CN210464474U - 3D surveying instrument - Google Patents

Abstract

The utility model discloses a 3D surveying instrument, including the base, be provided with the rotating baseplate on the base, rotating baseplate center vertical setting rotating shaft one, fixed cover is equipped with rotatory ring one on the rotating shaft one, is provided with the casing on the rotatory ring, casing one side vertical setting rotating baseplate two, rotating baseplate two center level is fixed with rotatory shaft two, the cover is equipped with rotatory ring two on the rotating shaft two, is provided with the point-taking instrument on rotatory ring two, installs the laser lamp in the point-taking instrument; the first rotating ring and the second rotating ring are both provided with encoders; a control circuit board is arranged in the shell, and the encoder, the point taking tool and the laser lamp are all connected with the control circuit board; a power supply box is arranged in the shell and is connected with the control circuit board; the shell is provided with a point taking switch which is connected with the control circuit board, and the shell is also provided with a control panel. The utility model discloses can be more direct measure indoor each size between the wall, and can directly generate the CAD drawing.

Description

3D surveying instrument

Technical Field

The utility model belongs to the surveying instrument field especially relates to a 3D surveying instrument.

Background

Surveying instruments, which are simply data acquisition, processing, output and other instruments and devices designed and manufactured for surveying and mapping operation, are used for various aspects of orientation, distance measurement, angle measurement, height measurement and the like in the planning, design, construction and operation management stages in engineering construction. Surveying instruments are of various types, such as theodolites, levels, planimeters, electromagnetic wave distance meters, total stations, gyrotheodometers, laser measuring instruments and the like, and are mainly used for surveying and mapping field earth surfaces, and most of the surveying and mapping instruments work in the field environment.

At present, no surveying instrument which is specially used for measuring the indoor room size and can directly generate a CAD (computer-aided design) drawing exists in the market, and the surveying instrument is low in measuring efficiency due to the fact that the surveying instrument is complex to operate and cannot directly measure the distance. And the volume is large, the carrying is inconvenient, the cost is high, and small furniture stores cannot bear the weight.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough to the background art provides a 3D mapping instrument, its can be more direct measure indoor each size between the wall to can directly generate the CAD drawing, make things convenient for the design in designer's later stage to go out and the processing production of mill, avoid the probability of makeing mistakes of secondary drawing.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme:

A3D surveying instrument comprises a base, wherein a rotating base plate is arranged on the base, a rotating shaft I is vertically arranged in the center of the rotating base plate, a rotating ring I is fixedly sleeved on the rotating shaft I, a shell is arranged on the rotating ring, a rotating base plate II is vertically arranged on one side of the shell, a rotating shaft II is horizontally fixed in the center of the rotating base plate II, a rotating ring II is sleeved on the rotating shaft II, a point taking tool is arranged on the rotating ring II, and a laser lamp is installed in the point taking tool; the first rotating ring and the second rotating ring are both provided with encoders;

a control circuit board is arranged in the shell, and the encoder, the point taking tool and the laser lamp are all connected with the control circuit board; a power supply box is arranged in the shell and is connected with the control circuit board; the shell is provided with a point taking switch which is connected with the control circuit board, and the shell is also provided with a control panel.

Furthermore, the second rotating shaft is a hollow shaft.

Furthermore, a Bluetooth module is arranged on the control panel.

Furthermore, the control panel comprises a charging indicator light, a power switch, a laser switch and a charging interface.

Furthermore, 3 anti-skidding adjustable bottom feet are arranged below the base.

Further, a level gauge is arranged at the top of the shell.

Further, a handle is arranged at the top of the shell.

Further, the point taking tool comprises an infrared sensor.

The utility model adopts the above technical scheme to compare with prior art, have following technological effect:

the utility model directly generates CAD drawing through the cooperation of the mobile phone and the surveying instrument, saves the drawing time, can rotate 360 degrees in both horizontal and vertical directions, can be used indoors and outdoors, and has convenient and fast operation and convenient carrying; the size of the measured object can be directly displayed on the mobile phone app, and the drawing can be directly led into a computer in a CAD format, so that the method is very convenient.

The utility model has the advantages of small volume, light weight and low price. The furniture customizing device is suitable for all furniture customizing shops and cabinet customizing shops in the market. The product is convenient and simple to use, only needs to be connected with a mobile phone of a measuring master, and can immediately transmit the generated CAD graph back to a shop or directly transmit the CAD graph to a processing factory for processing after field measurement is completed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic diagram showing the position of the point-taking tool in this embodiment;

FIG. 3 is a schematic view illustrating a control panel structure according to the present embodiment;

FIG. 4 is a schematic view of a wall point taking in the present embodiment;

fig. 5 is a data diagram of the mobile phone display in the embodiment.

In the figure, 1, a base; 11. rotating the base plate; 12. a first rotating shaft; 121. rotating the ring I; 21. a left shell; 22. a right shell; 3. rotating the second bottom plate; 31. a second rotating shaft; 32. a second rotating ring; 33. a point taking tool; 4. an encoder; 5. a control circuit board; 51. a power supply box; 6. a point-taking switch; 71. a power indicator light; 72. a Bluetooth module; 73. a charging indicator light; 74. a power switch; 75. a laser switch; 76. a charging interface; 8. anti-skid adjustable bottom feet; 9. a level gauge; 10. a handle.

Detailed Description

The technical scheme of the utility model is further explained in detail with the attached drawings as follows:

A3D surveying instrument, as shown in figures 1, 2 and 3, comprises a circular base 1, a circular rotating base plate 11 is arranged on the base 1, a rotating shaft I12 is vertically arranged in the center of the rotating base plate 11, a rotating ring I121 is fixedly sleeved on the rotating shaft I12, a shell is fixedly arranged on the rotating ring, the shell is designed into two parts, and the two parts are vertically divided into a left shell 21 and a right shell 22 from the middle so as to install other parts in the shell; after the housing is installed on the rotating ring I121, the housing can rotate along with the rotating ring I121.

