CN218956154U - Distributed investigation device for geological mineral resources - Google Patents

Distributed investigation device for geological mineral resources Download PDF

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Publication number
CN218956154U
CN218956154U CN202320025806.0U CN202320025806U CN218956154U CN 218956154 U CN218956154 U CN 218956154U CN 202320025806 U CN202320025806 U CN 202320025806U CN 218956154 U CN218956154 U CN 218956154U
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rod
sampling
wall
fixedly connected
limiting
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刘春璟
李良
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6th Geological Brigade Of Hebei Geological And Mineral Exploration And Development Bureau Aerial Survey Application Center Of Hebei Geological And Mineral Exploration And Development Bureau
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6th Geological Brigade Of Hebei Geological And Mineral Exploration And Development Bureau Aerial Survey Application Center Of Hebei Geological And Mineral Exploration And Development Bureau
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A90/00Technologies having an indirect contribution to adaptation to climate change
    • Y02A90/30Assessment of water resources

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  • Investigation Of Foundation Soil And Reinforcement Of Foundation Soil By Compacting Or Drainage (AREA)

Abstract

The application provides a geological mineral resources is with distributed investigation device, including chassis and fixed connection in the mount of chassis roof, chassis roof still fixed connection in the slide bar about mount symmetric distribution, still include: the sampling component comprises a mounting frame, a screw, a sampling rod and a drill bit, wherein the mounting frame is connected to the outer wall of the sliding rod in a sliding mode, the screw is connected to the bottom wall of the mounting frame in a rotating mode, the sampling rod is fixedly connected to the bottom of the screw, the drill bit is fixedly connected to the bottom of the sampling rod, and sampling bins are uniformly distributed in the outer wall of the sampling rod; the isolation part is rotationally connected to the outer wall of the sampling rod, is matched with the sampling bin and is connected with the fixing frame in a sliding manner. This application need not through artifical application of force, increases the convenience of sample, and then increases the efficiency of sample, avoids soil sample to be infected with, increases the degree of accuracy of sample.

