CN215565769U

CN215565769U - Geology reconnaissance probing device

Info

Publication number: CN215565769U
Application number: CN202023284487.0U
Authority: CN
Inventors: 钱志宇; 徐金惠; 商夏明; 钱弘凯; 钱生炳; 钱晓峰; 钱卫东
Original assignee: Zhejiang Zhonglin Exploration And Research Co ltd
Current assignee: Zhejiang Zhonglin Exploration And Research Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2022-01-18
Anticipated expiration: 2030-12-30

Abstract

The utility model belongs to the technical field of exploration equipment, and particularly relates to a geological exploration drilling device. The rotary drilling machine comprises a drilling machine frame, wherein a liftable drill bit fixing seat is arranged on the drilling machine frame, a rotatable exploration drill bit is arranged at the bottom of the drill bit fixing seat, and a dust removal covering cover capable of linearly reciprocating in the vertical direction is further arranged on the drilling machine frame. According to the utility model, the drill bit deviation preventing piece is arranged, and in the process of lifting the drill bit fixing seat, the drill bit fixing seat is in sliding fit with the drill bit deviation preventing piece, so that the position and angle deviation of an exploration drill bit can be avoided during exploration and sampling, the sampling point is accurate, the dust removal covering cover is moved downwards in the exploration process, the exploration drill bit is surrounded by the dust removal covering cover, a large amount of dust generated during exploration can be recovered through the dust adsorption and recovery assembly, the dust is prevented from diffusing everywhere, the pollution to the environment is reduced, the cleanliness of the working environment is improved, and the device is environment-friendly.

Description

Geology reconnaissance probing device

Technical Field

The utility model belongs to the technical field of exploration equipment, and relates to a geological exploration drilling device.

Background

Geological exploration is investigation and research activities of surveying and detecting geology through various means and methods, determining a proper bearing stratum, determining a foundation type according to the foundation bearing capacity of the bearing stratum and calculating foundation parameters. The method is to find an industrially significant mineral deposit in mineral census, provide mineral reserves and geological data required by mine construction design for finding out the quality and quantity of the mineral and technical conditions of mining and utilization, and carry out investigation and research work on geological conditions such as rocks, strata, structures, mineral products, hydrology, landforms and the like in a certain area. At present, automatic drilling equipment is generally adopted in geological exploration, drilling exploration is carried out, a large amount of dust is easily generated in the exploration process, and the environment is polluted after the dust is diffused, so that the working environment is poor, and the environment is difficult to reach the standard.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, a Chinese patent discloses a geological exploration drilling device [ application number: 201922111151.5], the on-line screen storage device comprises a base, the equal fixedly connected with mounting panel in top both ends of base, the top fixedly connected with threaded rod of mounting panel, the surface swing joint of threaded rod has the stopper, the surface swing joint of stopper has the damping pad, the outer fixed surface of damping pad is connected with the rotation cover body, the one side fixedly connected with pointer of the rotation cover body, one side laminating of pointer is connected with the yardstick scale. The installation and fixation of the threaded rod are facilitated through the installation plate, the drilling depth can be limited through the limiting block, the drilling device is convenient to use, the rotary use of the rotary sleeve body can be guaranteed through the arrangement of the damping pad and the rotary sleeve body, and meanwhile, the practicability of the rotary sleeve body is increased without being influenced by the rotation of the limiting block. However, in the exploration process, a large amount of dust is still easily generated, and the dust is diffused to pollute the environment, so that the working environment is poor, and the defect that the environment is difficult to reach the standard exists.

Disclosure of Invention

The present invention has been made in view of the above problems, and an object of the present invention is to provide a geological exploration drilling rig.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a geological survey probing device, includes the probing frame, the probing frame on be equipped with the drill bit fixing base of liftable, drill bit fixing base bottom be equipped with rotatable exploration drill bit, the probing frame on still be equipped with the dust removal cover that can follow vertical direction reciprocating linear motion, the exploration drill bit be located inside the dust removal cover, the dust removal cover in be equipped with the dust and adsorb recovery subassembly, the dust adsorb recovery subassembly corresponding with the position of exploration drill bit, exploration drill bit and dust removal cover between be equipped with the drill bit and prevent partially, drill bit fixing base and drill bit prevent partially mutually sliding fit.

In foretell geological survey probing device, dust removal cover the cover and be the tube-shape, dust adsorb retrieve the subassembly and include a plurality of dust suction fans that set up in dust removal cover, the probing frame on be equipped with a plurality of dust and deposit the water tank, dust suction fan and dust deposit and be equipped with between the water tank and connect the dirt piece, the connection lead to the dirt piece and run through the probing frame, the connection lead to dirt piece one end and dust suction fan and link to each other, the other end and dust deposit the water tank and link to each other.

