CN219247909U - Multisource geological data recording device - Google Patents

Abstract

A multi-source geological data recording device comprises a paper surface data scanning mechanism and a digital data acquisition mechanism; the paper surface data scanning mechanism comprises a bottom plate for bearing paper files, a containing groove for containing the paper files is formed in the bottom plate, a pressing piece for pressing the paper files in the containing groove is detachably connected to the bottom plate, and a high-speed shooting instrument for shooting the paper files is fixedly arranged on the side of the bottom plate; the digital data acquisition mechanism comprises a docking station, wherein at least one upper connection interface and a plurality of lower expansion interfaces are arranged on the docking station and used for being connected with an upper computer, and one lower expansion interface is electrically connected with the high-speed camera. The utility model provides a multi-source geological data recording device which can record paper surface geological data recorded on paper files and digital geological data stored in equipment in a digital mode, and can collect and record the geological data in a centralized way so as to be convenient for storing, managing and applying the geological data.

Description

Multisource geological data recording device

Technical Field

The utility model relates to the technical field of multi-source geological data processing, in particular to a multi-source geological data recording device.

Background

Geological data is widely applied in a plurality of engineering fields, and directly influences the design and construction of a plurality of engineering projects. The variety and the sources of the geological data are very large, no strict standard exists for the storage form and the storage medium of the geological data at present, and the geological data from various sources are disordered, so that the geological data collected in engineering practice are difficult to directly call. In the process of collecting and recording multi-source geological data, the geological data stored in an electronic form can be directly read, and paper surface geological data stored in a paper file form needs to be scanned and identified. In the prior art, equipment capable of simultaneously and uniformly collecting and recording electronic geological data and paper surface geological data is not known.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides a multi-source geological data recording device which can record paper surface geological data recorded on paper files and digital geological data stored in equipment in a digital mode, and can collect and record the geological data in a centralized way so as to be convenient for storing, managing and applying the geological data.

In order to achieve the above purpose, the utility model adopts the following specific scheme: a multi-source geological data recording device comprises a paper surface data scanning mechanism and a digital data acquisition mechanism;

the paper surface data scanning mechanism comprises a bottom plate for bearing paper files, a containing groove for containing the paper files is formed in the bottom plate, a pressing piece for pressing the paper files in the containing groove is detachably connected to the bottom plate, and a high-speed shooting instrument for shooting the paper files is fixedly arranged on the side of the bottom plate;

the digital data acquisition mechanism comprises a docking station, wherein at least one upper connection interface and a plurality of lower expansion interfaces are arranged on the docking station and used for being connected with an upper computer, and one lower expansion interface is electrically connected with the high-speed camera.

Further optimizing the multi-source geological data recording device: the pressing piece comprises an upper pressing strip detachably connected with the bottom plate, and the upper pressing strip is fixedly connected with a lower pressing strip which extends into the accommodating groove to press the paper document.

Further optimizing the multi-source geological data recording device: the permanent magnet used for attracting the bottom plate is embedded in the upper pressing strip.

Further optimizing the multi-source geological data recording device: the lower surface of the upper pressing strip is fixedly connected with at least one sliding pad.

Further optimizing the multi-source geological data recording device: the lower surface of bottom plate fixedly connected with a plurality of cushion, docking station fixed connection is between two adjacent cushion.

Further optimizing the multi-source geological data recording device: the high-speed shooting instrument comprises a telescopic supporting rod fixedly connected with a bottom plate, the telescopic supporting rod is perpendicular to the bottom plate, a movable end of the telescopic supporting rod is fixedly connected with a mounting rod which horizontally extends to the upper portion of the bottom plate, the mounting rod is fixedly connected with a camera which faces the bottom plate, and the camera is electrically connected with one lower expansion interface.

Further optimizing the multi-source geological data recording device: the upper end of the telescopic supporting rod is fixedly connected with a horizontally arranged frame, the mounting rod extends to the inner side of the frame, and the lower surface of the frame is provided with a lighting module for lighting the paper document.

Further optimizing the multi-source geological data recording device: the lighting module comprises a lamp strip fixedly connected with the frame, a plurality of lamp beads are fixedly connected to the lower surface of the lamp strip, and all the lamp beads are electrically connected with one of the lower expansion interfaces.

Further optimizing the multi-source geological data recording device: the mounting groove has been seted up to the lower surface of frame, the lamp area with the lamp pearl is all fixed to be set up in the mounting groove, still fixedly provided with the light equalizing plate in the mounting groove.

The beneficial effects are that: the utility model can record paper surface geological data recorded on paper files and digital geological data stored in equipment in a digital mode, and can collect and record the geological data in a centralized way so as to store, manage and apply the geological data.

Drawings

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

FIG. 2 is a schematic structural view of a hold-down member;

fig. 3 is a schematic structural view of the lighting module.