Description

Distributed investigation device for geological mineral resources
Technical Field
The utility model relates to the field of geological exploration, in particular to a distributed exploration device for geological mineral resources.
Background
Geological exploration is to survey and detect geology by various means and methods, determine a proper bearing layer, determine a foundation type according to the foundation bearing capacity of the bearing layer, and calculate investigation and research activities of foundation parameters. The method is used for finding out mineral deposits with industrial significance in mineral screening, providing mineral reserves and geological data required by mine construction design and researching geological conditions such as rock, stratum, structure, mineral, hydrology, landform and the like in a certain area in order to find out the quality and quantity of mineral and the technical conditions of exploitation and utilization. During the investigation, investigation equipment is required for sampling.
The sampling device for geological mineral exploration is provided for Chinese patent (publication number: CN 211085742U) and comprises a shell, a rotating rod, a drill bit, a roller, a fixed plate, a telescopic rod and a handle; the casing is the hollow structure of cylinder, is provided with the array lug on the inside left and right sides wall of casing, and the lug is a whole with the casing, and casing internally mounted has the bull stick, and the top of bull stick extends to the casing top outside, and the bull stick bottom is provided with spacing hole.
However, the device still has certain disadvantages: 1. during investigation, the drill bit and the shell are pressed by manual force to penetrate into soil, the penetration process is difficult, the investigation process is laborious, and therefore the investigation efficiency is low; 2. can not protect the soil of sample, and then lead to the soil of different degree of depth to get into inside the casing, influence the investigation accuracy.
Thus, there is a need for a distributed survey device for geological mineral resources that addresses the above-described problems.
Disclosure of Invention
The utility model aims at: when the investigation to present existence, press down drill bit and casing through artifical application of force and go deep into soil, and go deep into the process and be more difficult, the investigation process is comparatively laborious, and then leads to the investigation inefficiency, can not protect the soil of sample, and then leads to the soil of different degree of depth to get into inside the casing, influences the problem of investigation accuracy.
In order to achieve the above object, the present utility model provides the following technical solutions:
a distributed investigation apparatus for geological mineral resources is provided to ameliorate the above problems.
The application is specifically such that:
the utility model provides a geological mineral resources is with distributed investigation device, includes chassis and fixed connection in the mount of chassis roof, chassis roof still fixed connection is in the slide bar about mount symmetric distribution, still includes:
the sampling component comprises a mounting frame, a screw, a sampling rod and a drill bit, wherein the mounting frame is connected to the outer wall of the sliding rod in a sliding mode, the screw is connected to the bottom wall of the mounting frame in a rotating mode, the sampling rod is fixedly connected to the bottom of the screw, the drill bit is fixedly connected to the bottom of the sampling rod, and sampling bins are uniformly distributed in the outer wall of the sampling rod;
the isolation part is rotationally connected to the outer wall of the sampling rod, the isolation part is matched with the sampling bin, and the isolation part is connected with the fixing frame in a sliding manner.
As the preferred technical scheme of this application, mounting bracket roof still fixedly connected with motor, the motor output passes the mounting bracket and links to each other with the screw rod is fixed, sampling rod outer wall still fixedly connected with isolation component matched with limiting plate.
As the preferred technical scheme of this application, mount inner wall still fixedly connected with sleeve, sleeve links to each other with the screw rod screw thread.
As the preferred technical scheme of this application, isolation component includes sliding sleeve, fixed connection in the gag lever post of sliding sleeve roof and sliding connection in the spacing of gag lever post outer wall in the sampling rod outer wall, the sliding sleeve cooperatees with the sampling storehouse, evenly distributed's spacing hole has been seted up to the gag lever post outer wall, spacing lateral wall still threaded connection has stop bolt, stop bolt cooperatees with the spacing hole, the gag lever post links to each other with the mount slip.
As the preferred technical scheme of this application, the elastic component has still been cup jointed to the sampling rod outer wall, the elastic component is located between sliding sleeve and the limiting plate, chassis diapire still fixedly connected with evenly distributed's locating cone, slide bar roof still fixedly connected with handle.
Compared with the prior art, the utility model has the beneficial effects that:
in the scheme of the application:
1. through the sampling part that sets up, the screw rod drives the sampling rod and rotates when rotating, and then breaks soil through the drill bit, simultaneously under the interact of sleeve and screw rod, drive the sampling rod and go deep into soil, need not through artifical application of force, increase the convenience of taking a sample, and then increase the efficiency of taking a sample, when having solved among the prior art investigation, press drill bit and casing through artifical application of force and go deep into soil, and go deep into the process more difficult, the investigation process is comparatively laborious, and then leads to the problem of investigation inefficiency;
2. through the isolation component that sets up, under the effect of gag lever post and spacing, can adjust the degree of depth of investigation, reach and set for the degree of depth after, the sliding sleeve takes place relative slip with the sampling rod, the sampling bin exposes and samples soil, upward movement when the sampling rod, the sliding sleeve shields the sampling bin once more, avoid soil sample to be infected with, increase the accuracy of sample, can not protect the soil of sample among the prior art, and then lead to the soil of different degree of depth to get into inside the casing, influence the problem of investigation accuracy.
Drawings
FIG. 1 is a schematic diagram of an overall structure of a distributed survey device for geological mineral resources provided by the application;
FIG. 2 is a second schematic diagram of the overall structure of the distributed survey device for geological mineral resources provided by the present application;
FIG. 3 is a third schematic view of the overall structure of the distributed survey device for geological mineral resources provided by the present application;
FIG. 4 is a schematic diagram of a sampling component of the distributed investigation apparatus for geological mineral resources provided by the present application;
fig. 5 is an enlarged view of the structure a in fig. 2 of the distributed investigation apparatus for geological mineral resources provided by the present application.
The figures indicate:
1. a chassis; 11. a slide bar; 12. positioning cone; 13. a handle; 2. a fixing frame; 21. a sleeve; 3. a mounting frame; 31. a screw; 32. a sampling rod; 33. a drill bit; 34. sampling bin; 35. a motor; 36. a limiting plate; 37. an elastic member; 4. a sliding sleeve; 41. a limit rod; 42. a limiting frame; 43. a limiting hole; 44. and a limit bolt.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model.
