 is a secondary adjustment mechanism and drives a telescopic pushing frame 19 to move, thereby adjusting the operation angle of the detection case 17, namely adjusting the angle of a mapping implementation end on the basis of adjusting the mapping supporting surface; therefore, the method can adapt to foundation conditions of different areas and is used for detecting building engineering of each area; the oblique angle ground surface features and the plane ground surface features can be compared under the same coordinate reference, so that the analysis degree of freedom of the engineering cost is higher.

In one embodiment;

referring to fig. 2, the support base 11 is provided with an upper frame plate 21, the steering mechanism 12 includes a middle support shaft 22 mounted on the upper frame plate 21, a rotating sleeve 23 mounted on the middle support shaft 22, and a support frame 24 disposed on the rotating sleeve 23, and the main support frame 13 is mounted in the frame of the support frame 24. The supporting frame 24 is mounted on the rotating sleeve 23, and the middle supporting shaft 22 is used as a steering supporting component, and the supporting frame 24 is used for fixing the main support frame 13, so that the stability of operation is ensured.

In one embodiment;

referring to fig. 2, the adjusting pusher 14 includes a work machine rail 31, a pushing rail 32 disposed on the work machine rail 31, an adjusting slider 33 installed in the pushing rail 32, and an electrically controlled pushing rod 34 for pushing the adjusting slider 33; the adjusting slide block 33 is externally connected with an outer slide block 35, the outer slide block 35 is externally connected with a support frame rod 36, an outer support head 37 is arranged at the rod end of the support frame rod 36, the outer support head 37 is externally connected with a support frame surface 38, and the support frame surface 38 is fixedly arranged with the main support frame 13.

The electric control pushing rod 34 drives the adjusting sliding block 33 to move along the pushing track 32 for pushing and supplying, so as to adjust the position of the outer sliding block 35, namely, adjust the supporting position of the supporting rack rod 36, and then drive the main support frame 13 to rotate by taking the middle support rotating shaft 22 as an axis for adjusting the working position of the main support frame 13.

In one embodiment;

referring to fig. 3, the surveying and mapping frame 16 includes a support bar 41 mounted on the main support 13, a rotation bolt 42 disposed on the support bar 41, and the detecting machine box 17 includes a surveying and mapping instrument 43 inserted into the support bar 41 and turned by the rotation bolt 42, an extension cylinder 44 mounted on the surveying and mapping instrument 43, and a detecting machine head 45 mounted on the extension cylinder 44. The surveying instrument 43 is limited to the supporting fence 41, and the rotating bolt 42 is a swinging supporting structure.

Referring to fig. 4, the adjusting support frame 18 includes a mounting frame 51 mounted at the bottom of the main support frame 13, and an inclined support column 52 mounted on the mounting frame 51, the telescopic pushing frame 19 includes a telescopic support rod 53 mounted in the inclined support column 52, and a support end 54 mounted in the telescopic support rod 53, a positioning ring 55 is disposed on the support end 54, and the detecting machine head 45 is erected in the positioning ring 55 and is supported by the support end 54. The adjusting support frame 18 is also internally provided with an inner pusher 61, a hydraulic rod 62 arranged on the inner pusher 61 and an inner push rod 63 arranged at the pushing end of the hydraulic rod 62, and the rod end of the inner push rod 63 is connected with the telescopic support rod 53.

The inner pusher 61 adopts a hydraulic driving mode to drive the hydraulic rod 62 to move, and then drives the telescopic supporting rod 53 to move through the inner push rod 63, so that the telescopic pulling surveying instrument 43 of the telescopic supporting rod 53 moves by taking the rotating bolt 42 as a swinging fulcrum, and the detection operation direction of the detection machine head 45 is adjusted.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The engineering cost surveying and mapping equipment comprises a support base, a steering machine part arranged on the support base, a main support frame arranged on the steering machine part, and a surveying and mapping machine frame arranged on the top of the main support frame; it is characterized in that the method comprises the steps of,

the support base is provided with an adjusting pusher and an adjusting bracket arranged at the pushing end of the adjusting pusher; the frame of the adjusting bracket is connected with the main bracket;

the surveying and mapping machine frame is provided with an adjustable detection machine box, an adjusting support frame and a telescopic pushing frame arranged on the adjusting support frame are further arranged at the bottom of the main support frame, and the detection machine box is erected on a frame rail of the telescopic pushing frame.

2. The engineering cost mapping apparatus according to claim 1, wherein the support base is provided with an upper frame plate, the steering mechanism includes a middle support shaft mounted on the upper frame plate, a rotating sleeve mounted on the middle support shaft, and a support frame body disposed on the rotating sleeve, and the main support frame is mounted in a frame of the support frame body.

3. The engineering cost mapping apparatus of claim 2, wherein the adjustment pusher comprises a work machine rail, a pushing rail provided on the work machine rail, an adjustment slider mounted in the pushing rail, and an electrically controlled pushing rod for pushing the adjustment slider; the outer sliding block is externally connected with an outer sliding block, the outer sliding block is externally connected with a support frame rod, an outer support head is mounted at the rod end of the support frame rod, the outer support head is externally connected with a support frame surface, and the support frame surface is fixedly mounted with the main support frame.

4. A construction cost mapping apparatus according to claim 3, wherein the mapping frame comprises a support bar mounted on the main support frame, a rotation bolt provided on the support bar, and the detection housing comprises a mapping instrument inserted into the support bar and turned by the rotation bolt, an extension barrel mounted on the mapping instrument, and a detection head mounted on the extension barrel.

5. The engineering cost mapping apparatus of claim 4, wherein the adjusting support frame comprises a mounting frame mounted at the bottom of the main support frame and an inclined support column mounted on the mounting frame, the telescopic pushing frame comprises a telescopic support rod mounted in the inclined support column and a support end mounted in the telescopic support rod, a positioning ring is arranged on the support end, and the detecting machine head is erected in the positioning ring and supported by the support end.

6. The engineering cost mapping apparatus according to claim 5, wherein the adjusting support frame is further internally provided with an inner pusher, a hydraulic rod arranged on the inner pusher, and an inner push rod arranged at the pushing end of the hydraulic rod, and the rod end of the inner push rod is connected with the telescopic support rod.