CN114856554A

CN114856554A - Tombarthite mineral products exploration device

Info

Publication number: CN114856554A
Application number: CN202210197204.3A
Authority: CN
Inventors: 王小琳; 刘磊
Original assignee: Jiangxi College of Applied Technology
Current assignee: Jiangxi College of Applied Technology
Priority date: 2022-03-01
Filing date: 2022-03-01
Publication date: 2022-08-05

Abstract

The invention discloses a rare earth mineral exploration device which comprises a base, wherein a vertical plate is vertically and fixedly connected to the upper end surface of the base, a vertical groove is vertically formed in the side wall of the vertical plate, a driving mechanism is arranged in the vertical groove, a rotating rod is vertically connected to the output end of the driving mechanism, a limiting mechanism is arranged between the rotating rod and the base, a cylindrical barrel is rotatably sleeved at the lower end of the rotating rod through a one-way bearing, the lower end of the rotating rod extends into the cylindrical barrel, two horizontal barrels are horizontally and symmetrically fixedly inserted into the side wall of the cylindrical barrel, one end of the rotating rod, which is positioned in the cylindrical barrel, is positioned between the two horizontal barrels, and the end, which is far away from each other, of the two horizontal barrels is open. According to the invention, through the matching of the limiting mechanism and the driving mechanism, when the driving mechanism drives the rotating rod and the drill bit to move downwards, the rotating rod and the drill bit can be synchronously driven to rotate through the limiting mechanism, so that the ground drilling is carried out, the structure is compact, the occupied space and the manufacturing cost of equipment are reduced, and the energy is saved.

Description

Tombarthite mineral products exploration device

Technical Field

The invention relates to the technical field of mineral exploration devices, in particular to a rare earth mineral exploration device.

Background

Rare earth elements are called as industrial gold, and because the rare earth elements have excellent physical properties such as photoelectromagnetism and the like, the rare earth elements can form novel materials with various properties and varieties with other materials, and the rare earth elements can greatly improve the quality and the performance of other products, the rare earth elements are widely applied to the industrial fields such as petrochemical industry, metallurgy and the like.

The invention discloses a multifunctional geological mineral exploration detection device, which can collect an exploration target depth soil sample in the exploration and exploration work, shortens the exploration work workload, increases the work efficiency, adopts a plurality of motors to work in coordination, and has the advantages of high manufacturing cost, complex equipment operation flow and inconvenient maintenance and management.

Disclosure of Invention

The invention aims to solve the problem that the traditional rare earth mineral exploration device is complex to operate in the prior art, and provides the rare earth mineral exploration device.

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

the utility model provides a tombarthite mineral exploration device, includes the base, the vertical fixedly connected with riser of base up end, the riser lateral wall is vertical has seted up and has erected the groove, erect the inslot and be equipped with actuating mechanism, the vertical bull stick that is connected with of actuating mechanism's output, be equipped with stop gear between bull stick and the base, the bull stick lower extreme rotates the cover through one-way bearing and is equipped with a cylinder, and the bull stick lower extreme extends to inside the cylinder, cylinder lateral wall level symmetry is fixed to be inserted and is equipped with two horizontal cylinders, and the bull stick is located a cylinder one end and is located between two horizontal cylinders, two the one end that the horizontal cylinder was kept away from each other is the open-type, every the horizontal cylinder all communicates with the external world through corresponding the opening, horizontal cylinder lower extreme level fixed mounting has first permanent magnetism piece, every equal horizontal sliding connection has the second permanent magnetism piece in the horizontal cylinder, every the second permanent magnetism piece is close to all the level between the side of first permanent magnetism piece and the corresponding horizontal cylinder inner wall and is equipped with again And each horizontal cylinder is internally provided with a control mechanism matched with the corresponding second permanent magnet, and the lower end of the cylindrical cylinder is vertically and fixedly connected with a drill bit.

Furthermore, a plurality of universal wheels are uniformly and fixedly connected to the lower end face of the base, and a plurality of hydraulic rods are vertically and uniformly fixedly connected to the lower end face of the base.

Further, actuating mechanism is including erecting the vertical ball that rotates the installation in the inslot, riser up end fixed mounting has driving motor, driving motor's output shaft extend to erect inslot and with the coaxial fixed connection of ball, the threaded sleeve is equipped with screw nut on the ball, and the bull stick upper end is connected with screw nut rotates.

Further, stop gear includes the fixed plate of the horizontal fixed connection of base lateral wall, run through on the fixed plate and seted up perpendicular hole, rotate through spacing bearing in the perpendicular hole and install the rotating tube, a plurality of spacing grooves have evenly been seted up to the rotating tube inner wall, a plurality of stoppers of the even vertical fixedly connected with of rotating rod perisporium, every the stopper all with the vertical sliding connection of the spacing groove that corresponds.

