CN220340058U - Batch rock core observation device - Google Patents

Abstract

The utility model provides a batch rock core observation device, and relates to the technical field of rock core observation. The rock core observation device comprises a supporting leg assembly, a roller table top assembly, a support assembly, a photographing assembly, an illumination assembly and a test assembly, wherein the supporting leg assembly is connected to the bottom of the roller table top assembly, the support assembly is connected to the top of the roller table top assembly, a rock core containing box body containing a rock core is placed on the roller table top assembly and can slide on the roller table top assembly, the photographing assembly is movably connected to the support assembly, the illumination assembly is connected to the support assembly and located in front of the photographing assembly, the test assembly is movably connected to the support assembly and located in front of the illumination assembly, the rock core observation device can be used for observing, cataloging, photographing and measuring mass rock cores, specimens, soil samples and other substances in indoor environments, the basic functions are richer, the operation processes are more continuous, the manpower is saved, and the work efficiency is greatly improved.

Description

Batch rock core observation device

Technical Field

The utility model relates to the technical field of core observation, in particular to a batch core observation device.

Background

In geological exploration, especially in hydrogeology, engineering geology, environmental geological exploration, a few quaternary, clay mineral-rich, fluffy cores are often drilled. The core is extremely precious physical geological data, is the most direct and original data reflecting the underground geological condition, and scientific researchers usually need to observe, record, photograph, test and other substances such as the core, the specimen or the soil sample in an indoor environment.

The applicant found that at least the following technical problems exist in the prior art: when a scientific research person observes, records, photographs, tests and other substances such as a rock core, a specimen or a soil sample, most of the scientific research personnel need to manually use different devices to operate on different operation platforms respectively, a large number of samples are transported to work, and the samples need to be photographed by a handheld camera, so that when the scientific research personnel are applied to mass rock core sample observation, a large amount of manpower is consumed, and the work efficiency is affected.

Disclosure of Invention

The utility model aims to provide a batch rock core observation device, which aims to solve the technical problems that different devices are needed to be manually used for respectively operating on different operation platforms when a large number of rock core samples are observed in the prior art, a large amount of manpower is consumed, and the working efficiency is affected. The preferred technical solutions of the technical solutions provided by the present utility model can produce a plurality of technical effects described below.

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

the utility model provides a batch rock core observation device, includes landing leg subassembly, roller mesa subassembly, bracket component, shoots subassembly, lighting assembly and test assembly, the landing leg subassembly is connected the bottom of roller mesa subassembly, the bracket component is connected the top of roller mesa subassembly, the rock core that has placed the rock core holds the box body and places roller mesa subassembly is last and can slide on the roller mesa subassembly, the subassembly swing joint of shooing is in on the bracket component, the lighting assembly is connected on the bracket component and be located shoot the place ahead of subassembly, test assembly swing joint is in on the bracket component and be located lighting assembly's the place ahead.

Preferably, the support leg assembly comprises a support leg body and a height adjusting mechanism, wherein the top of the support leg body is connected with the roller table top assembly, and the height adjusting mechanism is connected to the bottom of the support leg body.

Preferably, the roller table top assembly comprises a cross beam and rollers, two cross beams are arranged in parallel, the supporting leg assembly is connected with the two cross beams, the support assembly is connected with the cross beams positioned at the rearmost side, a plurality of rollers are arranged in parallel and at equal intervals, two ends of each roller are movably connected with one cross beam, and the core accommodating box body is placed on the rollers and can slide on the rollers.

Preferably, the roller table assembly further comprises a V-shaped receiving slot connected to the forward-most beam.

Preferably, the photographing assembly comprises a first sliding rail, a first sliding block, a fixed vertical rod and a camera, wherein the first sliding rail is connected to the support assembly, the top of the fixed vertical rod is connected with the first sliding block, the bottom of the fixed vertical rod is connected with the camera, and the first sliding block is in sliding connection with the first sliding rail.

Preferably, the lighting assembly comprises an LED lamp strip, the LED lamp strip is connected to the bracket assembly, and the tail end of the LED lamp strip is electrically connected with an external power supply.

Preferably, the illumination assembly further comprises an illumination intensity sensor, wherein the illumination intensity sensor is arranged at the top of the roller table top assembly, and the illumination intensity sensor is in communication connection with the LED lamp.