In foretell geological survey drilling equipment, the connection lead to dirt spare including setting up the throat connecting block on the dust removal covers the cover, the position of throat connecting block and dust suction fan corresponding, the throat connecting block keep away from dust suction fan one end and be connected with the dust straw, the dust straw keep away from throat connecting block one end and extend through to the dust precipitation water tank in.

In the geological survey drilling device, the drilling machine frame is provided with a plurality of water tank fixing bottom plates, the dust precipitation water tanks are in clamping fit with the water tank fixing bottom plates, and the dust suction pipe is a contraction pipe.

In the geological survey drilling device, the bottom of the dust removal cover is provided with a plurality of inserting fixing rods distributed in an annular array along the central point of the dust removal cover, and the bottoms of the inserting fixing rods are in a conical shape.

In foretell geological survey drilling equipment, dust removal cover top be equipped with a plurality of along the dust removal cover center line symmetry can dismantle the link, can dismantle link and dust removal cover looks spiro union, the drilling frame on be equipped with a plurality of first linear actuator along drilling frame center line symmetry, the power shaft of first linear actuator with can dismantle the link and link to each other.

In foretell geological survey drilling equipment, the link of dismantling on be equipped with the spiro union and counterpoint the kicking block, the dust removal cover with spiro union counterpoint kicking block looks butt fit.

In the geological prospecting drilling device, the drill bit deviation preventing piece comprises an upper fixing plate arranged between the prospecting drill bit and the dust removal cover, the upper fixing plate is connected with the drilling rack through a fastening bolt, a drill bit deviation preventing barrel plate is arranged at the bottom of the upper fixing plate, and the drill bit fixing seat is in sliding fit with the drill bit deviation preventing barrel plate.

In the geological exploration drilling device, the drill bit fixing seat is internally provided with the circumferential rotator, and a rotating shaft of the circumferential rotator is connected with the exploration drill bit.

In the geological exploration drilling device, a main driving seat is arranged at the bottom of the drilling rack, a second linear driver is arranged in the main driving seat, and a power shaft of the second linear driver is connected with the drill bit fixing seat.

Compared with the prior art, the utility model has the advantages that:

1. according to the utility model, the drill bit deviation preventing piece is arranged, and in the process of lifting the drill bit fixing seat, the drill bit fixing seat is in sliding fit with the drill bit deviation preventing piece, so that the position and angle deviation of an exploration drill bit can be avoided during exploration and sampling, the sampling point is accurate, the dust removal covering cover is moved downwards in the exploration process, the exploration drill bit is surrounded by the dust removal covering cover, a large amount of dust generated during exploration can be recovered through the dust adsorption and recovery assembly, the dust is prevented from diffusing everywhere, the pollution to the environment is reduced, the cleanliness of the working environment is improved, and the device is environment-friendly.

2. According to the utility model, the dust settling water tank is arranged, and in the dust collection cereal grass, dust in the exploration process is sucked by the dust suction fan, so that the dust enters the dust settling water tank from the dust passing part, clear water is placed in the dust settling water tank, the sucked dust is introduced into the dust settling water tank, and the dust is settled and absorbed, so that the settling effect is good.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the dust removing covering hood.

In the figure: drilling frame 1, drill bit fixing base 2, exploration drill bit 3, dust removal cover 4, dust adsorbs recovery unit 5, the inclined to one side piece 6 is prevented to the drill bit, dust suction fan 7, dust sedimentation water tank 8, connect logical dirt 9, throat connecting block 10, dust straw 11, water tank PMKD 12, grafting dead lever 13, can dismantle link 14, first linear actuator 15, spiro union counterpoint kicking block 16, an upper fixed plate 17, inclined to one side barrel plate 18 is prevented to the drill bit, circumference rotating device 19, main drive seat 20, second linear actuator 21.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1-2, a geological prospecting drilling device comprises a drilling rack 1, wherein a liftable drill fixing seat 2 is arranged on the drilling rack 1, a rotatable exploration drill 3 is arranged at the bottom of the drill fixing seat 2, a dust removal cover 4 capable of reciprocating in a linear motion along the vertical direction is further arranged on the drilling rack 1, the exploration drill 3 is positioned inside the dust removal cover 4, a dust adsorption recovery component 5 is arranged in the dust removal cover 4, the dust adsorption recovery component 5 corresponds to the position of the exploration drill 3, a drill deviation preventing part 6 is arranged between the exploration drill 3 and the dust removal cover 4, and the drill fixing seat 2 is in sliding fit with the drill deviation preventing part 6.