Furthermore, the lower end of the ball screw and the rotating pipe are respectively provided with a driving wheel in interference fit, and the two driving wheels are sleeved with a driving belt together.

Further, each control mechanism comprises a sliding block, the second permanent magnet blocks are far away from the first permanent magnet blocks, one end of each sliding block is horizontally and fixedly connected with the corresponding sliding block, each sliding block is connected with the inner wall of the corresponding horizontal cylinder in a sealing and sliding mode, and a through hole is vertically formed between the inner wall of the horizontal cylinder and the lower end face.

Further, a channel is horizontally penetrated through the side wall of the cylindrical barrel and located below the horizontal barrels, a sampling box with an open upper end face is movably connected to the horizontal surface in the channel and located below the through holes, and sealing and fixedly connected with sealing plates can be detached from openings at two ends of the channel.

Furthermore, two magnetic poles of the first permanent magnet and the two second permanent magnets are distributed along the horizontal direction, and a limiting ring matched with the sliding block is fixedly connected to the opening of each horizontal cylinder.

The invention has the advantages that:

1: according to the invention, through the matching of the limiting mechanism and the driving mechanism, when the driving mechanism drives the rotating rod and the drill bit to move downwards, the rotating rod and the drill bit can be synchronously driven to rotate through the limiting mechanism, so that the ground drilling is carried out, the structure is compact, the occupied space and the manufacturing cost of equipment are reduced, and the energy is saved.

2: according to the invention, through the matching of the control mechanism, the first permanent magnet and the second permanent magnet, the opening and the closing of the through hole can be controlled, when the drill bit is not moved down to the designated position, the through hole is always in the closed state, so that the sample can be prevented from being polluted, and only when the drill bit reaches the designated position, the through hole can be opened, so that the sampling is carried out, the sample quality is high, no additional power equipment is required to participate, the energy is further saved, meanwhile, the manual control is not required, the automation degree is high, and the operation is simple.

3: according to the invention, the passage, the sampling box and the sealing plate are arranged, and the sampling box, the sealing plate and the cylindrical barrel are detachably mounted, so that the sampling box is convenient to take and mount, and the sample is convenient to take and use.

Drawings

FIG. 1 is a schematic structural view of a rare earth mineral exploration apparatus according to the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a schematic view showing an internal structure of a transition pipe in the rare earth mineral exploration apparatus according to the present invention;

FIG. 4 is a schematic view showing an internal structure of a cylindrical barrel in the rare earth mineral exploration apparatus according to the present invention;

fig. 5 is an enlarged view of a portion a in fig. 4.

In the figure: the device comprises a base 1, universal wheels 2, vertical plates 3, vertical grooves 4, ball screws 5, a driving motor 6, a screw nut 7, a rotating rod 8, a fixing plate 9, a rotating pipe 10, a limiting bearing 11, a limiting groove 12, a limiting block 13, a driving wheel 14, a driving belt 15, a cylindrical barrel 16, a drill bit 17, a unidirectional bearing 18, a first permanent magnet 19, a horizontal barrel 20, a sampling box 26, a sealing plate 27 and a hydraulic rod 28.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments

Referring to fig. 1-5, a rare earth mineral exploration device comprises a base 1, wherein a vertical plate 3 is vertically and fixedly connected to the upper end surface of the base 1, a vertical groove 4 is vertically formed in the side wall of the vertical plate 3, a driving mechanism is arranged in the vertical groove 4, an output end of the driving mechanism is vertically connected with a rotating rod 8, a limiting mechanism is arranged between the rotating rod 8 and the base 1, the lower end of the rotating rod 8 is rotatably sleeved with a cylindrical barrel 16 through a one-way bearing 18, the lower end of the rotating rod 8 extends into the cylindrical barrel 16, the one-way bearing 18 has one-way locking property, namely, when the rotating rod 8 rotates towards one direction, the rotating rod 8 is locked and fixed with the cylindrical barrel 16 through the one-way bearing 18, when the rotating rod 8 rotates towards the other direction, the rotating rod 8 is rotatably connected with the one-way bearing 18, and the rotating rod 8 can not drive the cylindrical barrel 16 to rotate through the one-way bearing 18 (the working principle and the structure of the one-way bearing 18 are the prior art, not repeated herein), two horizontal cylinders 20 are horizontally and symmetrically inserted into the side wall of the cylindrical cylinder 16, the rotating rod 8 is located in the cylindrical cylinder 16, one end of the rotating rod is located between the two horizontal cylinders 20, the ends, far away from each other, of the two horizontal cylinders 20 are both open, each horizontal cylinder 20 is communicated with the outside through a corresponding opening, the opening of each horizontal cylinder 20 is flush with the peripheral wall of the cylindrical cylinder 16, a first permanent magnet 19 is horizontally and fixedly mounted at the lower end of the horizontal cylinder 20, a second permanent magnet 22 is horizontally and slidably connected in each horizontal cylinder 20, a return spring 21 is horizontally arranged between one side face, close to the first permanent magnet 19, of each second permanent magnet 22 and the inner wall of the corresponding horizontal cylinder 20, a control mechanism matched with the corresponding second permanent magnet 22 is arranged in each horizontal cylinder 20, and a drill bit 17 is vertically and fixedly connected at the lower end of the cylindrical cylinder 16.

