CN114810055A

CN114810055A - High-efficient geological exploration equipment of alteration rock type gold mine

Info

Publication number: CN114810055A
Application number: CN202210481950.5A
Authority: CN
Inventors: 代正兵; 杨明爽; 王伟全; 孙玉龙; 滕飞; 袁帅
Original assignee: Shandong Weihai Foundation Engineering Co
Current assignee: Shandong Weihai Foundation Engineering Co
Priority date: 2022-05-05
Filing date: 2022-05-05
Publication date: 2022-07-29

Abstract

The invention relates to the field of geological exploration, in particular to a high-efficiency geological exploration device for altered rock type gold ores. The technical problem is as follows: corrosive substance adheres to on the drilling rod, can cause the injury to the drilling rod, and is inconvenient to the clearance operation of drilling rod, directly takes off the soil of drilling out on the drilling rod, can make the soil of the different degree of depth mix together. The technical scheme is as follows: an efficient geological exploration device for altered rock type gold ores comprises a first fixed cylinder, mounting support legs and the like; the lower part of the first fixed cylinder is fixedly connected with four mounting support legs, and the four mounting support legs are distributed in a pairwise symmetrical manner. According to the invention, the layered collection of the soil is realized by utilizing two different spaces of the first fixed cylinder and the second fixed cylinder, so that the soil can be contrastively analyzed; and moreover, after the soil is compacted, the soil forms a twisting tool, and the compacted soil and the drill rod move relatively, so that the soil and other substances attached to the surface of the drill rod are twisted down, and the drill rod is quickly cleaned.

Description

High-efficient geological exploration equipment of alteration rock type gold mine

Technical Field

The invention relates to the field of geological exploration, in particular to a high-efficiency geological exploration device for altered rock type gold ores.

Background

Altered gold deposits are one type of hydrothermal gold deposits. The method is mainly characterized in that the mineralizing hydrothermal solution is precipitated and deposited in an ore containing structure and is brought out with surrounding rock generating substances, and a water-rock reaction is carried out to form altered rock.

The prior chinese patent CN113029664A discloses a sampling device for geological exploration, which is idle-rotated by a one-way bearing between a first rotating shell and a planetary plate, and the first rotating shell and a main gear are fixedly connected, the rotating speed of the planetary plate is lower than that of the main gear and the rotating speeds of the planetary plate and the main gear are asynchronous, so as to make multiple sets of planetary gears rotate, the rotating planetary gear drives a reciprocating telescoping mechanism to telescope a vertical blade, so as to adjust the sampling radius of soil, and when the first rotating shell and the planetary plate are locked by the one-way bearing, the main gear still rotates along with the first rotating shell, the rotating speeds of the planetary plate and the main gear are the same and synchronous, the planetary gear is relatively stationary and can not rotate, so that the telescopic vertical blade can crush soil with different radius lengths, and at the same time, the helical blade rotates under the driving of a central rod, the spiral blades can be used for lifting and discharging the crushed soil upwards synchronously, the cutter head is fixedly arranged on the inner side of the rotary bottom shell and rotates synchronously along with the second rotary shell and the rotary bottom shell, the cutter head rotates to ensure that a plurality of groups of bottom cutter heads uniformly arranged at the bottom of the cutter head can primarily crush the soil on the earth surface, and the spiral blades can lift and discharge the crushed soil simultaneously, so that the problem that the manual soil sampling is carried out mostly when the soil on the earth surface is sampled in the prior art is solved, not only is the labor intensity enhanced, but also the manually sampled soil can be agglomerated to a certain degree and needs to be crushed manually, the soil sampling radius can not be better changed when the soil on the earth surface is sampled by the existing equipment, the crushed soil can not be better taken out, the sampling equipment also needs to be moved away to collect the soil sample, and the overall working efficiency is lower, the problem of poor soil sampling effect;

but because the drilling rod is when taking a sample to soil, materials such as soil can be attached to the surface of drilling rod, if these materials have corrosivity, can cause the injury to the drilling rod, untimely clearance is fallen and is made the life of drilling rod subtract the weak point, frequent change can increase use cost, and still need take off the drilling rod and just can clear up it, the operation is inconvenient, and the soil that directly takes off drilling out on the drilling rod, the soil that can make the different degree of depth mixes together, can not carry out contrastive analysis to the soil of the different degree of depth, make the data of investigation few and no contrast.

In view of the above, there is a need for an efficient geological exploration apparatus for altered rock type gold ores to solve the above problems.

Disclosure of Invention

The invention provides efficient geological exploration equipment for altered rock type gold ores, aiming at overcoming the defects that corrosive substances are attached to a drill rod to damage the drill rod, the cleaning operation of the drill rod is inconvenient, and the drilled soil on the drill rod is directly taken down to mix the soil at different depths.

The technical scheme is as follows: an efficient geological exploration device for altered rock type gold ores comprises a first fixed cylinder, an installation supporting leg, a second fixed cylinder, a driving unit, a drill rod and a material taking door; the lower part of the first fixed cylinder is fixedly connected with four mounting support legs, and the four mounting support legs are symmetrically distributed in pairs; the upper side of the first fixed cylinder is fixedly connected with a second fixed cylinder; the rear side of the outer wall of the second fixing cylinder is connected with a driving unit; the driving unit is connected with a drill rod; the driving unit is used for controlling the drill rod to drill into the soil; a material taking door is arranged on the first fixed cylinder; also comprises a scraping unit and a separating unit; the inner wall of the first fixed cylinder is connected with a scraping unit; the inner wall of the second fixed cylinder is connected with the scraping unit; the scraping unit is used for scraping soil on the drill rod; the outer wall of the first fixed cylinder is connected with a separation unit; the second fixed cylinder is connected with the separation unit; the separating unit is used for separating soil on the drill rod into two layers; the compression component, the first pressing plate, the second pressing plate, the third pressing plate and the fourth pressing plate are also included; the separation unit is connected with a compression assembly; the separation unit is connected with two first pressing plates; the compression assembly is connected with the two first pressing plates; the compression assembly is connected with two second pressing plates; the compression assembly is connected with the two second pressing plates; the two first pressing plates are respectively movably connected with one second pressing plate; the separation unit is connected with two third pressing plates; the compression assembly is connected with the two third pressing plates; the compression assembly is connected with two fourth pressing plates; the compression assembly is connected with the two fourth pressing plates; the two third press plates are respectively movably connected with one fourth press plate.

