CN212255739U - Ion adsorption type rare earth ore prospecting device based on remote sensing technology - Google Patents
Ion adsorption type rare earth ore prospecting device based on remote sensing technology Download PDFInfo
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- CN212255739U CN212255739U CN202021328765.5U CN202021328765U CN212255739U CN 212255739 U CN212255739 U CN 212255739U CN 202021328765 U CN202021328765 U CN 202021328765U CN 212255739 U CN212255739 U CN 212255739U
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Abstract
The utility model discloses an ion adsorption type rare earth ore exploration device based on remote sensing technology, which comprises a main support, wherein four ends of the lower side of the main support are respectively provided with a support frame; the inner side of the main support is additionally provided with a square frame support A and a square frame support B, the outer side end of the square frame support A is fixedly connected with the inner side of the upper end of the main support through a screw bolt, and the outer side end of the square frame support B is fixedly connected with the inner side of the lower end of the main support through a screw bolt. The ion adsorption type rare earth ore exploration device based on the remote sensing technology adopts illumination of the illuminating lamp to provide good light for the shooting of the image collector A and the image collector B; the striker plate has good protection effect on the image collector A and the image collector B; wholly be convenient for erect and carry out the drilling to the tombarthite ore deposit to shoot downthehole picture, transmit the treater and handle and obtain tombarthite ore information, realize surveying the tombarthite ore deposit.
Description
Technical Field
The utility model relates to a tombarthite ore deposit investigation equipment technical field specifically is ion adsorption type tombarthite ore deposit investigation device based on remote sensing technology.
Background
The ion adsorption type rare earth ore is also called weathering crust eluviation type rare earth ore, is a rare earth ore deposit, and needs to be surveyed in order to solve the information of the characteristics, distribution, position and the like of the rare earth ore, but the current equipment has high cost due to the fact that a large amount of manpower and material resources are consumed during surveying, and no method is provided for analyzing the surveyed rare earth ore information, so that the surveying efficiency is low.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an ion adsorption type rare earth ore investigation device based on remote sensing technology is convenient for erect and is drilled rare earth ore deposit to shoot downthehole picture, transmit the treater and handle and obtain rare earth ore information, realize the investigation of rare earth ore, it is convenient to have solved the investigation among the prior art, is convenient for gather the rare earth ore information of investigation, but real-time transmission carries out the problem of analysis to the backstage.
In order to achieve the above object, the utility model provides a following technical scheme: the ion adsorption type rare earth ore exploration device based on the remote sensing technology comprises a main support, wherein support frames are additionally arranged at four ends of the lower side of the main support; the inner side of the main support is additionally provided with a square frame support A and a square frame support B, the outer side end of the square frame support A is fixedly connected with the inner side of the upper end of the main support through a screw bolt, and the outer side end of the square frame support B is fixedly connected with the inner side of the lower end of the main support through a screw bolt; a rear panel is additionally arranged on the upper side of the main support, a servo motor fixing frame is additionally arranged on the rear panel, a servo motor is arranged on the upper side of the main support, the top end of the servo motor is attached to the bottom end of the inner cavity of the main support and is fixed on the servo motor fixing frame, and a rotating shaft is additionally arranged at the output end of the servo motor fixing frame; the left side frames of the square frame bracket A and the square frame bracket B are provided with left lifting seats, the right sides of the square frame bracket A and the square frame bracket B are provided with right lifting seats, and the left lifting seats and the right lifting seats are arranged in parallel in the vertical direction; a motor supporting seat is additionally arranged on the lower side of the servo motor, and two sides of the motor supporting seat are respectively buckled in positioning grooves of the left lifting seat and the right lifting seat; the upper end of the motor supporting seat is additionally provided with a rotary drum, and the rotary shaft is connected in an internal thread groove of the rotary drum in a rotary mode; the motor supporting seat is additionally provided with a drilling motor, and the output end of the drilling motor is additionally provided with a drill bit.
Preferably, the lower end of the square frame bracket B on the left side of the drill bit is additionally provided with an image collector A, and the lower end of the square frame bracket B on the right side of the drill bit is additionally provided with an image collector B; the top of main support installs the treater additional, and image collector A and image collector B all are connected with treater electric property.