Thus, the following detailed description of the embodiments of the utility model is not intended to limit the scope of the utility model, as claimed, but is merely representative of some 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.
It should be noted that, under the condition of no conflict, the embodiments of the present utility model and the features and technical solutions in the embodiments may be combined with each other.
It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.
In the description of the present utility model, it should be noted that, the terms "upper", "lower", and the like indicate an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, or an azimuth or a positional relationship conventionally put in use of the inventive product, or an azimuth or a positional relationship conventionally understood by those skilled in the art, such terms are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.
As shown in fig. 1-5, this embodiment provides a distributed investigation device for geological mineral resources, including chassis 1 and fixed frame 2 fixedly connected to chassis 1 roof, chassis 1 roof still fixedly connected to slide bar 11 about fixed frame 2 symmetric distribution, still includes:
the sampling component comprises a mounting frame 3, a screw rod 31, a sampling rod 32 and a drill bit 33, wherein the mounting frame 3 is connected to the outer wall of the sliding rod 11 in a sliding manner, the screw rod 31 is connected to the bottom wall of the mounting frame 3 in a rotating manner, the sampling rod 32 is fixedly connected to the bottom of the screw rod 31, the drill bit 33 is fixedly connected to the bottom of the sampling rod 32, and sampling bins 34 are uniformly distributed on the outer wall of the sampling rod 32;
the isolating part is rotatably connected to the outer wall of the sampling rod 32, is matched with the sampling bin 34 and is connected with the fixing frame 2 in a sliding manner.
Through the sampling part that sets up, screw rod 31 drives sampling rod 32 rotation when rotating, and then breaks soil through drill bit 33, simultaneously under the interact of sleeve 21 and screw rod 31, drives sampling rod 32 and go deep into soil, need not through artifical application of force, increases the flow nature of taking a sample, and then increases the efficiency of taking a sample
As shown in fig. 1-4, as a preferred embodiment, on the basis of the above manner, the top wall of the mounting frame 3 is further fixedly connected with a motor 35, the output end of the motor 35 passes through the mounting frame 3 and is fixedly connected with the screw 31, the outer wall of the sampling rod 32 is further fixedly connected with a limiting plate 36 matched with the isolation component, the power supply manner of the motor 35 and the principle thereof are the prior art, and the specific selection specification should be selected according to the actual application scenario.
As shown in fig. 1-2, as a preferred embodiment, based on the above manner, further, the inner wall of the fixing frame 2 is fixedly connected with a sleeve 21, the sleeve 21 is in threaded connection with the screw 31, and under the action of the sleeve 21, when the screw 31 rotates, the drill bit 33 is driven to crush soil and move downwards along with the rotation of the screw 31, so that the convenience of sampling is improved.
As shown in fig. 1-5, as a preferred embodiment, further, the isolation component includes a sliding sleeve 4 slidably connected to the outer wall of the sampling rod 32, a limiting rod 41 fixedly connected to the top wall of the sliding sleeve 4, and a limiting frame 42 slidably connected to the outer wall of the limiting rod 41, where the sliding sleeve 4 is matched with the sampling bin 34, the outer wall of the limiting rod 41 is provided with uniformly distributed limiting holes 43, the side wall of the limiting frame 42 is further in threaded connection with a limiting bolt 44, the limiting bolt 44 is matched with the limiting holes 43, the limiting rod 41 is slidably connected with the fixing frame 2, the depth of investigation can be adjusted under the action of the limiting rod 41 and the limiting frame 42, after reaching the set depth, the sliding sleeve 4 and the sampling rod 32 relatively slide, the sampling bin 34 is exposed and samples soil, when the sampling rod 32 moves upwards, the sliding sleeve 4 shields the sampling bin 34 again, so as to avoid contamination of the soil sample, and increase the accuracy of sampling.
As shown in fig. 1-5, as a preferred embodiment, on the basis of the above manner, further, the outer wall of the sampling rod 32 is further sleeved with an elastic member 37, the elastic member 37 is located between the sliding sleeve 4 and the limiting plate 36, the bottom wall of the chassis 1 is also fixedly connected with a positioning cone 12 which is uniformly distributed, the top wall of the sliding rod 11 is also fixedly connected with a handle 13, and when the sampling rod 32 moves upwards, under the action of the elastic member 37, the sliding sleeve 4 shields the sampling bin 34 again, so that the soil sample is prevented from being polluted, and the accuracy of sampling is increased.
Specifically, the distributed investigation device for geological mineral resources is used when in use: during the use, place this device in waiting the investigation position, through spacing bolt 44 and spacing hole 43 cooperatees, adjust the position of spacing 42 on gag lever post 41, and then reach the purpose that sets for the sample degree of depth, both hands hold handle 13, and start motor 35, and then drive screw rod 31 rotation, screw rod 31 drives sample rod 32 rotation when rotating, and then carry out the breakage to soil through drill bit 33, simultaneously under sleeve 21 and screw rod 31's interact, drive sample rod 32 and go deep into soil, need not through artifical application of force, the flow nature of increase sample, and then the efficiency of sample has been increased, when having solved the investigation in the prior art, press down drill bit 33 and casing through artifical application of force, and go deep into the process more difficult, the investigation process is comparatively laborious, and then lead to the problem of investigation inefficiency, sample rod 32 is after reaching the setting for the degree of depth, under the effect of spacing 42 and gag lever post 41, sliding sleeve 4 stops moving, sample rod 32 continues the downward movement, elastic component 37 is compressed, 4 takes place relative slip with sample rod 32, sample bin 34 exposes and carries out the sample to the soil, when sample rod 32 upward movement, need not be in the effect of elastic component 37, the sample bin 34 is polluted again, the soil is not be influenced by the sample depth is compared with the sample, the soil is not advanced in the soil, the soil has been prevented from being polluted, the soil is more than the inside by the sample is compared with the soil, the soil is not polluted.
The above embodiments are only for illustrating the present utility model and not for limiting the technical solutions described in the present utility model, and although the present utility model has been described in detail in the present specification with reference to the above embodiments, the present utility model is not limited to the above specific embodiments, and thus any modifications or equivalent substitutions are made to the present utility model; all technical solutions and modifications thereof that do not depart from the spirit and scope of the utility model are intended to be included in the scope of the appended claims.