As an improvement of the scheme, the lower part of the first fixed cylinder is provided with a cone cylinder part used for gathering soil on the drill rod.

As the improvement of the proposal, the left side of the lower part and the right side of the lower part of the second fixed cylinder are respectively provided with a first sliding chute, and the left side of the upper part and the right side of the upper part of the second fixed cylinder are respectively provided with a second sliding chute.

As an improvement of the scheme, the driving unit comprises a first mounting plate, a moving assembly, a second mounting plate, a motor, a shaft sleeve, a spline shaft, a first flat gear and a second flat gear; the rear side of the outer wall of the second fixing cylinder is fixedly connected with a first mounting plate; the upper side of the first mounting plate is connected with a moving assembly; the moving assembly is connected with a second mounting plate; the upper side of the second mounting plate is fixedly connected with a motor; the moving assembly is connected with a shaft sleeve; a spline shaft is rotatably connected between the first mounting plate and the second mounting plate; the shaft sleeve is connected with the spline shaft in a sliding manner; the motor output shaft penetrates through the second mounting plate and is fixedly connected with the spline shaft; a first flat gear is fixedly connected to the shaft sleeve; the moving assembly is connected with the drill rod; the top of the drill rod is fixedly connected with a second flat gear; the first flat gear is meshed with the second flat gear; the moving assembly is used for controlling the movement of the shaft sleeve and the drill rod.

As an improvement of the above scheme, the scraping unit comprises a first fixing plate, a first connecting plate, a first scraper, a second fixing plate, a second connecting plate, a second scraper, a third fixing plate, a third connecting plate, a third scraper, a fourth fixing plate, a fourth connecting plate and a fourth scraper; the left side of the inner wall of the first fixed cylinder is fixedly connected with a first fixed plate; two first connecting plates are elastically and movably connected to the right side of the first fixing plate; the right sides of the two first connecting plates are fixedly connected with a first scraper together; a second fixing plate is fixedly connected to the right side of the inner wall of the first fixing cylinder; the left side of the second fixing plate is elastically and movably connected with two second connecting plates; the left sides of the two second connecting plates are fixedly connected with a second scraper together; a third fixing plate is fixedly connected to the left side of the inner wall of the second fixing cylinder; the right side of the third fixing plate is elastically and movably connected with a third connecting plate; a third scraper is fixedly connected to the right side of the third connecting plate; a fourth fixing plate is fixedly connected to the right side of the inner wall of the second fixing cylinder; the left side of the fourth fixing plate is elastically and movably connected with a fourth connecting plate; the left side of the fourth connecting plate is fixedly connected with a fourth scraper.

As an improvement of the scheme, the first scraper and the second scraper are symmetrical by taking the axis of the drill rod as the axis center, and the third scraper and the fourth scraper are symmetrical by taking the axis of the drill rod as the axis center.

As an improvement of the scheme, the separation unit comprises a fixed frame, an electric push rod, a connecting frame, a first gathering plate, a sealing assembly, a second gathering plate, a third gathering plate, a fourth gathering plate, a limiting sleeve, a connecting slide rod and a fifth elastic piece; the left part of the outer wall of the first fixed cylinder and the right part of the outer wall are respectively fixedly connected with a fixed frame; the upper sides of the two fixing frames are respectively fixedly connected with an electric push rod, and the telescopic ends of the two electric push rods are opposite; the telescopic ends of the two electric push rods are respectively and fixedly connected with a connecting frame; the lower parts of the two connecting frames at the back sides are respectively fixedly connected with two limiting sleeves; a connecting slide rod is connected in each of the four limiting sleeves in a sliding manner; a fifth elastic piece is connected between each of the two right connecting slide bars and the inner wall of one limiting sleeve; the left ends of the two right connecting slide bars are fixedly connected with a first assembling plate together; the first gathering plate is arranged in the first sliding groove on the right in a sliding manner; the other fifth elastic piece is connected between the left two connecting sliding rods and the inner wall of one limiting sleeve respectively; the right ends of the two left connecting slide bars are fixedly connected with a second collecting plate together; the second gathering plate is arranged in the first sliding groove on the left in a sliding manner; the upper part of the left side of the right connecting frame is fixedly connected with a third collecting plate; the third gathering plate is arranged in the second sliding groove on the right in a sliding manner; the upper part of the right side of the left connecting frame is fixedly connected with a fourth collecting plate; the fourth gathering plate is arranged in the second sliding chute on the left in a sliding manner; the first gathering plate and the second gathering plate are connected with a sealing assembly together; the third gathering plate and the fourth gathering plate are connected with another sealing assembly together; the front part of the lower side and the rear part of the lower side of the third gathering plate are respectively and movably connected with a first pressing plate; the front part of the lower side and the rear part of the lower side of the fourth gathering plate are respectively movably connected with a third pressing plate.

As an improvement of the above scheme, the lower sealing component comprises a first sleeve plate, a first partition plate, a first elastic part, a second sleeve plate, a second partition plate, a third elastic part and a fourth elastic part; the middle part of the left side of the first gathering plate is fixedly connected with a first sleeve plate; the front side and the rear side of the first sleeve plate are respectively fixedly connected with two first elastic pieces; the front two first elastic pieces are fixedly connected with a first partition plate together; the two rear first elastic pieces are fixedly connected with the other first partition board together; a second elastic piece is fixedly connected between the two first partition plates; the two first partition plates are in sliding connection with the first gathering plate; the middle part of the right side of the second gathering plate is fixedly connected with a second sheathing plate; the front side and the rear side of the second sleeve plate are respectively fixedly connected with two third elastic pieces; the front two third elastic pieces are fixedly connected with a second partition plate together; the two third elastic pieces at the back are fixedly connected with the other second partition plate together; a fourth elastic piece is fixedly connected between the two second partition plates; and the two second partition plates are in sliding connection with the second collection plate.