Preferably, the square frame bracket A and the square frame bracket B are both square-shaped and are stainless steel components.
Preferably, the lower side of the square frame support B is provided with four illuminating lamps, and the four illuminating lamps are arranged on the square frame support B at equal angles by taking the central line of the drill bit as a bearing.
Preferably, a striker plate is installed on the main support on the lower side of the square frame support B, and the center of the striker plate is attached to the outer side wall of the drill bit.
Compared with the prior art, the beneficial effects of the utility model are as follows:
according to the ion adsorption type rare earth ore exploration device based on the remote sensing technology, a servo motor is adopted to control the drill bit to lift, a drilling motor is adopted to control the drill bit to rotate, the rare earth ore layer is drilled, information in the deep position of the rare earth ore layer is obtained, and the rare earth ore is explored; the image collector A and the image collector B are adopted to shoot the interior of the drill hole, the illuminating lamp is matched to illuminate the interior of the drill hole, a clear picture of the interior of the drill hole is obtained, the picture is fed back to the processor, and the obtained information is transmitted to the background by the processor, so that the rare earth ore can be surveyed; the four illuminating lamps are adopted to comprehensively illuminate the interior of the drilled hole, the illuminating effect is good, and good light rays are provided for shooting by the image collector A and the image collector B; the baffle plate has good protection effect on the image collector A and the image collector B, and can prevent dirt from being attached to the image collector A and the image collector B; wholly be convenient for erect and carry out the drilling to the tombarthite ore deposit to shoot downthehole picture, transmit the treater and handle and obtain tombarthite ore information, realize surveying the tombarthite ore deposit.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a diagram of the drill bit downward extension investigation state of the present invention;
FIG. 3 is a connection diagram of the square frame support A, the square frame support B, the left lifting seat and the right lifting seat of the present invention;
fig. 4 is the striker plate opening state diagram of the utility model.
In the figure: 1. a main support; 2. a support frame; 3. a square frame bracket A; 4. a square frame bracket B; 5. a rear panel; 6. a servo motor fixing frame; 7. a servo motor; 8. a rotating shaft; 9. a left lifting seat; 10. a right lifting seat; 11. a motor supporting seat; 12. a rotating drum; 13. a drilling motor; 14. a drill bit; 15. an image collector A; 16. an image collector B; 17. a processor; 18. an illuminating lamp; 19. a striker plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, the ion adsorption type rare earth exploration device based on remote sensing technology comprises a main support 1, wherein four ends of the lower side of the main support 1 are respectively provided with a support frame 2; a square frame support A3 and a square frame support B4 are additionally arranged on the inner side of the main support 1, the outer side end of the square frame support A3 is fixedly connected with the inner side of the upper end of the main support 1 by screw bolts, and the outer side end of the square frame support B4 is fixedly connected with the inner side of the lower end of the main support 1 by screw bolts; a rear panel 5 is additionally arranged on the upper side of the main support 1, a servo motor fixing frame 6 is additionally arranged on the rear panel 5, a servo motor 7 is arranged on the upper side of the main support 1, the top end of the servo motor 7 is attached to the bottom end of an inner cavity of the main support 1 and is fixed on the servo motor fixing frame 6, and a rotating shaft 8 is additionally arranged at the output end of the servo motor fixing frame 6; a left lifting seat 9 is erected on the left sides of the square frame support A3 and the square frame support B4, a right lifting seat 10 is arranged on the right sides of the square frame support A3 and the square frame support B4, and the left lifting seat 9 and the right lifting seat 10 are arranged in parallel in the vertical direction; a motor supporting seat 11 is additionally arranged at the lower side of the servo motor 7, and two sides of the motor supporting seat 11 are respectively buckled in positioning grooves of the left lifting seat 9 and the right lifting seat 10; a rotary drum 12 is additionally arranged at the upper end of the motor supporting seat 11, and the rotating shaft 8 is screwed in an internal thread groove of the rotary drum 12; a drilling motor 13 is additionally arranged on the motor supporting seat 11, and a drill bit 14 is additionally arranged at the output end of the drilling motor 13.
