CN217639068U - Intelligent mineralization prediction device based on geological big data - Google Patents

Abstract

The utility model discloses an intelligence becomes ore deposit prediction device based on geology big data relates to the prediction technical field that becomes ore deposit, including the connecting pipe, the fixed surface of connecting pipe is connected with two symmetrical solid fixed cylinders, two the equal fixedly connected with dead lever of interior diapire of solid fixed cylinder, two the equal sliding connection of surface of dead lever has the slide bar. It can be through the dead lever, the slide bar, connecting rod and gag lever post, the fixed section of thick bamboo of cooperation, can fix into the ore deposit prediction equipment in the underground, avoid having the staff mistake to bump, lead to into the ore deposit prediction equipment to be knocked down, or produce the phenomenon of skew, through the pulling slide bar, slide bar cooperation connecting rod drives the gag lever post and slides in the spout the inside, thereby the gag lever post injects soil the inside will become the ore deposit prediction equipment and fixes in the soil the inside, through first spring, connecting block and bracing piece, the cooperation gag lever post, can carry on spacingly to the slide bar, avoid the phenomenon that the slide bar appears rocking when becoming the motion of ore deposit prediction equipment.

Description

Intelligent mineralization prediction device based on geological big data

Technical Field

The utility model relates to a prediction technical field that becomes ore deposit specifically is an intelligence prediction device that becomes ore deposit based on geology big data.

Background

The main process of the comprehensive research work for the purpose of improving the success and predictability of ore finding is to comprehensively analyze the geological characteristics in a district and find the relationship between the types, scales and common time and space of various mineral products and geological structures according to the actual data of various geological mineral products, physical exploration and the like in a working area, clarify the ore forming rule, further predict favorable sections and control conditions of the mineral products possibly found in the district, point out the direction, sequence, content and the like which need to be further worked, and provide a basis for the ongoing or next-stage general ore finding work.

When the mineralization prediction is carried out, soil in a region to be predicted is detected, the soil is generally detected by using mineralization prediction equipment, when the soil is detected, only the ground cannot be detected, the soil at the bottom of the ground is also analyzed, and the soil is often analyzed within a certain time when being detected, and generally needs to be fixed, see patent document CN207851320U, wherein the mineralization prediction equipment is not fixed in the patent document, and if a worker touches the device carelessly, the mineralization prediction device is knocked down or deviated, so that the measurement result is not accurate enough; therefore, the intelligent mineralization prediction device based on the geological big data is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligence mineralization prediction device based on geology big data in order to compensate prior art not enough.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an intelligence mineralization prediction unit based on geology big data, includes the connecting pipe, the outer fixed surface of connecting pipe is connected with two symmetrical solid fixed cylinders, two the equal fixedly connected with dead lever of interior diapire of solid fixed cylinder, two the equal sliding connection of surface of dead lever has the slide bar, two the surface of slide bar all articulates through the round pin axle has four connecting rods, every the bottom of connecting rod all articulates through the round pin axle has a gag lever post, two four spouts, eight all have been seted up to solid fixed cylinder's surface four spouts sliding connection, two respectively with the inner wall sliding connection of eight spouts, two the surface of dead lever all overlaps and is equipped with first spring, two the equal fixedly connected with connecting block of surface of slide bar, two the surface of connecting block all articulates through the round pin axle has two symmetrical bracing pieces, two the upper surface of solid fixed cylinder has all seted up two spacing grooves, four the bottom of bracing piece contacts with the inner bottom wall of four spacing grooves respectively.

Furthermore, two the equal fixedly connected with electric drill head group in bottom surface of fixed section of thick bamboo, every the equal fixedly connected with stopper of surface of gag lever post.

Furthermore, the inner wall of the connecting pipe is fixedly connected with an mineralization prediction device body, and the inner wall of the mineralization prediction device body is fixedly connected with a detection head.

Furthermore, the outer surface of the mineralization prediction device body is fixedly connected with a fixed pipe, and the upper surface of the mineralization prediction device body is fixedly connected with a display screen.