A second circular rotating base plate 11 is vertically arranged in the right shell 22, a second rotating shaft 31 is horizontally fixed at the center of the second rotating base plate 11, a second rotating ring 32 is sleeved on the second rotating shaft 31, a point taking tool 33 is arranged on the second rotating ring 32, a laser lamp is arranged in the point taking tool 33, and the point taking tool 33 and the second rotating ring 32 can rotate around the second rotating shaft 31; the encoders 4 are mounted on the first rotating ring 121 and the second rotating ring 32, and the two encoders 4 are used for converting angular displacement signals of the point taking tool 33 in the horizontal direction and the vertical direction into electric signals. The second rotating shaft 31 is a hollow shaft, so that the point taking tool 33 can be conveniently wired.

The left shell 21 is internally provided with a control circuit board 5, a pcb circuit board is adopted, and a single chip microcomputer chip is arranged in the left shell. The encoder 4, the point taking tool 33 and the laser lamp thereof are connected with the control circuit board 5; a power supply box 51 is arranged in the shell, is connected with the control circuit board 5 and supplies power to the whole surveying instrument. The shell is provided with a point taking switch 6 which is connected with the control circuit board 5.

The shell is also provided with a control panel, and the control panel comprises a charging indicator lamp 73, a power indicator lamp 71, a power switch 74, a laser switch 75 and a charging interface 76. The control panel is provided with a Bluetooth module 72 for performing Bluetooth transmission with the mobile phone app and transmitting the measured data to the mobile phone app.

In addition, base 1 below is provided with 3 adjustable footing 8 of antiskid and is used for adjusting the levelness of surveying instrument, and the casing top is provided with spirit level 9 for whether the observation surveying instrument is horizontal. The top of the shell is also provided with a handle 10, and the power-taking switch is arranged at the top of the handle 10 and is convenient to operate.

Description of specific embodiments:

as shown in fig. 4, taking the horizontal length L of the measurement wall surface b as an example:

1. the level 9 is placed horizontally (can be placed on a tripod), the anti-skid adjustable feet 8 are adjusted, the level 9 is observed at the same time, and the level 9 is adjusted to be horizontal.

2. The power switch 74 is turned on and the mapper is powered on.

3. The housing is horizontally rotated, the rotating ring second 32 is vertically rotated, the position of the driving tool is adjusted, the position of the point taking tool 33 can be judged according to the irradiation position of the laser lamp, and the position where the laser lamp is irradiated is the position of the point taking tool 33.

4. The laser lamp of the point taking tool 33 is shot at any point a1 on the wall surface a, the point taking switch 6 is pressed to obtain a point a1, then the rotating ring I121 is horizontally rotated, so that the shell and the point taking tool 33 are driven to rotate rightwards, and the laser lamp is shot at a point a2 (a 1 and a2 are not overlapped) on the wall surface a at the same horizontal height as a 1; next, the rotating ring one 121 is rotated, and the above operations are repeated until points b1, b2, c1 and c2 are taken on the wall surface b and the wall surface c, respectively.

5. After the point is taken, the app on the mobile phone is opened, the single chip collects information and transmits the information to the app on the mobile phone through the Bluetooth module 72, software of the mobile phone app can automatically generate a simulation sketch of a 3-wall (see fig. 5), and a specific numerical value of the horizontal length L of the wall surface b is displayed.

According to the method, when a user takes two points on each wall body in sequence at the same time, the length, the width and the height of the whole indoor space can be displayed on the mobile phone.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Above embodiment only is for explaining the utility model discloses a technical thought can not be injectd with this the utility model discloses a protection scope, all according to the utility model provides a technical thought, any change of doing on technical scheme basis all falls into the utility model discloses within the protection scope. Although the embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (8)

1. A 3D surveying instrument characterized by: the laser lamp device comprises a base, wherein a rotating base plate is arranged on the base, a first rotating shaft is vertically arranged in the center of the rotating base plate, a first rotating ring is fixedly sleeved on the first rotating shaft, a shell is arranged on the rotating ring, a second rotating base plate is vertically arranged on one side of the shell, a second rotating shaft is horizontally fixed in the center of the second rotating base plate, a second rotating ring is sleeved on the second rotating shaft, a point taking tool is arranged on the second rotating ring, and a laser lamp is arranged in the point taking tool; the first rotating ring and the second rotating ring are both provided with encoders;

a control circuit board is arranged in the shell, and the encoder, the point taking tool and the laser lamp are all connected with the control circuit board; a power supply box is arranged in the shell and is connected with the control circuit board; the shell is provided with a point taking switch which is connected with the control circuit board, and the shell is also provided with a control panel.

2. A 3D mapper as recited in claim 1, wherein: and the second rotating shaft is a hollow shaft.

3. A 3D mapper as recited in claim 1, wherein: and the control panel is provided with a Bluetooth module.

4. A 3D mapper as recited in claim 1, wherein: the control panel comprises a charging indicator light, a power switch, a laser switch and a charging interface.

5. A 3D mapper as recited in claim 1, wherein: and 3 anti-skid adjustable bottom feet are arranged below the base.

6. A 3D mapper as recited in claim 1, wherein: the top of the shell is provided with a level gauge.

7. A 3D mapper as recited in claim 1, wherein: the top of the shell is provided with a handle.

8. A 3D mapper as recited in claim 1, wherein: the point taking tool comprises an infrared sensor.

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