Wherein: the lower end of the box support B4 on the left side of the drill bit 14 is additionally provided with an image collector A15, and the lower end of the box support B4 on the right side of the drill bit 14 is additionally provided with an image collector B16; the top end of the main support 1 is additionally provided with a processor 17, and the image collector A15 and the image collector B16 are both electrically connected with the processor 17; the image collector A15 and the image collector B16 are arranged on two sides of the drill bit 14, the scene of the rare earth ore region after drilling and reaching the rare earth ore layer is shot by the drill bit 14 to obtain the information of the rare earth ore layer, the rare earth ore is surveyed, the information obtained by surveying is transmitted to the processor 17, and the information is transmitted to the background by the processor 17.
Wherein: the square support A3 and the square support B4 are square-shaped and are stainless steel components, the square support A3 and the square support B4 play a supporting role, and holes are formed in the square support A3 and the square support B4, so that the installation and the work of the servo motor 7 and the drilling motor 13 are not influenced.
Wherein: the lower side of the square support B4 is provided with four illuminating lamps 18, and the four illuminating lamps 18 are arranged on the square support B4 at equal angles by taking the central line of the drill bit 14 as a bearing; the illumination lamp 18 illuminates the inside of the drill hole to shoot a clearer picture and obtain the information of the rare earth ore bed more accurately.
Wherein: the main support 1 on the lower side of the square support B4 is provided with a baffle plate 19, the center of the baffle plate 19 is attached to the outer side wall of the drill bit 14, the baffle plate 19 is attached to the side wall of the drill bit 14 when drilling is performed, so that dirt splashed during drilling is prevented from being blown onto the image collector A15 and the image collector B16 to influence the image collector A15 and the image collector B16 to collect images, after drilling is completed, the baffle plate 19 is removed, and the baffle plate 19 plays a good role in protecting the image collector A15 and the image collector B16.
The ion adsorption type rare earth ore exploration device based on the remote sensing technology is characterized in that when the ion adsorption type rare earth ore exploration device works, a drilling motor 13 works to drive a drill bit 14 to rotate to drill a rare earth ore layer, a servo motor 7 works to drive a rotating shaft 8 to rotate, the rotating shaft 8 is driven to move up and down through the thread matching effect of the rotating shaft 8 and a rotating drum 12 and the limiting effect of a left lifting seat 9 and a right lifting seat 10 on a motor supporting seat 11, so that the motor supporting seat 11 is driven to move up and down, when the motor supporting seat 11 moves up and down, the drilling motor 13 also moves up and down to provide downward pressure for the drill bit 14 to drill the rare earth ore layer, when the drilling work is completed, the servo motor 7 overturns to drive the motor supporting seat 11 to move up, the drilling motor 13 stops working after moving up, at the moment, a lighting lamp 18 is turned on to illuminate the, the rare earth ore in the inner layer of the drilled hole is shot, the shot picture is transmitted to the processor 17, and the processor 17 transmits the information to the background for analysis.