As an improvement of the scheme, the first sleeve plate and the second sleeve plate are folded to form a through groove for cutting off the drill rod.

As an improvement of the above scheme, the compression assembly comprises a sixth elastic element, a seventh elastic element, a first sliding block, an eighth elastic element, a ninth elastic element and a second sliding block; the lower side of the third collecting plate is provided with four first mounting holes which are distributed in a rectangular manner; a sixth elastic piece is fixedly connected in each of the two first mounting holes on the right; the two sixth elastic pieces are fixedly connected with the first pressing plate respectively; a seventh elastic piece is fixedly connected in each left first mounting hole; the two seventh elastic pieces are fixedly connected with a second pressure plate respectively; two third sliding grooves are formed in the lower side of the third gathering plate; a first sliding block is arranged in each of the two third sliding grooves in a sliding manner; the two first sliding blocks are respectively movably connected with a second pressing plate; the lower side of the fourth collecting plate is provided with four second mounting holes which are distributed in a rectangular shape; an eighth elastic piece is fixedly connected in each of the two second mounting holes on the left; the two eighth elastic pieces are fixedly connected with a third pressure plate respectively; a ninth elastic piece is fixedly connected in each of the two second mounting holes on the right; the two ninth elastic pieces are fixedly connected with a fourth pressing plate respectively; the front part of the lower side and the rear part of the lower side of the fourth gathering plate are respectively provided with a fourth chute; a second sliding block is arranged in each of the two fourth sliding grooves in a sliding manner; the two second sliding blocks are respectively movably connected with a fourth pressing plate.

The invention has the following advantages: according to the invention, the layered collection of the soil is realized by utilizing two different spaces of the first fixed cylinder and the second fixed cylinder, so that the soil can be contrastively analyzed;

and the compacted soil is utilized to form a large friction force on the drill rod, so that substances such as soil attached to the surface of the drill rod are rubbed down, the attachment of the substances such as the soil is reduced, the soil is compacted to form a rubbing tool, the compacted soil and the drill rod move relatively, the substances such as the soil attached to the surface of the drill rod are rubbed down, and the drill rod is cleaned quickly.

Drawings

FIG. 1 is a schematic perspective view of the apparatus for geological exploration of altered rock type gold ore according to the present invention;

FIG. 2 shows a perspective view of the driving unit of the present invention;

FIG. 3 shows a first partial perspective view of the apparatus for high-efficiency geological exploration of altered rock type gold ores of the present invention;

FIG. 4 illustrates a first partial cross-sectional view of the altered rock-type gold ore high-efficiency geological survey apparatus of the present invention;

fig. 5 shows a first partial perspective view of the scraping unit of the invention;

FIG. 6 illustrates a second partial cross-sectional view of the altered rock-type gold ore high-efficiency geological survey apparatus of the present invention;

fig. 7 shows a second partial perspective view of the scraping unit of the present invention;

FIG. 8 is a schematic diagram showing a second partial perspective structure of the altered rock type gold ore high-efficiency geological exploration apparatus of the present invention;

FIG. 9 is a schematic view of a first perspective view of a second stationary barrel of the present invention;

FIG. 10 is a second perspective view of the second stationary barrel of the present invention;

FIG. 11 is a perspective view of the partition unit of the present invention;

FIG. 12 shows a partial cross-sectional view of a partition unit of the present invention;

FIG. 13 shows a first partial perspective view of the partition unit of the present invention;

FIG. 14 is a perspective view of the compression assembly, first platen, second platen, third platen and fourth platen combination of the present invention;

fig. 15 shows a second partial perspective view of the partition unit of the present invention.

Number designation in the figures: 1-a first fixed cylinder, 2-a mounting foot, 3-a second fixed cylinder, 4-a drill rod, 5-a filter screen, 6-a material taking door, 201-a first mounting plate, 202-an electric slide rail, 203-a second mounting plate, 204-a motor, 205-an electric slide plate, 206-a shaft sleeve, 207-a spline shaft, 208-a first flat gear, 209-a second flat gear, 301-a first fixing plate, 302-a first connecting plate, 303-a first scraper, 304-a second fixing plate, 305-a second connecting plate, 306-a second scraper, 307-a third fixing plate, 308-a third connecting plate, 309-a third scraper, 310-a fourth fixing plate, 311-a fourth connecting plate, 312-a fourth scraper, 401-a fixed frame, 402-an electric push rod, 403-connecting frame, 404-first collecting plate, 405-first sleeve plate, 406-first separating plate, 407-first elastic element, 408-second elastic element, 409-second collecting plate, 410-second sleeve plate, 411-second separating plate, 412-third elastic element, 413-fourth elastic element, 414-third collecting plate, 415-fourth collecting plate, 416-limiting sleeve, 417-connecting slide bar, 418-fifth elastic element, 501-sixth elastic element, 502-first pressing plate, 503-seventh elastic element, 504-second pressing plate, 505-first sliding block, 506-eighth elastic element, 507-third pressing plate, 508-ninth elastic element, 509-fourth pressing plate, 510-second sliding block, 1 a-cone part, 3 a-first runner, 3 b-second runner, 414 a-first mounting hole, 414 b-third runner, 415 a-second mounting hole, 415 b-fourth runner.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

In the embodiment of the present invention, the first elastic member 407, the second elastic member 408, the third elastic member 412, the fourth elastic member 413, the fifth elastic member 418, the sixth elastic member 501, the seventh elastic member 503, the eighth elastic member 506, and the ninth elastic member 508 are all springs.