In this embodiment, when needs carry out geological exploration sample to required position, with drill bit fixing base 2 lapse, drive exploration drill bit 3 and move down, synchronous rotation exploration drill bit 3, explore the sample through exploration drill bit 3, in the lift in-process of drill bit fixing base 2, through the sliding fit between drill bit fixing base 2 and the drill bit anti-deviation piece 6, can avoid exploration drill bit 3 when the exploration sample, position and angular migration take place, the sampling point is accurate, in the exploration process, cover 4 that will remove dust moves down, make cover 4 that removes dust surround exploration drill bit 3, retrieve the subassembly 5 through dust absorption and can retrieve the produced a large amount of dusts when exploring, avoid the dust diffusion everywhere, reduce the pollution to the environment, the cleanliness of operational environment has been improved, and is comparatively environment-friendly.

Combine figure 1, fig. 2 to show, dust removal cover 4 be the tube-shape, dust adsorb retrieve subassembly 5 and include a plurality of dust suction fans 7 that set up in dust removal cover 4, drilling frame 1 on be equipped with a plurality of dust and precipitate water tank 8, dust suction fan 7 and dust precipitate and be equipped with between the water tank 8 and connect through dirt spare 9, the connection lead to dirt spare 9 and run through drilling frame 1, the connection lead to dirt spare 9 one end and dust suction fan 7 and link to each other, the other end deposits water tank 8 with the dust and links to each other.

Specifically speaking, in the exploration process, will remove dust and cover 4 descends, make the dust removal cover 4 to survey drill bit 3 and wrap, in the 3 working processes of exploration drill bit, start dust suction fan 7, the dust of surveying the in-process through dust suction fan 7 sucks, make the dust from connecting lead to dirt spare 9 and get into to dust precipitation water tank 8 in, the clear water has been placed in the dust precipitation water tank 8, the dust after will sucking lets in to dust precipitation water tank 8 in, subside the absorption to the dust, avoid the dust to spread everywhere, reduce the pollution to the environment, the cleanliness of operational environment has been improved, and is environment-friendly.

Combine fig. 1 to show, connection dirt piece 9 including set up the throat connecting block 10 on dust removal cover 4, throat connecting block 10 corresponding with the position of dust suction fan 7, throat connecting block 10 keep away from dust suction fan 7 one end and be connected with dust straw 11, dust straw 11 keep away from throat connecting block 10 one end and extend through to in the dust precipitation water tank 8.

In this embodiment, in the dust absorption process, suck the dust through dust suction fan 7, the dust can enter into dust precipitation water tank 8 through dust straw 11 in, carries out the dust and subsides, throat connecting block 10 plays the effect of connecting dust straw 11.

The drilling machine frame 1 is provided with a plurality of water tank fixing bottom plates 12, the dust settling water tank 8 is in clamping fit with the water tank fixing bottom plates 12, and the dust suction pipe 11 is a contraction pipe.

In this embodiment, water tank PMKD 12 is used for fixed dust to deposit water tank 8, and dust straw 11 is the shrink tube, covers 4 lift in-process at the dust removal, and dust straw 11 can carry out length variation, avoids dust straw 11 to break off.

Referring to fig. 2, the bottom of the dust removing cover 4 is provided with a plurality of inserting fixing rods 13 distributed in an annular array along the central point of the dust removing cover 4, and the bottoms of the inserting fixing rods 13 are in a conical shape.

In this embodiment, in the dust absorption in-process, move down dust removal cover 4 for in grafting dead lever 13 inserts to soil, fix dust removal cover 4, prevent that exploration in-process debris striking dust removal cover 4 back, dust removal cover 4 takes place the offset, fixed effect is better, and grafting dead lever 13 bottom is coniform, inserts more easily to soil in, it is fixed convenient.

Dust removal cover 4 top be equipped with a plurality of along the dust removal cover 4 central line symmetry can dismantle link 14, can dismantle link 14 and dust removal cover 4 looks spiro union, drilling frame 1 on be equipped with a plurality of first linear actuator 15 along drilling frame 1 central line symmetry, first linear actuator 15 the power shaft with can dismantle link 14 and link to each other.

In this embodiment, the detachable connecting frame 14 is used to connect the fixed dust-removing cover hood 4, the detachable connecting frame 14 is screwed with the dust-removing cover hood 4, and the detachable connecting frame is convenient to disassemble and assemble, and is easy to maintain, when the dust-removing cover hood 4 needs to be moved, the first linear driver 15 is started, and the detachable connecting frame 14 and the dust-removing cover hood 4 are driven by the power shaft of the first linear driver 15 to move.