Furthermore, the outer surface of the fixed pipe is hinged with three sliding columns through a pin shaft, and the outer surfaces of the three sliding columns are connected with sliding cylinders in a sliding mode.

Furthermore, the bottom of the three sliding cylinders is hinged with a non-slip mat through a pin shaft, and the inner bottom walls of the three sliding cylinders are fixedly connected with second springs.

Furthermore, the top ends of the three second springs are fixedly connected with the bottom ends of the three sliding columns respectively, and threaded holes are formed in the upper surfaces of the three anti-slip pads.

Compared with the prior art, the intelligent mineralization prediction device based on the geological big data has the following beneficial effects:

1. the utility model discloses a dead lever, the slide bar, connecting rod and gag lever post, the fixed section of thick bamboo of cooperation, can fix into the ore deposit prediction equipment in the underground, avoid there being the staff mistake to bump, lead to into the ore deposit prediction equipment to be knocked down, or produce the phenomenon of skew, through the pulling slide bar, slide bar cooperation connecting rod drives the gag lever post and slides in the spout the inside, thereby the gag lever post injects soil the inside and fixes into the ore deposit prediction equipment in soil the inside, through a spring, connecting block and bracing piece, the cooperation spacing groove, can carry on spacingly to the slide bar, avoid the phenomenon that the slide bar appears rocking when becoming the ore deposit prediction equipment motion, the spacing groove blocks the bracing piece, carry on spacingly to the slide bar through the connecting block.

2. The utility model discloses an electric drill head group, cooperate solid fixed cylinder, can place solid fixed cylinder underground, cooperate the gag lever post through the stopper, can carry on spacingly to the gag lever post, avoid the inside of gag lever post cunning solid fixed cylinder, through the traveller, traveller and slipmat, cooperate into ore deposit prediction equipment body, can support the mineralization prediction equipment body, avoid fixing the phenomenon that the mineralization prediction equipment body still can appear unstably after, screw hole above the screw cooperation slipmat, fix the slipmat subaerial, traveller cooperation traveller supports the mineralization prediction equipment body when the downstream, through the detecting head, a display screen, cooperate into ore deposit prediction equipment body, can detect soil.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the internal structure of the fixing cylinder of the present invention;

FIG. 3 is a schematic view of the internal structure of the slide cylinder of the present invention;

fig. 4 is an enlarged schematic view of a structure in fig. 1 according to the present invention.

In the figure: 1. a connecting pipe; 2. a fixed cylinder; 3. a fixing rod; 4. a slide bar; 5. a connecting rod; 6. a limiting rod; 7. a chute; 8. a first spring; 9. connecting blocks; 10. a support bar; 11. a limiting groove; 12. an electric drill head group; 13. a limiting block; 14. an ore-forming prediction device body; 15. fixing the tube; 16. a traveler; 17. a slide cylinder; 18. a second spring; 19. a non-slip mat; 20. a threaded hole; 21. a display screen; 22. a probe head.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

The embodiment provides an intelligent mineralization prediction device based on geological data, the device fixes a non-slip mat 19 on the ground through screws matched with threaded holes 20 on the non-slip mat 19, and a sliding column 16 matched with a sliding cylinder 17 supports a mineralization prediction device body 14 when the mineralization prediction device body 14 moves downwards.

Referring to fig. 1 to 4, the connecting pipe comprises a connecting pipe 1, two symmetrical fixed cylinders 2 are fixedly connected to the outer surface of the connecting pipe 1, fixing rods 3 are fixedly connected to the inner bottom walls of the two fixed cylinders 2, the connecting pipe 1 supports the fixed cylinders 2, and the fixed cylinders 2 support the fixing rods 3.

The outer surfaces of the two fixing rods 3 are all slidably connected with a sliding rod 4, the outer surfaces of the two fixing rods 3 are all sleeved with a first spring 8, the first spring 8 is in a compressed state, the sliding rod 4 can be pulled, and the sliding rod 4 is enabled to move to the bottom of the fixing barrel 2.