Preferably, the test assembly comprises a second slide rail, a second slider, a damping mechanical arm, a clamping mechanism and a test instrument, wherein the second slide rail is connected to the support assembly, the top of the damping mechanical arm is connected with the second slider, the bottom of the damping mechanical arm is connected with the clamping mechanism, the test instrument is detachably connected with the clamping mechanism, and the second slider is in sliding connection with the second slide rail.

Preferably, the camera further comprises a control computer, wherein the control computer is in communication connection with the photographing assembly and the testing assembly.

The beneficial effects of the utility model are as follows: the batch rock core observation device is used as an auxiliary device, can be used for observing, cataloging, photographing and measuring mass rock cores, specimens, soil samples and other substances in an indoor environment, has more abundant basic functions, is more continuous in a plurality of operation processes, and samples do not need to be transported to different operation platforms for operation respectively, so that manpower is saved, and the working efficiency is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the 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 side elevational structural view of the present utility model;

FIG. 2 is a front view block diagram of the present utility model;

1, a leg assembly; 11. a leg body; 12. a height adjusting mechanism;

2. a roller table assembly; 21. a cross beam; 22. a roller; 23. a V-shaped accommodating groove;

3. a bracket assembly;

4. a photographing component; 41. a first slide rail; 42. a first slider; 43. fixing the vertical rod; 44. a camera;

5. a lighting assembly; 51. an LED lamp strip; 52. an illumination intensity sensor;

6. a testing component; 61. a second slide rail; 62. a second slider; 63. damping mechanical arm; 64. a clamping mechanism; 65. and (3) testing the instrument.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

In the description of the present utility model, it should be understood that the terms "center", "side", "length", "width", "height", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "side", etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in fig. 1 are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

Referring to fig. 1 to 2, the utility model provides a batch core observation device, which comprises a support leg assembly 1, a roller table top assembly 2, a bracket assembly 3, a photographing assembly 4, a lighting assembly 5 and a testing assembly 6, wherein the support leg assembly 1 is connected to the bottom of the roller table top assembly 2, and the support leg assembly 1 is used for bearing the whole weight of the batch core observation device and keeping the whole device horizontal;

the bracket component 3 is connected to the top of the roller table surface component 2, and the bracket component 3 is used for fixing and supporting the photographing component 4, the lighting component 5 and the testing component 6;

the core accommodating box body with the core is arranged on the roller table top assembly 2 and can slide on the roller table top assembly 2, the roller table top assembly 2 is used for bearing the weight of objects such as the core, and the core accommodating box body can slide along the roller table top assembly 2;

the photographing assembly 4 is movably connected to the support assembly 3, the photographing assembly 4 can adjust the position relative to the support assembly 3, and the photographing assembly 4 can photograph the rock core;

an illumination assembly 5 is connected to the bracket assembly 3 and positioned in front of the photographing assembly 4, the illumination assembly 5 being capable of providing sufficient illumination for the table top of the entire roller table top assembly 2;

the testing assembly 6 is movably connected to the bracket assembly 3 and is positioned in front of the lighting assembly 5, the testing assembly 6 can adjust the position relative to the bracket assembly 3, and the testing assembly 6 can measure the rock core;

the batch rock core observation device is used as an auxiliary device, can be used for observing, cataloging, photographing and measuring mass rock cores, specimens, soil samples and other substances in an indoor environment, has more abundant basic functions, is more continuous in a plurality of operation processes, and samples do not need to be transported to different operation platforms for operation respectively, so that manpower is saved, and the working efficiency is greatly improved.

As an alternative embodiment, the supporting leg assembly 1 comprises a supporting leg body 11 and a height adjusting mechanism 12, wherein the top of the supporting leg body 11 is connected with the roller table assembly 2, and the supporting leg body 11 is preferably made of steel material and is used for bearing the whole weight of the batch core observation device, and meanwhile, the whole device is kept horizontal;

the height adjusting mechanism 12 is connected to the bottom of the supporting leg body 11, and the height adjusting mechanism 12 preferably has a height adjusting function and a height locking function, and preferably can be at a height within a range of 20mm to adapt to the ground with different flatness and height variation, while ensuring that each of the roller table top assembly 2, the bracket assembly 3, the photographing assembly 4, the lighting assembly 5 and the testing assembly 6 is at the same height in the horizontal direction.