The even a plurality of universal wheels of fixedly connected with of terminal surface 2 under base 1 can conveniently remove this equipment to corresponding work area through universal wheel 2, and a plurality of hydraulic stems 28 of the even vertical fixedly connected with of terminal surface under base 1 when hydraulic stem 28 is elongated, can lift up this equipment and adjust the horizontality of this equipment through a plurality of hydraulic stems 28, and hydraulic stem 28 shortens the state and can not lead to the fact the hindrance to the removal of base 1.

The driving mechanism comprises a vertical ball screw 5 which is installed in a vertical groove 4 in a rotating mode, a driving motor 6 is fixedly installed on the upper end face of a vertical plate 3, an output shaft of the driving motor 6 extends into the vertical groove 4 and is fixedly connected with the ball screw 5 in a coaxial mode, a screw nut 7 is sleeved on the ball screw 5 in a threaded mode, and the upper end of a rotating rod 8 is rotatably connected with the screw nut 7.

Stop gear includes 1 lateral wall horizontal fixed connection's of base fixed plate 9, run through on the fixed plate 9 and seted up perpendicular hole, it rotates through spacing bearing 11 and installs the commentaries on classics pipe 10 to erect downthehole, a plurality of spacing grooves 12 have evenly been seted up to commentaries on classics pipe 10 inner wall, a plurality of stoppers 13 of the even vertical fixedly connected with of 8 perisporium of bull stick, every stopper 13 all with the vertical sliding connection of the spacing groove 12 that corresponds, then under stopper 13 and spacing groove 12's cooperation, when commentaries on classics pipe 10 rotates, commentaries on classics pipe 10 can drive 8 synchronous rotations of bull stick.

All interference fit has drive wheel 14 on ball 5 lower extreme and the rotating tube 10, and two common covers are equipped with drive belt 15 on drive wheel 14, then rotate as ball 5, through the transmission of drive wheel 14 and drive belt 15, rotating tube 10 and ball 5 synchronous rotation.

Each control mechanism comprises a slide block 23, one end of each second permanent magnet 22, which is far away from the first permanent magnet 19, is horizontally and fixedly connected with the slide block 23, each slide block 23 is in sealing sliding connection with the inner wall of the corresponding horizontal barrel 20, a through hole 25 is vertically formed between the inner wall of each horizontal barrel 20 and the lower end surface, the two magnetic poles of the first permanent magnet 19 and the two second permanent magnets 22 are distributed along the horizontal direction, when the first permanent magnet 19 rotates along with the rotating rod 8, magnetic repulsion force and magnetic attraction force alternately occur between the first permanent magnet 19 and the two second permanent magnets 22, so the second permanent magnets 22 drive the corresponding slide blocks 23 to do reciprocating motion in the corresponding horizontal barrel 20 along the horizontal direction, and when the second permanent magnets 22 move towards the direction close to the first permanent magnets 19 under the action of the magnetic attraction force of the first permanent magnets 19, the second permanent magnets 22 drive the slide blocks 23 to compress the return springs 21, the slide blocks 23 are separated from the corresponding through holes 25, the opening of each horizontal cylinder 20 is fixedly connected with a limiting ring 24 matched with the sliding block 23, and the corresponding sliding block 23 can be prevented from slipping off from the horizontal cylinder 20 through the limiting ring 24.

16 lateral wall levels of cylinder section of thick bamboo run through and have seted up the passageway, and the passageway is located a plurality of horizontal barrels 20 below, horizontal sliding connection has the open sampling box 26 that is used for depositing the ore soil sample of up end in the passageway, and sampling box 26 is located under a plurality of through-holes 25, all can dismantle sealed fixedly connected with closing plate 27 in the both ends opening of passageway, all be equipped with the buckle between every closing plate 27 and the 16 perisporium of cylinder section of thick bamboo, can conveniently install closing plate 27 through the buckle, dismantle.