Referring to fig. 1, a screw connection alignment top block 16 is arranged on the detachable connecting frame 14, and the dust removing cover hood 4 is in abutting fit with the screw connection alignment top block 16.

In this embodiment, when the dust removal cover 4 is fixedly installed, the dust removal cover 4 is abutted to the screw alignment ejector block 16, so that the installation accuracy is ensured, and the installation error is reduced.

Referring to fig. 1, the drill bit deviation preventing part 6 comprises an upper fixing plate 17 arranged between the exploration drill bit 3 and the dust removal cover 4, the upper fixing plate 17 is connected with the drilling machine frame 1 through a fastening bolt, a drill bit deviation preventing cylinder plate 18 is arranged at the bottom of the upper fixing plate 17, and the drill bit fixing seat 2 is in sliding fit with the drill bit deviation preventing cylinder plate 18.

In this embodiment, link to each other through fastening bolt between upper fixed plate 17 and the probing frame 1, make things convenient for the dismouting, at 2 lift in-process of drill bit fixing base, through the sliding fit between 2 and the drill bit anti-deflection cylinder board 18 of drill bit fixing base, can avoid exploration drill bit 3 when the exploration sample, take place position and angular deflection, the sampling point is accurate.

Referring to fig. 1, a circumferential rotator 19 is arranged in the drill fixing seat 2, and a rotation shaft of the circumferential rotator 19 is connected with the exploration drill 3.

In this embodiment, when the exploration is needed, the circumferential rotator 19 is started, and the exploration drill bit 3 is driven to rotate by the rotation shaft of the circumferential rotator 19 for exploration sampling.

Referring to fig. 1, a main driving seat 20 is provided at the bottom of the drilling machine frame 1, a second linear driver 21 is provided in the main driving seat 20, and a power shaft of the second linear driver 21 is connected to the drill fixing seat 2.

In this embodiment, the main driving seat 20 is used to install and fix the second linear actuator 21, when the drill fixing seat 2 needs to be lifted, the second linear actuator 21 is started, and the drill fixing seat 2 is driven to lift by the power shaft of the second linear actuator 21, and it should be understood by those skilled in the art that the second linear actuator 21 may be an air cylinder or an oil cylinder.

The working principle of the utility model is as follows:

when geological exploration sampling is required to be carried out on a required position, the second linear driver 21 is started, the drill bit fixing seat 2 is driven to move downwards through the power shaft of the second linear driver 21 to drive the exploration drill bit 3 to move downwards, the circumferential rotator 19 is started, the exploration drill bit 3 is driven to rotate through the rotating shaft of the circumferential rotator 19, exploration sampling is carried out through the exploration drill bit 3, in the lifting process of the drill bit fixing seat 2, through the sliding fit between the drill bit fixing seat 2 and the drill bit deflection preventing cylinder plate 18, the position and angle deviation of the exploration drill bit 3 during exploration sampling can be avoided, the sampling point is accurate,

in the exploration process, the first linear driver 15 is started, the power shaft of the first linear driver 15 drives the detachable connecting frame 14 and the dust removal cover hood 4 to move, the dust removal cover hood 4 moves downwards, the inserting fixing rod 13 is inserted into soil, the dust removal cover hood 4 is fixed, after sundries impact the dust removal cover hood 4 in the exploration process, the dust removal cover hood 4 is prevented from position deviation, the fixing effect is good, the bottom of the inserting fixing rod 13 is conical, the inserting fixing rod is more easily inserted into the soil, the fixing is convenient, the dust removal cover hood 4 is ensured to surround the exploration drill bit 3,

in the 3 working processes of exploration drill bit, start dust suction fan 7, the dust of fan 7 in with the exploration process of fan is sucked through the dust suction, make the dust from connecting lead to dirt spare 9 and get into to dust precipitation water tank 8 in, the clear water has been placed in the dust precipitation water tank 8, let in the dust after the suction to dust precipitation water tank 8 in, subside the absorption to the dust, avoid the dust to spread everywhere, reduce the pollution to the environment, the cleanliness of operational environment has been improved, comparatively environmental protection.

The supporting reinforcing block 14 is used to support and fix the driving mounting base 12 and the upper limb frame 8, and functions as a reinforcing structure, so as to be stable.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit of the utility model.