As an alternative embodiment, the roller table top assembly 2 comprises a beam 21 and a roller 22, the beam 21 is preferably made of steel to ensure good structural strength, the number of the beams 21 is two, the two beams 21 are arranged in parallel, the support leg assembly 1 is connected with the two beams 21, and the bracket assembly 3 is connected with the beam 21 positioned at the rearmost part;

the quantity of roller 22 is a plurality of, and the diameter of roller 22 is preferably 50mm, and a plurality of roller 22 are parallel and equidistant interval sets up, and the interval is preferably 200mm, and the both ends of every roller 22 all respectively with a crossbeam 21 swing joint for roller 22 and crossbeam 21 combination form planar frame structure, because the structural feature of roller 22, roller 22 can rotate relatively along the axis, and the rock core holds the box body and places on roller 22 and can slide on roller 22, thereby realizes the removal of rock core.

As an alternative embodiment, the roller table assembly 2 further includes a V-shaped receiving groove 23, the V-shaped receiving groove 23 being connected to the forward-most beam 21, the V-shaped receiving groove 23 being capable of being used to place a sample such as a small core for further observation and testing.

As an alternative embodiment, the photographing assembly 4 includes a first sliding rail 41, a first sliding block 42, a fixed upright 43 and a camera 44, wherein the first sliding rail 41 is connected to the bracket assembly 3, preferably connected to the bottom of the top frame of the bracket assembly 3, and the length direction of the first sliding rail 41 is parallel to the length direction of the bracket assembly 3;

the top of fixed pole setting 43 is connected with first slider 42, and the bottom of fixed pole setting 43 is connected with camera 44, and first slider 42 and first slide rail 41 sliding connection, under the assistance of first slider 42, operating personnel can be with hand propelled camera 44 to drive camera 44 relative movement, realize the removal of camera 44 along roller mesa subassembly 2 length direction, with the relative position that corresponds the rock core that awaits measuring, be convenient for take a picture the operation.

As an alternative embodiment, the lighting assembly 5 includes an LED light strip 51, where the LED light strip 51 is connected to the bracket assembly 3, preferably at the bottom of the top frame of the bracket assembly 3, the length direction of the LED light strip 51 is parallel to the length direction of the bracket assembly 3, the distance between the LED light strip 51 and the ground may be preferably 2500mm, and the end of the LED light strip 51 is electrically connected to an external power supply, where the LED light strip 51 can provide sufficient illumination for the table surface of the entire roller table surface assembly 2, so that the illumination intensity of the upper surface of the table surface reaches 750lux.

As an alternative embodiment, the lighting assembly 5 further includes an illumination intensity sensor 52, where the illumination intensity sensor 52 is disposed at the top of the roller table top assembly 2, and may specifically be embedded at the top of the beam 21, where the illumination intensity sensor 52 is communicatively connected to the LED strip 51, and where the illumination intensity sensor 52 is capable of sensing illumination brightness and transmitting a signal to the LED strip 51 to enable the LED strip 51 to automatically adjust the illumination brightness, and where the structure and application principle of the illumination intensity sensor 52 are of a more conventional prior art, and where the method of use of the interaction between the illumination intensity sensor 52 and the LED strip 51 is also of a more conventional prior art, so that no further development description will be made.

As an alternative embodiment, the test assembly 6 includes a second slide rail 61, a second slide block 62, a damping mechanical arm 63, a clamping mechanism 64 and a test instrument 65, where the second slide rail 61 is connected to the bracket assembly 3, preferably connected to the bottom of the top frame of the bracket assembly 3, and the length direction of the second slide rail 61 is parallel to the length direction of the bracket assembly 3;

the top of the damping mechanical arm 63 is connected with the second sliding block 62, the damping mechanical arm 63 can hover at a proper position above the roller table top assembly 2 so as to correspond to the rock core to be measured, and the structure and the application principle of the damping mechanical arm 63 are conventional prior art, so that further development description is omitted;

the bottom of the damping mechanical arm 63 is connected with the clamping mechanism 64, the clamping mechanism 64 can be internally provided with a placing groove capable of accommodating the test instrument 65, the test instrument 65 is placed in the placing groove and can be screwed and fixed preferably through bolts, detachable connection between the test instrument 65 and the clamping mechanism 64 is realized, the test instrument 65 can carry out data measurement on a rock core placed on the roller table top assembly 2, the test instrument 65 is widely used in the rock core observation field, the instrument variety can be selected according to the actual use requirement, and the test instrument is of a more conventional prior art, so that further development description is not carried out;

the second slider 62 is slidably connected with the second slide rail 61, and under the assistance of the second slider 62, an operator can push the damping mechanical arm 63 by hand to drive the clamping mechanism 64 and the testing instrument 65 to move relatively, so that the damping mechanical arm 63, the clamping mechanism 64 and the testing instrument 65 move along the length direction of the roller table top assembly 2, and the corresponding positions of the core to be measured are corresponding, and the core to be measured is convenient to measure.