Description of the drawings: the LED lamp comprises a 1-bottom plate, a 2-containing groove, a 3-cushion block, a 4-docking station, a 5-upper connecting interface, a 6-lower extending interface, a 7-pressing piece, an 8-telescopic supporting rod, a 9-frame, a 10-mounting rod, an 11-camera, a 12-upper pressing strip, a 13-permanent magnet, a 14-sliding pad, a 15-lower pressing strip, a 16-mounting groove, a 17-lamp strip, an 18-lamp bead and a 19-light equalizing plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1, a multi-source geological data recording device includes a paper surface data scanning mechanism and a digital data acquisition mechanism.

The paper surface data scanning mechanism comprises a bottom plate 1 for bearing paper documents, a containing groove 2 for containing the paper documents is formed in the bottom plate 1, the bottom plate 1 is detachably connected with a pressing piece 7 for pressing the paper documents in the containing groove 2, and a high-speed shooting instrument for shooting the paper documents is fixedly arranged on the side of the bottom plate 1.

The digital data acquisition mechanism comprises a docking station 4, wherein at least one upper connection interface 5 and a plurality of lower expansion interfaces 6 for connecting an upper computer are arranged on the docking station 4, and one lower expansion interface 6 is electrically connected with the high-speed camera.

When multi-source geological data are recorded, the upper computer is firstly connected with the upper connecting interface 5 of the docking station 4, the upper computer can be intelligent equipment such as a desktop computer, a notebook computer or a tablet computer, the upper connecting interface 5 can adopt an USB type-c interface, and then the paper surface data scanning mechanism or the digital data acquisition mechanism is selected to be used for recording the geological data according to a storage medium of the geological data. Specifically, if the geological data is recorded on the paper file in the form of a chart or the like, the paper file is placed in the accommodating groove 2, then the paper file is compressed by the compressing piece 7, the paper file is kept in a flat state, then the upper computer is used for controlling the high-speed camera to start, the high-speed camera is used for shooting the image of the paper file, the shooting of the paper file is completed, further the geological data can be extracted from the paper file by utilizing the OCR (optical character recognition) technology, the paper file can be compressed and flattened by the compressing piece 7, the quality of the shot image is guaranteed, and the accuracy of the extracted geological data is further improved; if the geological data is stored in other devices in a digital form, the upper computer is connected with the devices storing the geological data through the lower expansion interface 6, so that the upper computer is utilized to read the geological data from the devices, the lower expansion interface 6 can be a common interface such as a USB interface, an RJ-45 interface, an RS485 interface and the like, and can be determined according to the type of the devices storing the geological data which are required to be used.

The utility model can record paper surface geological data recorded on paper files and digital geological data stored in equipment in a digital mode, and can collect and record the geological data in a centralized way so as to store, manage and apply the geological data.

Referring to fig. 2, the compressing element 7 has the following specific structure: the pressing piece 7 comprises an upper pressing bar 12 detachably connected with the bottom plate 1, and the upper pressing bar 12 is fixedly connected with a lower pressing bar 15 which stretches into the accommodating groove 2 to press paper documents. After the paper document is placed in the accommodating groove 2, the upper pressing bar 12 is connected with the bottom plate 1, and the lower pressing bar 15 extends into the accommodating groove 2, so that the paper document is pressed by the lower pressing bar 15, and it should be noted that the upper pressing bar 12 and the lower pressing bar 15 cannot block the content on the paper document, and preferably the edge of the paper document is pressed by the pressing member 7.

The upper pressing strip 12 and the bottom plate 1 are specifically detachably connected in the following manner: a permanent magnet 13 for attracting the bottom plate 1 is embedded in the upper pressing bar 12. The detachable connection of the upper pressing strip 12 and the bottom plate 1 is realized in a magnetic attraction mode, the operation is simple and convenient, the connection position of the upper pressing strip 12 is flexible and changeable, and paper files with different sizes are convenient to compress. Accordingly, the base plate 1 should be made of a material that can be attracted by the permanent magnet 13, such as iron.

In order to further improve the flexibility of the connection position of the upper pressing bar 12 and further facilitate the pressing of paper documents of different sizes, at least one sliding pad 14 is fixedly connected to the lower surface of the upper pressing bar 12. The sliding pad 14 is mainly used for reducing the friction force between the upper pressing strip 12 and the bottom plate 1, and by arranging the sliding pad 14, the position of the upper pressing strip 12 can be moved as required after the upper pressing strip 12 is connected with the bottom plate 1. Sliding pad 14 may be a smooth ceramic sheet.

The specific arrangement mode of the docking station 4 is as follows: the lower surface of the bottom plate 1 is fixedly connected with a plurality of cushion blocks 3, and the docking station 4 is fixedly connected between two adjacent cushion blocks 3.