Examples

An efficient geological exploration device for altered rock type gold ores is shown in figures 1-15 and comprises a first fixed cylinder 1, mounting support legs 2, a second fixed cylinder 3, a driving unit, a drill rod 4 and a material taking door 6; the lower part of the first fixed cylinder 1 is in bolted connection with four mounting support legs 2, and the four mounting support legs 2 are symmetrically distributed in pairs; a second fixed cylinder 3 is welded on the upper side of the first fixed cylinder 1; the rear side of the outer wall of the second fixed cylinder 3 is connected with a driving unit; the driving unit is connected with a drill rod 4; a material taking door 6 is arranged on the first fixed cylinder 1;

also comprises a scraping unit and a separating unit; the inner wall of the first fixed cylinder 1 is connected with a scraping unit; the inner wall of the second fixed cylinder 3 is connected with the scraping unit; the outer wall of the first fixed cylinder 1 is connected with a separation unit; the second fixed cylinder 3 is connected with the separation unit;

also included are compression assembly, first platen 502, second platen 504, third platen 507, and fourth platen 509; the separation unit is connected with a compression assembly; the partition unit is connected with two first pressing plates 502; the compression assembly is connected to two first platens 502; two second platens 504 are attached to the compression assembly; the compression assembly is connected to two second platens 504; two first pressing plates 502 are hinged with one second pressing plate 504; the partition unit is connected with two third pressing plates 507; the compression assembly is connected with two third pressing plates 507; two fourth platens 509 are attached to the compression assembly; the compression assembly is connected to two fourth platens 509; the two third pressing plates 507 are each hinged to a fourth pressing plate 509.

A tapered cylinder part 1a is provided at the lower part of the first fixed cylinder 1.

The left side of the lower part and the right side of the lower part of the second fixed cylinder 3 are respectively provided with a first chute 3a, and the left side of the upper part and the right side of the upper part of the second fixed cylinder 3 are respectively provided with a second chute 3 b.

The lower part in the first fixed cylinder 1 is connected with a filter screen 5 through bolts.

The driving unit comprises a first mounting plate 201, a moving assembly, a second mounting plate 203, a motor 204, a shaft sleeve 206, a spline shaft 207, a first flat gear 208 and a second flat gear 209; a first mounting plate 201 is welded on the rear side of the outer wall of the second fixed cylinder 3; the upper side of the first mounting plate 201 is connected with a moving assembly; the moving component is connected with a second mounting plate 203; the upper side of the second mounting plate 203 is connected with a motor 204 through bolts; the moving component is connected with a shaft sleeve 206; a spline shaft 207 is rotatably connected between the first mounting plate 201 and the second mounting plate 203; the shaft sleeve 206 is connected with the spline shaft 207 in a sliding manner; an output shaft of the motor 204 penetrates through the second mounting plate 203, and the output shaft of the motor 204 is fixedly connected with the spline shaft 207; a first flat gear 208 is fixedly connected to the shaft sleeve 206; the moving assembly is connected with the drill rod 4; the top of the drill rod 4 is fixedly connected with a second flat gear 209; the first spur gear 208 meshes with a second spur gear 209.

The moving assembly comprises an electric sliding rail 202 and an electric sliding plate 205; the upper side of the first mounting plate 201 is connected with an electric slide rail 202 through bolts; the electric slide rail 202 is connected with the second mounting plate 203 through bolts; an electric sliding plate 205 is connected in the electric sliding rail 202 in a sliding way; the electric skateboard 205 is rotationally connected with the shaft sleeve 206; the motorized trolley 205 is rotatably connected to the drill rod 4.

The scraping unit comprises a first fixing plate 301, a first connecting plate 302, a first scraper 303, a second fixing plate 304, a second connecting plate 305, a second scraper 306, a third fixing plate 307, a third connecting plate 308, a third scraper 309, a fourth fixing plate 310, a fourth connecting plate 311 and a fourth scraper 312; the left side of the inner wall of the first fixed cylinder 1 is connected with a first fixed plate 301 through a bolt; two first connecting plates 302 are elastically hinged to the right side of the first fixing plate 301; the right sides of the two first connecting plates 302 are jointly bolted with a first scraper 303; the right side of the inner wall of the first fixed cylinder 1 is connected with a second fixed plate 304 through a bolt; two second connecting plates 305 are elastically hinged to the left side of the second fixing plate 304; the left sides of the two second connecting plates 305 are jointly bolted with a second scraper 306; the left side of the inner wall of the second fixed cylinder 3 is connected with a third fixed plate 307 through a bolt; a third connecting plate 308 is elastically hinged to the right side of the third fixing plate 307; the right side of the third connecting plate 308 is connected with a third scraper 309 through a bolt; the right side of the inner wall of the second fixing cylinder 3 is connected with a fourth fixing plate 310 through a bolt; the left side of the fourth fixing plate 310 is elastically hinged with a fourth connecting plate 311; a fourth scraper 312 is bolted to the left side of the fourth connecting plate 311.

The first scraper 303 and the second scraper 306 are axially symmetrical about the axial center of the drill rod 4, and the third scraper 309 and the fourth scraper 312 are axially symmetrical about the axial center of the drill rod 4.

The first blade 303, the second blade 306, the third blade 309 and the fourth blade 312 are all arranged in a parallelogram.