As an alternative embodiment, the system further comprises a control computer, the control computer is in communication connection with the photographing assembly 4 and the testing assembly 6, the control computer can be connected with the camera 44 in the photographing assembly 4 in a wired or wireless manner, the control computer can control the camera 44 to perform operations such as parameter adjustment and data management, the control computer can be connected with the testing instrument 65 in the testing assembly 6 in a wired or wireless manner, the control computer can control the testing instrument 65 to perform operations such as parameter adjustment, data measurement and data management, and the control computer is of a more conventional prior art in its own structure and corresponding control principle, and therefore, no further development description is made.

The utility model provides a technology foundation resource investigation special project, and the project number is 2022FY101800.

The foregoing is merely illustrative embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present utility model, and the utility model should be covered. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a rock core observation device in batches, its characterized in that includes landing leg subassembly (1), roller mesa subassembly (2), support subassembly (3), subassembly (4) of shooing, lighting assembly (5) and test assembly (6), wherein: the supporting leg assembly (1) is connected to the bottom of the roller table top assembly (2), the support assembly (3) is connected to the top of the roller table top assembly (2), the core containing box body with the core placed thereon is placed on the roller table top assembly (2) and can slide on the roller table top assembly (2), the photographing assembly (4) is movably connected to the support assembly (3), the lighting assembly (5) is connected to the support assembly (3) and located in front of the photographing assembly (4), and the testing assembly (6) is movably connected to the support assembly (3) and located in front of the lighting assembly (5).

2. The batch core viewing device of claim 1, wherein: the support leg assembly (1) comprises a support leg body (11) and a height adjusting mechanism (12), wherein the top of the support leg body (11) is connected with the roller table top assembly (2), and the height adjusting mechanism (12) is connected to the bottom of the support leg body (11).

3. The batch core viewing device of claim 1, wherein: roller mesa subassembly (2) include crossbeam (21) and roller (22), two crossbeam (21) parallel arrangement, landing leg subassembly (1) are two crossbeam (21) are connected, support subassembly (3) are connected with be located rearmost crossbeam (21), a plurality of roller (22) are parallel and equidistant interval sets up, the both ends of roller (22) respectively with one crossbeam (21) swing joint, the core holds the box body and places on roller (22) and can slide on roller (22).

4. The batch core viewing device of claim 3, wherein: the roller table top assembly (2) further comprises a V-shaped accommodating groove (23), and the V-shaped accommodating groove (23) is connected with the beam (21) positioned at the forefront.

5. The batch core viewing device of claim 1, wherein: the photographing assembly (4) comprises a first sliding rail (41), a first sliding block (42), a fixed vertical rod (43) and a camera (44), wherein the first sliding rail (41) is connected to the support assembly (3), the top of the fixed vertical rod (43) is connected with the first sliding block (42), the bottom of the fixed vertical rod (43) is connected with the camera (44), and the first sliding block (42) is in sliding connection with the first sliding rail (41).

6. The batch core viewing device of claim 1, wherein: the lighting assembly (5) comprises an LED lamp strip (51), the LED lamp strip (51) is connected to the bracket assembly (3), and the tail end of the LED lamp strip (51) is electrically connected with an external power supply.

7. The batch core viewing device of claim 6, wherein: the illumination assembly (5) further comprises an illumination intensity sensor (52), the illumination intensity sensor (52) is arranged at the top of the roller table top assembly (2), and the illumination intensity sensor (52) is in communication connection with the LED lamp strip (51).

8. The batch core viewing device of claim 1, wherein: the test assembly (6) comprises a second sliding rail (61), a second sliding block (62), a damping mechanical arm (63), a clamping mechanism (64) and a test instrument (65), wherein the second sliding rail (61) is connected to the support assembly (3), the top of the damping mechanical arm (63) is connected with the second sliding block (62), the bottom of the damping mechanical arm (63) is connected with the clamping mechanism (64), the test instrument (65) is detachably connected with the clamping mechanism (64), and the second sliding block (62) is in sliding connection with the second sliding rail (61).

9. The batch core viewing device of claim 1, wherein: the camera module further comprises a control computer, wherein the control computer is in communication connection with the camera module (4) and the test module (6).