The outer surfaces of the two slide bars 4 are hinged with four connecting rods 5 through pin shafts, the slide bars 4 are pulled, and the slide bars 4 drive the connecting rods 5 to move up and down.

The bottom of every connecting rod 5 all articulates through the round pin axle has gag lever post 6, and the equal fixedly connected with stopper 13 of surface of every gag lever post 6 is spacing to gag lever post 6, avoids gag lever post 6 to slide to the inside of solid fixed cylinder 2.

Four chutes 7 are respectively arranged on the outer surfaces of the two fixed cylinders 2, the outer surfaces of the eight limiting rods 6 are respectively connected with the inner walls of the eight chutes 7 in a sliding manner, the limiting rods 6 can slide, the chutes 7 limit the limiting rods 6, and the limiting rods 6 are inserted into soil.

The equal fixedly connected with connecting block 9 of surface of two slide bars 4, the surface of two connecting blocks 9 all articulates through the round pin axle has two symmetrical bracing pieces 10, and connecting block 9 and bracing piece 10 support slide bar 4, avoid slide bar 4 to be by pulling the bottom between the first spring 8.

Two limiting grooves 11 are formed in the upper surfaces of the two fixing cylinders 2, the bottom ends of the four supporting rods 10 are in contact with the inner bottom walls of the four limiting grooves 11 respectively, the limiting grooves 11 limit the supporting rods 10, and the sliding rod 4 is prevented from sliding downwards directly.

The inner wall fixedly connected with mineralization prediction equipment body 14 of connecting pipe 1, the last fixed surface of mineralization prediction equipment body 14 is connected with display screen 21, the inner wall fixedly connected with detecting head 22 of mineralization prediction equipment body 14, mineralization prediction equipment body 14 is current technique, get through ground through the drill bit on mineralization prediction equipment body 14 earlier, mineralization prediction equipment body 14 removes behind the suitable position in underground, detecting head 22 detects soil, thereby begin to become the mineralization prediction, detecting head 22 feeds back the result or the composition after the soil detection to above the display screen 21, thereby the staff observes the analysis to the testing result.

The equal fixedly connected with electric drill head group 12 in bottom surface of two fixed cylinders 2, have independent power in the electric drill head group 12, start electric drill head group 12, electric drill head group 12 cooperates into the soil together with the prediction equipment body 14 that becomes ore deposit, can let fixed cylinder 2 more convenient move to the underground.

The outer surface of the mineralization prediction device body 14 is fixedly connected with a fixed pipe 15, the outer surface of the fixed pipe 15 is hinged with three sliding columns 16 through pin shafts, the outer surfaces of the three sliding columns 16 are all connected with sliding cylinders 17 in a sliding mode, the fixed pipe 15 is driven to move when the mineralization prediction device body 14 moves downwards, and the fixed pipe 15 drives the sliding columns 16 to slide in the sliding cylinders 17.

The bottom ends of the three sliding cylinders 17 are hinged with anti-skid pads 19 through pin shafts, threaded holes 20 are formed in the upper surfaces of the three anti-skid pads 19, the anti-skid pads 19 are fixed on the ground through the threaded holes 20 matched with screws, and therefore the anti-skid pads 19 are matched with the sliding columns 16 and the sliding cylinders 17 to support the mineralization prediction device body 14.

The inner bottom walls of the three sliding cylinders 17 are fixedly connected with second springs 18, the top ends of the three second springs 18 are fixedly connected with the bottom ends of the three sliding columns 16 respectively, and the downward movement speed of the mineralization prediction device body 14 is limited through the elastic force of the second springs 18.