The separating unit comprises a fixed frame 401, an electric push rod 402, a connecting frame 403, a first gathering plate 404, a sealing assembly, a second gathering plate 409, a third gathering plate 414, a fourth gathering plate 415, a limiting sleeve 416, a connecting slide rod 417 and a fifth elastic piece 418; the left part and the right part of the outer wall of the first fixed cylinder 1 are respectively connected with a fixed frame 401 through bolts; the upper sides of the two fixing frames 401 are respectively connected with an electric push rod 402 through bolts, and the telescopic ends of the two electric push rods 402 are opposite; the telescopic ends of the two electric push rods 402 are fixedly connected with a connecting frame 403 respectively; the lower parts of the two connecting frames 403 on the opposite sides are fixedly connected with two limiting sleeves 416 respectively; a connecting slide bar 417 is slidably connected in each of the four limiting sleeves 416; a fifth elastic piece 418 is connected between the right two connecting sliding rods 417 and the inner wall of one limiting sleeve 416; the left ends of the two right connecting slide bars 417 are welded with a first gathering plate 404 together; the first collecting plate 404 is slidably disposed in the first chute 3a on the right; another fifth elastic element 418 is connected between each of the two left connecting sliding rods 417 and the inner wall of one of the limiting sleeves 416; the right ends of the two left connecting slide bars 417 are welded with a second gathering plate 409; the second gathering plate 409 is slidably arranged in the first chute 3a on the left; the upper part of the left side of the right connecting frame 403 is connected with a third collecting plate 414 through a bolt; the third collecting plate 414 is slidably disposed in the second chute 3b on the right; the upper part of the right side of the left connecting frame 403 is connected with a fourth collecting plate 415 through bolts; the fourth collecting plate 415 is slidably disposed in the second chute 3b on the left; the first collecting plate 404 and the second collecting plate 409 are connected together to form a closed assembly; the third collective plate 414 and the fourth collective plate 415 are commonly connected with another sealing member; the front part of the lower side and the rear part of the lower side of the third gathering plate 414 are respectively hinged with a first pressing plate 502; the front part of the lower side and the rear part of the lower side of the fourth collective plate 415 are respectively hinged with a third pressing plate 507.

The lower closure assembly comprises a first sleeve plate 405, a first partition plate 406, a first elastic member 407, a second elastic member 408, a second sleeve plate 410, a second partition plate 411, a third elastic member 412 and a fourth elastic member 413; the middle of the left side of the first gathering plate 404 is welded with a first gathering plate 405; the front side and the rear side of the first strap 405 are fixedly connected with two first elastic members 407 respectively; the front two first elastic members 407 are fixedly connected with a first partition plate 406; the two rear first elastic members 407 are fixedly connected with another first partition plate 406; a second elastic piece 408 is fixedly connected between the two first partition plates 406; two first partition plates 406 are slidably connected to the first collecting plate 404; the second sheathing plate 410 is welded to the middle of the right side of the second sheathing plate 409; two third elastic members 412 are fixedly connected to the front side and the rear side of the second nest plate 410; the front two third elastic members 412 are fixedly connected with a second partition plate 411; the two rear third elastic members 412 are fixedly connected with another second partition plate 411; a fourth elastic member 413 is fixedly connected between the two second partition plates 411; both the second partition plates 411 are slidably connected to the second collecting plate 409.

The first and

second straps

405, 410 are folded to form a through slot for the interruption of the drill rod 4.

The compression assembly comprises a sixth elastic element 501, a seventh elastic element 503, a first slide block 505, an eighth elastic element 506, a ninth elastic element 508 and a second slide block 510; the lower side of the third collecting plate 414 is provided with four first mounting holes 414a which are distributed in a rectangular shape; a sixth elastic element 501 is fixedly connected in each of the two right first mounting holes 414 a; the two sixth elastic members 501 are fixedly connected with a first pressing plate 502 respectively; a seventh elastic element 503 is fixedly connected in each left first mounting hole 414 a; the two seventh elastic members 503 are fixedly connected with one second pressing plate 504 respectively; two third sliding chutes 414b are formed on the lower side of the third collecting plate 414; a first sliding block 505 is slidably arranged in each of the two third sliding grooves 414 b; two first sliding blocks 505 are hinged with one second pressing plate 504 respectively; the lower side of the fourth collecting plate 415 is provided with four second mounting holes 415a which are distributed in a rectangular shape; an eighth elastic element 506 is fixedly connected in each of the two left second mounting holes 415 a; the two eighth elastic members 506 are fixedly connected with a third pressing plate 507 respectively; a ninth elastic piece 508 is fixedly connected in each of the two right second mounting holes 415 a; the two ninth elastic members 508 are fixedly connected to a fourth pressing plate 509; a fourth chute 415b is respectively arranged at the front part of the lower side and the rear part of the lower side of the fourth collecting plate 415; a second sliding block 510 is slidably arranged in each of the two fourth sliding grooves 415 b; two second sliders 510 are each hinged to a fourth pressure plate 509.

When the high-efficiency geological exploration equipment for the altered rock type gold ore is used, firstly, the mounting support legs 2 are mounted on the ground, and then, the soil taking operation is started;

firstly, controlling two electric push rods 402 to drive one connecting frame 403 to move respectively, enabling the two connecting frames 403 to move away from each other, at the moment, the fifth elastic piece 418 is in a compressed state, the connecting frame 403 drives the limit sleeve 416 to move, so that the left two limit sleeves 416 and the right two limit sleeves 416 move away from each other, the fifth elastic piece 418 is converted to a normal state from a compressed state, and the fifth elastic piece 418 pushes the connecting slide rod 417, so that the first collecting plate 404 and the second collecting plate 409 are kept still when the connecting frame 403 just starts to move, the third collecting plate 414 and the fourth collecting plate 415 move away from each other, after the fifth elastic piece 418 returns to the normal state, the limit sleeve 416 pulls the connecting slide rod 417 through the fifth elastic piece 418, the right connecting slide rod 417 pulls the first collecting plate 404, the left connecting slide rod 417 pulls the second collecting plate 409, so that the first collecting plate 404 and the second collecting plate 409 start to move away from each other, that is, the third collecting plate 414 and the fourth collecting plate 415 are separated first, and the first collecting plate 404 and the second collecting plate 409 are separated later;

taking the lower closure assembly as an example, when the first collecting plate 404 and the second collecting plate 409 move away from each other, so that the first collecting plate 405 and the second collecting plate 410 also move away from each other, the first collecting plate 405 drives the first separating plate 406, the first elastic member 407 and the second elastic member 408 to move, the second collecting plate 410 drives the second separating plate 411, the third elastic member 412 and the fourth elastic member 413 to move, when the first partition plate 406 moves to the first chute 3a position, the first partition plate 406 is stopped by the side wall of the first chute 3a, so that the two first partition plates 406 move close to each other, that is, the two first separating plates 406 are received in the first collecting plate 404, the first elastic member 407 and the second elastic member 408 are compressed, and similarly, the second separating plate 411 is received in the second collecting plate 409, the third elastic member 412 and the fourth elastic member 413 are compressed, and the first and