In summary, the following steps: according to the ion adsorption type rare earth ore exploration device based on the remote sensing technology, the servo motor 7 is adopted to control the drill bit 14 to ascend and descend, the drilling motor 13 is adopted to control the drill bit 14 to rotate, the rare earth ore layer is drilled, information in the deep position of the rare earth ore layer is obtained, and the rare earth ore is explored; the image collector A15 and the image collector B16 are adopted to shoot the interior of the drill hole, the illuminating lamp 18 is matched to illuminate the interior of the drill hole, a clear picture of the interior of the drill hole is obtained, the picture is fed back to the processor 17, and the obtained information is transmitted to the background by the processor 17, so that the rare earth ore exploration can be realized; the four illuminating lamps 18 are adopted to illuminate the interior of the drilled hole comprehensively, the illuminating effect is good, and good light rays are provided for shooting by the image collector A15 and the image collector B16; the baffle plate 19 plays a good role in protecting the image collector A15 and the image collector B16, and can prevent dirt from getting onto the image collector A15 and the image collector B16; wholly be convenient for erect and carry out the drilling to the tombarthite ore deposit to shoot downthehole picture, transmit treater 17 and handle and obtain tombarthite ore information, realize surveying the tombarthite ore deposit.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. Ion adsorption type rare earth ore investigation device based on remote sensing technique, including main support (1), its characterized in that: four ends of the lower side of the main bracket (1) are respectively provided with a support frame (2); a square frame support A (3) and a square frame support B (4) are additionally arranged on the inner side of the main support (1), the outer side end of the square frame support A (3) is fixedly connected with the inner side of the upper end of the main support (1) through a screw bolt, and the outer side end of the square frame support B (4) is fixedly connected with the inner side of the lower end of the main support (1) through a screw bolt; a rear panel (5) is additionally arranged on the upper side of the main support (1), a servo motor fixing frame (6) is additionally arranged on the rear panel (5), a servo motor (7) is arranged on the upper side of the main support (1), the top end of the servo motor (7) is attached to the bottom end of the inner cavity of the main support (1) and fixed on the servo motor fixing frame (6), and a rotating shaft (8) is additionally arranged at the output end of the servo motor fixing frame (6); a left lifting seat (9) is arranged on the left side frame of the square frame support A (3) and the left side frame of the square frame support B (4), a right lifting seat (10) is arranged on the right side of the square frame support A (3) and the right side frame of the square frame support B (4), and the left lifting seat (9) and the right lifting seat (10) are arranged in parallel in the vertical direction; a motor supporting seat (11) is additionally arranged on the lower side of the servo motor (7), and two sides of the motor supporting seat (11) are respectively buckled in positioning grooves of the left lifting seat (9) and the right lifting seat (10); a rotary drum (12) is additionally arranged at the upper end of the motor supporting seat (11), and the rotary shaft (8) is screwed in an internal thread groove of the rotary drum (12); a drilling motor (13) is additionally arranged on the motor supporting seat (11), and a drill bit (14) is additionally arranged at the output end of the drilling motor (13).
2. The ion adsorption type rare earth ore exploration device based on remote sensing technology of claim 1, characterized in that: the lower end of the square frame support B (4) on the left side of the drill bit (14) is additionally provided with an image collector A (15), and the lower end of the square frame support B (4) on the right side of the drill bit (14) is additionally provided with an image collector B (16); the top of main support (1) is equipped with treater (17) additional, and image collector A (15) and image collector B (16) all are connected with treater (17) electric property.
3. The ion adsorption type rare earth ore exploration device based on remote sensing technology of claim 1, characterized in that: the square frame bracket A (3) and the square frame bracket B (4) are both in a square shape and are stainless steel components.
4. The ion adsorption type rare earth ore exploration device based on remote sensing technology of claim 1, characterized in that: the lower side of the square frame support B (4) is provided with four illuminating lamps (18), and the four illuminating lamps (18) are installed on the square frame support B (4) at equal angles by taking the central line of the drill bit (14) as a bearing.
5. The ion adsorption type rare earth ore exploration device based on remote sensing technology of claim 1, characterized in that: and a material baffle plate (19) is arranged on the main support (1) on the lower side of the square frame support B (4), and the center of the material baffle plate (19) is attached to the outer side wall of the drill bit (14).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114002410A (en) * | 2021-11-04 | 2022-02-01 | 中国有色桂林矿产地质研究院有限公司 | Method for rapidly delineating heavy rare earth ore exploration target area in weathered shell type based on geological body rare earth distribution |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114002410A (en) * | 2021-11-04 | 2022-02-01 | 中国有色桂林矿产地质研究院有限公司 | Method for rapidly delineating heavy rare earth ore exploration target area in weathered shell type based on geological body rare earth distribution |
CN114002410B (en) * | 2021-11-04 | 2024-01-09 | 中国有色桂林矿产地质研究院有限公司 | Method for rapidly delineating target area of heavy rare earth mine in weathered crust based on geologic body rare earth distribution |
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Address after: 071000 139 Yangguang North Street, Baoding City, Hebei Province Patentee after: China Exploration Geophysics Co.,Ltd. Address before: 071000 139 Yangguang North Street, Baoding City, Hebei Province Patentee before: Zhengyuan geophysical limited liability company |