The working principle is as follows: the method comprises the steps of placing an anti-skid pad 19 on the ground, fixing the anti-skid pad 19 on the ground through a screw matched with a threaded hole 20, starting an ore formation prediction device body 14, starting an electric drill head group 12, moving the ore formation prediction device body 14 and a fixed cylinder 2 to the ground, driving a fixed pipe 15 to move through the ore formation prediction device body 14, driving a sliding column 16 to slide in a sliding cylinder 17 through the fixed pipe 15, limiting the moving speed of the ore formation prediction device body 14 through the pressure of the anti-skid pad 19 on the sliding column 16, supporting the ore formation prediction device body 14 through the sliding cylinder 17 matched with the anti-skid pad 19, avoiding the phenomenon that the ore formation prediction device body 14 shakes left and right unstably downwards when the ore formation prediction device body 14 moves, pulling a sliding rod 4 when the ore formation prediction device body 14 moves to a proper position, driving a connecting block 9 to move through the sliding rod 4, inserting a supporting rod 10 into a limiting groove 11, pulling the supporting rod 10 out through the tensile force of a first spring 8 to slide downwards along the fixing rod 4, driving the connecting rod 5 to move downwards, driving the limiting rod 6 to slide in the connecting rod 7, thereby enabling an underground detection device 6 to be capable of easily detecting soil to feed back soil detection results, and enabling a person to detect soil not to be easily to detect the soil, and feed back a soil detection screen 21.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides an intelligence mineralization prediction unit based on geology big data, includes connecting pipe (1), its characterized in that: the outer fixed surface of connecting pipe (1) is connected with two symmetrical solid fixed cylinder (2), two the equal fixedly connected with dead lever (3) of inner diapire of solid fixed cylinder (2), two the equal sliding connection of surface of dead lever (3) has slide bar (4), two the surface of slide bar (4) all articulates through the round pin axle has four connecting rod (5), every the bottom of connecting rod (5) all articulates through the round pin axle has gag lever post (6), two four spout (7), eight four spout (7) have all been seted up to the surface of solid fixed cylinder (2), eight the surface of gag lever post (6) respectively with the inner wall sliding connection of eight spout (7), two the surface of dead lever (3) all overlaps and is equipped with first spring (8), two the equal fixedly connected with connecting block (9) of surface of slide bar (4), two the surface of connecting block (9) all articulates through the round pin axle has two symmetrical bracing piece (10), two solid fixed cylinder (2)'s upper surface has all seted up two spacing groove (11), four the bottom of bracing piece (10) contacts with the inner diapire respectively.

2. The intelligent mineralization prediction device based on geological big data as claimed in claim 1, wherein: two the equal fixedly connected with electric drill head group (12) in bottom surface of fixed section of thick bamboo (2), every the equal fixedly connected with stopper (13) of surface of gag lever post (6).

3. The intelligent mineralization prediction device based on geological big data as claimed in claim 1, wherein: the inner wall of the connecting pipe (1) is fixedly connected with an ore-forming prediction device body (14), and the inner wall of the ore-forming prediction device body (14) is fixedly connected with a detection head (21).

4. The intelligent mineralization prediction device based on geological big data as claimed in claim 3, wherein: the outer surface of the mineralization prediction device body (14) is fixedly connected with a fixing pipe (15), and the upper surface of the mineralization prediction device body (14) is fixedly connected with a display screen (22).

5. The intelligent mineralization prediction device based on geological big data as claimed in claim 4, wherein: the outer surface of the fixed pipe (15) is hinged with three sliding columns (16) through a pin shaft, and the outer surfaces of the three sliding columns (16) are connected with sliding cylinders (17) in a sliding mode.

6. The intelligent mineralization prediction device based on geological big data as claimed in claim 5, wherein: the bottom ends of the three sliding cylinders (17) are hinged with anti-slip pads (19) through pin shafts, and the inner bottom walls of the three sliding cylinders (17) are fixedly connected with second springs (18).

7. The intelligent mineralization prediction device based on geological big data as claimed in claim 6, wherein: the top ends of the three second springs (18) are respectively fixedly connected with the bottom ends of the three sliding columns (16), and threaded holes (20) are formed in the upper surfaces of the three anti-skid pads (19).

Images