second partition plates

406 and 411 are not completely moved out of the second fixed cylinder 3;

then the output shaft of the motor 204 is controlled to drive the spline shaft 207 to rotate, the shaft sleeve 206 is driven to rotate by the spline shaft 207, the first flat gear 208 is driven to rotate by the shaft sleeve 206, the second flat gear 209 is driven to rotate by the first flat gear 208, the drill rod 4 is driven to rotate by the second flat gear 209, the electric sliding plate 205 on the electric sliding rail 202 is controlled to move downwards, the shaft sleeve 206 is driven to slide downwards on the spline shaft 207 by the electric sliding plate 205, the shaft sleeve 206 drives the first flat gear 208 to move synchronously, the electric sliding plate 205 drives the drill rod 4 and the second flat gear 209 to move downwards synchronously, so that the drill rod 4 moves downwards and drills into the soil, when the drill rod 4 drills into the soil to a specified depth, the output shaft of the motor 204 is controlled to stop rotating, then the electric sliding plate 205 on the electric sliding rail 202 is controlled to move upwards, at the soil is attached to the drill rod 4, the attached soil is lifted upwards by the drill rod 4, in the process of moving the drill rod 4 upwards, the output shaft of the motor 204 is controlled to rotate at a slow speed, the drill rod 4 rotates anticlockwise by taking the top-down view as a reference, and the drill rod 4 can stir the first scraper 303 and the second scraper 306 when rotating, so that the soil on the drill rod 4 can not be scraped by the first scraper 303 and the second scraper 306;

when the drill rod 4 moves back to the original position, the output shaft of the motor 204 is controlled to stop rotating, the electric sliding plate 205 on the electric sliding rail 202 is controlled to stop moving, then the two electric push rods 402 are controlled to operate, when the two connecting frames 403 are closed, the first collecting plate 404 and the second collecting plate 409 contact first, the two connecting frames 403 continue moving, the limiting sleeve 416 moves and compresses the fifth elastic element 418, at this time, the third collecting plate 414 and the fourth collecting plate 415 are not closed, the lower closing assembly operates, the first collecting plate 405 and the second collecting plate 410 are closed, under the resilience of the first elastic element 407 and the second elastic element 408, the two first partition plates 406 are ejected again, under the resilience of the third elastic element 412 and the fourth elastic element 413, the two second partition plates 411 are ejected again, at this time, the first collecting plate 404 and the second collecting plate 409 separate the first fixed cylinder 1 and the second fixed cylinder 3 again under the cooperation of the first partition plates 406 and the second partition plates 411, at the moment, the soil on the drill rod 4 is divided into an upper part and a lower part by the first sleeve plate 405 and the second sleeve plate 410, the upper part of the soil is positioned in the second fixed cylinder 3, and the lower part of the soil is positioned in the first fixed cylinder 1;

then the output shaft of the motor 204 is controlled to rotate, so that the drill rod 4 rotates clockwise when viewed from top to bottom, and the electric slide rail 202 is controlled to drive the electric slide plate 205 to move downwards, the lower soil in the first fixed cylinder 1 can stir the first scraper 303 and the second scraper 306, the first scraper 303 drives the first connecting plate 302 to rotate on the first fixed plate 301, the first scraper 303 does not rotate after the first connecting plate 302 abuts against the first fixed plate 301, the second scraper 306 drives the second connecting plate 305 to rotate on the second fixed plate 304, the second scraper 306 does not rotate after the second connecting plate 305 abuts against the second fixed plate 304, then the drill rod 4 continues to rotate, the lower soil in the first fixed cylinder 1 is gradually scraped by the first scraper 303 and the second scraper 306, the upper soil in the second fixed cylinder 3 is similarly scraped by the third scraper 309 and the fourth scraper 312, and the lower soil in the first fixed cylinder 1 falls onto the filter screen 5, the soil is preliminarily filtered through the filter screen 5, the soil on the filter screen 5 is taken out after the material taking door 6 is manually opened, the upper soil in the second fixed cylinder 3 falls into the second fixed cylinder 3, and at the moment, the third collecting plate 414 and the fourth collecting plate 415 are not folded, the soil on the drill rod 4 and above the second fixed cylinder 3 is gradually driven to enter the second fixed cylinder 3 and is scraped through the third scraper 309 and the fourth scraper 312, so that the layered collection of the soil is realized;

after the second fixed cylinder 3 is gradually filled with soil, controlling the two electric push rods 402 to continue to operate, so that the third collecting plate 414 and the fourth collecting plate 415 are folded, the normal state of the first pressing plate 502 and the second pressing plate 504 is V-shaped, the normal state of the third pressing plate 507 and the fourth pressing plate 509 is V-shaped, the first pressing plate 502, the second pressing plate 504, the third pressing plate 507 and the fourth pressing plate 509 enter the upper part of the soil in the second fixed cylinder 3, and at the moment, the soil can generate extrusion acting force on the first pressing plate 502, the second pressing plate 504, the third pressing plate 507 and the fourth pressing plate 509; the first pressing plate 502 and the second pressing plate 504 are switched to a parallel state, in the process, the first sliding block 505 slides in the third sliding groove 414b, the sixth elastic element 501 and the seventh elastic element 503 are compressed, and the first pressing plate 502 and the second pressing plate 504 are pressed on the soil by the reaction force of the rebound tendency of the sixth elastic element 501 and the seventh elastic element 503; the third pressing plate 507 and the fourth pressing plate 509 are switched to a parallel state, in the process, the second sliding block 510 slides in the fourth sliding groove 415b, the eighth elastic element 506 and the ninth elastic element 508 are compressed, and the third pressing plate 507 and the fourth pressing plate 509 are pressed on the soil by the reaction force of the rebound tendency of the eighth elastic element 506 and the ninth elastic element 508;