Although the terms of the drilling machine frame 1, the drill fixing seat 2, the exploration drill 3, the dust removal cover 4, the dust absorption and recovery assembly 5, the drill deviation prevention piece 6, the dust suction fan 7, the dust settling water tank 8, the connection dust passing piece 9, the necking connecting block 10, the dust suction pipe 11, the water tank fixing bottom plate 12, the insertion fixing rod 13, the detachable connecting frame 14, the first linear driver 15, the screw connection alignment top block 16, the upper fixing plate 17, the drill deviation prevention barrel plate 18, the circumferential rotator 19, the main driving seat 20, the second linear driver 21 and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims

1. The utility model provides a geological survey drilling equipment, includes probing frame (1), its characterized in that, probing frame (1) on be equipped with drill bit fixing base (2) of liftable, drill bit fixing base (2) bottom be equipped with rotatable exploration drill bit (3), probing frame (1) on still be equipped with dust removal cover (4) that can follow vertical direction reciprocating linear motion, exploration drill bit (3) be located inside dust removal cover (4), dust removal cover (4) in be equipped with dust and adsorb recovery subassembly (5), the dust adsorb the position of retrieving subassembly (5) and exploration drill bit (3) corresponding, exploration drill bit (3) and dust removal cover (4) between be equipped with the drill bit and prevent inclined to one side piece (6), drill bit fixing base (2) and drill bit prevent inclined to one side piece (6) sliding fit mutually.

2. A geological survey drilling apparatus according to claim 1, wherein said dust-removing cover hood (4) is cylindrical, said dust-adsorbing recovery assembly (5) comprises a plurality of dust-sucking fans (7) disposed in said dust-removing cover hood (4), said drilling machine frame (1) is provided with a plurality of dust-settling water tanks (8), said dust-sucking fans (7) and dust-settling water tanks (8) are connected by a connecting dust-connecting member (9), said connecting dust-connecting member (9) penetrates through the drilling machine frame (1), one end of said connecting dust-connecting member (9) is connected with said dust-sucking fans (7), and the other end is connected with said dust-settling water tanks (8).

3. A geological survey drilling apparatus as claimed in claim 2, wherein said dust-passing means (9) comprises a connection block (10) disposed on the dust-removing covering hood (4), said connection block (10) corresponding to the position of the dust-sucking fan (7), said connection block (10) being connected to a dust suction pipe (11) at the end away from the dust-sucking fan (7), said dust suction pipe (11) extending through the end away from the connection block (10) into the dust-settling water tank (8).

4. A geological survey drilling rig according to claim 3, characterized in that said drilling rig frame (1) is provided with a plurality of water tank mounting plates (12), said dust settling water tank (8) is snap-fitted with said water tank mounting plates (12), and said dust suction pipe (11) is a collapsible tube.

5. A geological survey drilling rig according to claim 4, characterized in that said dust-removing covering hood (4) is provided at its bottom with a plurality of fixing pins (13) arranged in a circular array along the center point of said dust-removing covering hood (4), said fixing pins (13) having a conical bottom.

6. A geological survey drilling device according to claim 5, characterized in that said dust-removing cover (4) is provided at the top with a plurality of detachable connection brackets (14) symmetrical along the center line of the dust-removing cover (4), said detachable connection brackets (14) are screwed with the dust-removing cover (4), said drilling machine frame (1) is provided with a plurality of first linear actuators (15) symmetrical along the center line of the drilling machine frame (1), the power shaft of said first linear actuators (15) is connected with the detachable connection brackets (14).

7. A geological survey drilling rig according to claim 6, characterized in that said detachable connection frame (14) is provided with a screw-threaded counterpoint top (16), and said dust-removing covering hood (4) is in abutting engagement with said screw-threaded counterpoint top (16).

8. A geological survey drilling device according to claim 7, characterized in that said bit deviation prevention member (6) comprises an upper fixing plate (17) disposed between the exploration bit (3) and the dust removing cover (4), said upper fixing plate (17) is connected to the drilling machine frame (1) by fastening bolts, a bit deviation prevention barrel plate (18) is disposed at the bottom of said upper fixing plate (17), and said bit fixing seat (2) is slidably fitted with the bit deviation prevention barrel plate (18).

9. A geological survey drilling device according to claim 8, characterized in that said bit holder (2) is provided with a circumferential rotator (19), the rotational axis of said circumferential rotator (19) being connected to the survey bit (3).

10. A geological survey drilling rig according to claim 9, characterized in that said drilling rig frame (1) is provided at its bottom with a main drive socket (20), said main drive socket (20) being provided with a second linear actuator (21), the power shaft of said second linear actuator (21) being connected to said bit holder (2).