Claims (5)

1. The utility model provides a geological mineral resources is with distributed investigation device, includes chassis (1) and fixed frame (2) of fixed connection in chassis (1) roof, its characterized in that, chassis (1) roof still fixedly connected with is with slide bar (11) of fixed frame (2) symmetric distribution still includes:
the sampling component comprises a mounting frame (3) which is connected to the outer wall of the sliding rod (11) in a sliding manner, a screw rod (31) which is connected to the bottom wall of the mounting frame (3) in a rotating manner, a sampling rod (32) which is fixedly connected to the bottom of the screw rod (31) and a drill bit (33) which is fixedly connected to the bottom of the sampling rod (32), wherein sampling bins (34) which are uniformly distributed are formed in the outer wall of the sampling rod (32);
the isolation part is rotationally connected to the outer wall of the sampling rod (32), the isolation part is matched with the sampling bin (34), and the isolation part is connected with the fixing frame (2) in a sliding mode.
2. The distributed investigation device for geological mineral resources according to claim 1, wherein the top wall of the mounting frame (3) is fixedly connected with a motor (35), the output end of the motor (35) penetrates through the mounting frame (3) to be fixedly connected with a screw (31), and the outer wall of the sampling rod (32) is fixedly connected with a limiting plate (36) matched with the isolation part.
3. A distributed investigation apparatus for geological mineral resources according to claim 1, characterized in that the inner wall of the holder (2) is also fixedly connected with a sleeve (21), said sleeve (21) being in threaded connection with a screw (31).
4. The distributed investigation device for geological mineral resources according to claim 1, wherein the isolation component comprises a sliding sleeve (4) which is connected to the outer wall of the sampling rod (32) in a sliding manner, a limiting rod (41) which is fixedly connected to the top wall of the sliding sleeve (4) and a limiting frame (42) which is connected to the outer wall of the limiting rod (41) in a sliding manner, the sliding sleeve (4) is matched with the sampling bin (34), limiting holes (43) which are uniformly distributed are formed in the outer wall of the limiting rod (41), limiting bolts (44) are further connected to the side walls of the limiting frame (42) in a threaded manner, the limiting bolts (44) are matched with the limiting holes (43), and the limiting rod (41) is connected with the fixing frame (2) in a sliding manner.
5. The distributed investigation device for geological mineral resources according to claim 1, wherein the outer wall of the sampling rod (32) is further sleeved with an elastic piece (37), the elastic piece (37) is located between the sliding sleeve (4) and the limiting plate (36), the bottom wall of the underframe (1) is further fixedly connected with uniformly distributed positioning cones (12), and the top wall of the sliding rod (11) is further fixedly connected with a handle (13).
CN202320025806.0U 2023-01-05 2023-01-05 Distributed investigation device for geological mineral resources Active CN218956154U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320025806.0U CN218956154U (en) 2023-01-05 2023-01-05 Distributed investigation device for geological mineral resources

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320025806.0U CN218956154U (en) 2023-01-05 2023-01-05 Distributed investigation device for geological mineral resources

Publications (1)

Publication Number Publication Date
CN218956154U true CN218956154U (en) 2023-05-02

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