therefore, the first pressing plate 502, the second pressing plate 504, the third pressing plate 507 and the fourth pressing plate 509 are used for generating counter extrusion force on soil, the soil is compacted, then the drill rod 4 is controlled to rotate upwards and downwards, the compacted soil forms large friction force on the drill rod 4, materials such as soil attached to the surface of the drill rod 4 are rubbed down, the adhesion of the materials such as soil is reduced, after the soil is compacted, the soil forms a rubbing tool, the compacted soil and the drill rod 4 move relatively, the materials such as soil attached to the surface of the drill rod 4 are rubbed down, the drill rod 4 is cleaned quickly, then the third collecting plate 414 and the fourth collecting plate 415 are controlled to be opened firstly, and the soil is taken out manually.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. An efficient geological exploration device for altered rock type gold ores comprises a first fixed cylinder (1), an installation support leg (2), a second fixed cylinder (3), a driving unit, a drill rod (4) and a material taking door (6); the lower part of the first fixed cylinder (1) is fixedly connected with four mounting support legs (2), and the four mounting support legs (2) are symmetrically distributed in pairs; the upper side of the first fixed cylinder (1) is fixedly connected with a second fixed cylinder (3); the rear side of the outer wall of the second fixed cylinder (3) is connected with a driving unit; the driving unit is connected with a drill rod (4); the driving unit is used for controlling the drill rod (4) to drill into the soil; a material taking door (6) is arranged on the first fixed cylinder (1);

it is characterized by also comprising a scraping unit and a separating unit; the inner wall of the first fixed cylinder (1) is connected with a scraping unit; the inner wall of the second fixed cylinder (3) is connected with the scraping unit; the scraping unit is used for scraping soil on the drill rod (4); the outer wall of the first fixed cylinder (1) is connected with a separation unit; the second fixed cylinder (3) is connected with the separation unit; the separation unit is used for separating soil on the drill rod (4) into two layers;

the device also comprises a compression assembly, a first pressing plate (502), a second pressing plate (504), a third pressing plate (507) and a fourth pressing plate (509); the separation unit is connected with a compression assembly; two first pressing plates (502) are connected with the separation unit; the compression assembly is connected with two first pressing plates (502); two second platens (504) are connected to the compression assembly; the compression assembly is connected with two second pressing plates (504); the two first pressing plates (502) are respectively movably connected with one second pressing plate (504); the separation unit is connected with two third pressing plates (507);

the compression assembly is connected with two third pressing plates (507); two fourth platens (509) are connected to the compression assembly; the compression assembly is connected with two fourth pressing plates (509); the two third pressing plates (507) are respectively movably connected with one fourth pressing plate (509).

2. The apparatus for high-efficiency geological exploration of altered rock type gold mine according to claim 1, wherein the lower part of the first fixed cylinder (1) is provided with a cone cylinder part (1a) for gathering soil on the drill rod (4).

3. The apparatus for geological exploration of altered rock type gold mine according to claim 1, wherein the second stationary cylinder (3) has a first slide groove (3a) formed on each of left and right lower sides thereof, and a second slide groove (3b) formed on each of left and right upper sides thereof.

4. The apparatus for high-efficiency geological exploration of altered rock type gold ore according to claim 1, wherein the driving unit comprises a first mounting plate (201), a moving assembly, a second mounting plate (203), a motor (204), a shaft sleeve (206), a spline shaft (207), a first flat gear (208) and a second flat gear (209); a first mounting plate (201) is fixedly connected to the rear side of the outer wall of the second fixed cylinder (3); the upper side of the first mounting plate (201) is connected with a moving assembly; the moving component is connected with a second mounting plate (203); the upper side of the second mounting plate (203) is fixedly connected with a motor (204); the moving component is connected with a shaft sleeve (206); a spline shaft (207) is rotatably connected between the first mounting plate (201) and the second mounting plate (203); the shaft sleeve (206) is connected with the spline shaft (207) in a sliding way; an output shaft of the motor (204) penetrates through the second mounting plate (203), and the output shaft of the motor (204) is fixedly connected with the spline shaft (207); a first flat gear (208) is fixedly connected to the shaft sleeve (206); the moving assembly is connected with the drill rod (4); the top of the drill rod (4) is fixedly connected with a second flat gear (209); the first flat gear (208) is meshed with the second flat gear (209); the moving assembly is used for controlling the movement of the shaft sleeve (206) and the drill rod (4).

5. The apparatus for geological exploration of altered rock type gold mine according to claim 4, wherein the scraping unit comprises a first fixing plate (301), a first connecting plate (302), a first scraper (303), a second fixing plate (304), a second connecting plate (305), a second scraper (306), a third fixing plate (307), a third connecting plate (308), a third scraper (309), a fourth fixing plate (310), a fourth connecting plate (311) and a fourth scraper (312); a first fixing plate (301) is fixedly connected to the left side of the inner wall of the first fixing cylinder (1); two first connecting plates (302) are elastically and movably connected to the right side of the first fixing plate (301); the right sides of the two first connecting plates (302) are fixedly connected with a first scraper (303) together; a second fixing plate (304) is fixedly connected to the right side of the inner wall of the first fixing cylinder (1); two second connecting plates (305) are elastically and movably connected to the left side of the second fixing plate (304); the left sides of the two second connecting plates (305) are fixedly connected with a second scraper (306) together; a third fixing plate (307) is fixedly connected to the left side of the inner wall of the second fixing cylinder (3); a third connecting plate (308) is elastically and movably connected to the right side of the third fixing plate (307); a third scraper (309) is fixedly connected to the right side of the third connecting plate (308); a fourth fixing plate (310) is fixedly connected to the right side of the inner wall of the second fixing cylinder (3); the left side of the fourth fixing plate (310) is elastically and movably connected with a fourth connecting plate (311); the left side of the fourth connecting plate (311) is fixedly connected with a fourth scraper (312).