The high-speed shooting instrument comprises the following specific structures: the high-speed shooting instrument comprises a telescopic supporting rod 8 fixedly connected with a bottom plate 1, the telescopic supporting rod 8 is perpendicular to the bottom plate 1, a movable end of the telescopic supporting rod 8 is fixedly connected with a mounting rod 10 horizontally extending to the upper portion of the bottom plate 1, the mounting rod 10 is fixedly connected with a camera 11 facing the bottom plate 1, and the camera 11 is electrically connected with one of lower expansion interfaces 6. Through setting up flexible bracing piece 8, can change the height of installation pole 10 through the length of adjusting flexible bracing piece 8, and then change the height of camera 11 to adjust the distance between camera 11 and the paper file, thereby guarantee that camera 11 can shoot paper file completely, and guarantee the definition of the image of shooing. The telescopic support rod 8 can adopt the existing telescopic support, and belongs to the conventional technology in the field of high-speed shooting instruments, and the description is omitted here.

In order to avoid the degradation of the definition of the image shot by the camera 11 due to poor ambient light, the upper end of the telescopic support rod 8 is fixedly connected with a horizontally arranged frame 9, the mounting rod 10 extends to the inner side of the frame 9, and the lower surface of the frame 9 is provided with an illumination module for illuminating the paper document. The paper document can be illuminated by arranging the illumination module, so that dark parts are avoided, the quality of an image shot by the camera 11 is improved, the coverage area of the illumination module can be enlarged by arranging the illumination module below the frame 9, and the paper document is fully illuminated.

Referring to fig. 3, the specific structure of the lighting module is as follows: the lighting module comprises a lamp strip 17 fixedly connected with the frame 9, a plurality of lamp beads 18 are fixedly connected to the lower surface of the lamp strip 17, and all the lamp beads 18 are electrically connected with one of the lower expansion interfaces 6. The light beads 18 may be LED light beads, which are of the mature prior art and are not described in detail herein.

In order to prevent the light emitted by the lamp beads 18 from forming glare on the paper document to reduce the image quality, the lower surface of the frame 9 is provided with a mounting groove 16, the lamp belt 17 and the lamp beads 18 are fixedly arranged in the mounting groove 16, and a light equalizing plate 19 is fixedly arranged in the mounting groove 16. The light emitted by the lamp beads 18 can be processed by arranging the light-equalizing plate 19, so that the light irradiated on the paper document is softer, and the condition of glare is avoided.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A multi-source geological data recording device, which is characterized in that: the device comprises a paper surface data scanning mechanism and a digital data acquisition mechanism;

the paper surface data scanning mechanism comprises a bottom plate (1) for bearing paper files, a containing groove (2) for containing the paper files is formed in the bottom plate (1), the bottom plate (1) is detachably connected with a pressing piece (7) for pressing the paper files in the containing groove (2), and a high-speed shooting instrument for shooting the paper files is fixedly arranged on the side of the bottom plate (1);

the digital data acquisition mechanism comprises a docking station (4), wherein at least one upper connection interface (5) and a plurality of lower expansion interfaces (6) are arranged on the docking station (4) and used for being connected with an upper computer, and one lower expansion interface (6) is electrically connected with the high-speed image shooting instrument.

2. A multi-source geological data recording as in claim 1, wherein: the pressing piece (7) comprises an upper pressing bar (12) detachably connected with the bottom plate (1), and the upper pressing bar (12) is fixedly connected with a lower pressing bar (15) which stretches into the accommodating groove (2) to press the paper document.

3. A multi-source geological data recording as in claim 2, wherein: permanent magnets (13) for attracting the bottom plate (1) are embedded in the upper pressing strip (12).

4. A multi-source geological data recording as in claim 2, wherein: the lower surface of the upper pressing strip (12) is fixedly connected with at least one sliding liner (14).

5. A multi-source geological data recording as in claim 1, wherein: the lower surface of the bottom plate (1) is fixedly connected with a plurality of cushion blocks (3), and the docking station (4) is fixedly connected between two adjacent cushion blocks (3).

6. A multi-source geological data recording as in claim 1, wherein: the high-speed shooting instrument comprises a telescopic supporting rod (8) fixedly connected with a bottom plate (1), the telescopic supporting rod (8) is perpendicular to the bottom plate (1), the movable end of the telescopic supporting rod (8) is fixedly connected with a mounting rod (10) horizontally extending to the upper portion of the bottom plate (1), the mounting rod (10) is fixedly connected with a camera (11) facing the bottom plate (1), and the camera (11) is electrically connected with one lower expansion interface (6).

7. A multi-source geological data recording as in claim 6, wherein: the upper end of the telescopic supporting rod (8) is fixedly connected with a horizontally arranged frame (9), the mounting rod (10) extends to the inner side of the frame (9), and the lower surface of the frame (9) is provided with a lighting module for lighting the paper document.

8. A multi-source geological data recording as in claim 7, wherein: the lighting module comprises a lamp strip (17) fixedly connected with the frame (9), a plurality of lamp beads (18) are fixedly connected to the lower surface of the lamp strip (17), and all the lamp beads (18) are electrically connected with one of the lower expansion interfaces (6) together.

9. A multi-source geological data recording as in claim 8, wherein: the LED lamp is characterized in that a mounting groove (16) is formed in the lower surface of the frame (9), the lamp strip (17) and the lamp beads (18) are fixedly arranged in the mounting groove (16), and a light homogenizing plate (19) is fixedly arranged in the mounting groove (16).

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