6. The apparatus for geological exploration of altered rock type gold mine according to claim 5, wherein the first scraper (303) and the second scraper (306) are axially symmetric about the axis of the drill rod (4), and the third scraper (309) and the fourth scraper (312) are axially symmetric about the axis of the drill rod (4).

7. The apparatus for high-efficiency geological exploration of altered rock type gold mine according to claim 6, wherein the separation unit comprises a fixed frame (401), an electric push rod (402), a connecting frame (403), a first gathering plate (404), a closing assembly, a second gathering plate (409), a third gathering plate (414), a fourth gathering plate (415), a limiting sleeve (416), a connecting slide bar (417) and a fifth elastic member (418); the left part and the right part of the outer wall of the first fixed cylinder (1) are respectively fixedly connected with a fixed frame (401); the upper sides of the two fixing frames (401) are respectively fixedly connected with an electric push rod (402), and the telescopic ends of the two electric push rods (402) are opposite; the telescopic ends of the two electric push rods (402) are respectively fixedly connected with a connecting frame (403); the lower parts of the two connecting frames (403) at the back sides are respectively fixedly connected with two limiting sleeves (416); a connecting slide rod (417) is connected in each of the four limiting sleeves (416) in a sliding manner; a fifth elastic piece (418) is connected between the right two connecting sliding rods (417) and the inner wall of a limiting sleeve (416); the left ends of the two right connecting slide bars (417) are jointly and fixedly connected with a first gathering plate (404); the first gathering plate (404) is arranged in the first chute (3a) at the right side in a sliding manner; another fifth elastic piece (418) is connected between the left two connecting sliding rods (417) and the inner wall of one limiting sleeve (416); the right ends of the two left connecting slide bars (417) are fixedly connected with a second gathering plate (409) together; the second gathering plate (409) is arranged in the first sliding chute (3a) on the left in a sliding manner; the upper part of the left side of the right connecting frame (403) is fixedly connected with a third collecting plate (414); the third gathering plate (414) is arranged in the second chute (3b) at the right side in a sliding manner; the upper part of the right side of the left connecting frame (403) is fixedly connected with a fourth collecting plate (415); the fourth gathering plate (415) is arranged in the second sliding chute (3b) on the left in a sliding manner; the first gathering plate (404) and the second gathering plate (409) are connected with a closed assembly together; the third gathering plate (414) and the fourth gathering plate (415) are connected with another closed assembly together; the front part of the lower side and the rear part of the lower side of the third gathering plate (414) are respectively movably connected with a first pressing plate (502); the front part of the lower side and the rear part of the lower side of the fourth gathering plate (415) are respectively and movably connected with a third pressing plate (507).

8. The apparatus for high-efficiency geological exploration of altered rock type gold mine according to claim 7, wherein the lower enclosing member comprises a first casing (405), a first partition (406), a first elastic member (407), a second elastic member (408), a second casing (410), a second partition (411), a third elastic member (412) and a fourth elastic member (413); the middle part of the left side of the first gathering plate (404) is fixedly connected with a first sleeve plate (405); the front side and the rear side of the first strap (405) are respectively fixedly connected with two first elastic pieces (407); a first partition plate (406) is fixedly connected with the two front first elastic members (407) together; the two rear first elastic pieces (407) are fixedly connected with another first partition plate (406) together; a second elastic piece (408) is fixedly connected between the two first partition plates (406); the two first partition plates (406) are both connected with the first gathering plate (404) in a sliding manner; the middle part of the right side of the second gathering plate (409) is fixedly connected with a second sheathing plate (410); the front side and the rear side of the second nest plate (410) are fixedly connected with two third elastic pieces (412) respectively; the front two third elastic pieces (412) are fixedly connected with a second partition plate (411) together; the two rear third elastic pieces (412) are fixedly connected with another second partition plate (411) together; a fourth elastic piece (413) is fixedly connected between the two second partition plates (411); the two second partition plates (411) are both connected with the second gathering plate (409) in a sliding mode.

9. The apparatus for high efficiency geological exploration of altered rock type gold mine according to claim 8, wherein said first set of plates (405) and said second set of plates (410) are folded to form a through slot for isolating said drill rod (4).

10. The apparatus for geological exploration of altered rock type gold mine according to claim 8, wherein said compression assembly comprises a sixth elastic member (501), a seventh elastic member (503), a first slide block (505), an eighth elastic member (506), a ninth elastic member (508) and a second slide block (510); the lower side of the third collecting plate (414) is provided with four first mounting holes (414a) which are distributed in a rectangular shape; a sixth elastic piece (501) is fixedly connected in each of the two right first mounting holes (414 a); the two sixth elastic pieces (501) are fixedly connected with a first pressing plate (502) respectively; a seventh elastic piece (503) is fixedly connected in each left first mounting hole (414 a); the two seventh elastic pieces (503) are respectively fixedly connected with a second pressure plate (504); two third sliding chutes (414b) are formed on the lower side of the third gathering plate (414); a first slide block (505) is arranged in each of the two third sliding grooves (414b) in a sliding manner; the two first sliding blocks (505) are respectively movably connected with a second pressing plate (504); the lower side of the fourth collecting plate (415) is provided with four second mounting holes (415a) which are distributed in a rectangular shape; an eighth elastic piece (506) is fixedly connected in each of the two left second mounting holes (415 a); the two eighth elastic pieces (506) are respectively fixedly connected with a third pressure plate (507); a ninth elastic piece (508) is fixedly connected in each of the two right second mounting holes (415 a); the two ninth elastic pieces (508) are respectively fixedly connected with a fourth pressure plate (509); a fourth chute (415b) is respectively arranged at the front part of the lower side and the rear part of the lower side of the fourth gathering plate (415); a second sliding block (510) is arranged in each of the two fourth sliding grooves (415b) in a sliding manner; the two second sliding blocks (510) are respectively movably connected with a fourth pressing plate (509).