When the device is used, the device is firstly moved to a corresponding working area through the universal wheel 2, then the plurality of hydraulic rods 28 are started to lift the base 1, the heights of the plurality of hydraulic rods 28 are sequentially adjusted to keep the base 1 horizontal, then the driving motor 6 is started, the driving motor 6 drives the ball screw 5 to rotate, the ball screw 5 drives the screw nut 7 to move downwards along the vertical direction, the screw nut 7 drives the rotating rod 8 to synchronously move downwards, meanwhile, the ball screw 5 drives the driving wheel 14 fixedly connected with the ball screw 5 to rotate, the rotating pipe 10 and the ball screw 5 synchronously rotate under the transmission of the driving wheel 14 and the driving belt 15, the rotating pipe 10 drives the rotating rod 8 to synchronously rotate under the limiting action of the limiting block 13 and the limiting groove 12, the rotating rod 8 drives the cylindrical barrel 16 and the drill bit 17 to synchronously rotate under the action of the one-way bearing 18, and the drill bit 17 moves downwards and rotates along with the drill bit 17, the soil can be drilled, in the process, as the rotating rod 8 and the cylindrical barrel 16 rotate synchronously, the rotating rod 8 and the cylindrical barrel 16 are relatively static, as shown in fig. 4 and 5, at the moment, the first permanent magnet block 19 and the two second permanent magnet blocks 22 are homopolar and opposite, under the action of the magnetic repulsion force of the first permanent magnet block 19 and the second permanent magnet blocks 22, the second permanent magnet blocks 22 drive the corresponding sliding blocks 23 to abut against the corresponding limiting rings 24 and stretch the corresponding return springs 21, and each sliding block 23 seals the corresponding through holes 25, so that the mineral soil in the soil can be prevented from entering the sampling box 26 in the process of downward movement of the drill 17;

after the drill 17 drills to a designated position, the driving motor 6 is started reversely, the driving motor 6 drives the ball screw 5 to rotate reversely, the screw nut 7 drives the rotating rod 8, the cylindrical barrel 16 and the drill 17 to ascend under the matching of the ball screw 5 and the screw nut 7, meanwhile, under the matching of the transmission wheel 14 and the transmission belt 15, the ball screw 5 drives the rotating pipe 10 and the rotating rod 8 to rotate reversely, under the action of the one-way bearing 18, the rotating rod 8 cannot drive the cylindrical barrel 16 to rotate, the rotating rod 8 rotates relative to the cylindrical barrel 16, the rotating rod 8 drives the first permanent magnet 19 to rotate, along with the rotation of the first permanent magnet 19, magnetic repulsion force and magnetic attraction force alternately occur between the first permanent magnet 19 and the second permanent magnet 22, under the action of magnetic force between the first permanent magnet 19 and the second permanent magnet 22, the second permanent magnet 22 drives the corresponding sliding block 23 to reciprocate in the corresponding horizontal barrel 20 along the horizontal direction, when the first permanent magnet 19 and the second permanent magnet 22 attract each other, the second permanent magnet 22 drives the corresponding sliding block 23 to move towards the first permanent magnet 19 and compress the corresponding return spring 21, the sliding block 23 unblocks the corresponding through hole 25, the mineral soil in the external land sequentially passes through the horizontal cylinder 20 and the through hole 25 to enter the cylindrical cylinder 16 and fall into the sampling box 26, then the driving motor 6 is closed after the drill 17 and the cylindrical cylinder 16 are lifted to the ground, a worker can open a buckle between the cylindrical cylinder 16 and the sealing plate 27 to separate the sealing plate 27 from the cylindrical cylinder 16, so that the sampling box 26 in the cylindrical cylinder 16 can be conveniently taken out, the sampling of the mineral soil at a specified position is completed, and the reciprocating operation is realized, the device integrates drilling and sampling, samples of the mineral soil at different depths can be taken out in the specified area, and the workload of exploration work is reduced, the efficiency of work has been increased, and degree of automation is high, need not the work of extra power equipment, and the energy saving is also comparatively simple to operate, excellent in use effect.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A rare earth mineral exploration device comprises a base (1) and is characterized in that a vertical plate (3) is vertically and fixedly connected to the upper end face of the base (1), a vertical groove (4) is vertically formed in the side wall of the vertical plate (3), a driving mechanism is arranged in the vertical groove (4), an output end of the driving mechanism is vertically connected with a rotating rod (8), a limiting mechanism is arranged between the rotating rod (8) and the base (1), a cylindrical barrel (16) is rotatably sleeved at the lower end of the rotating rod (8) through a one-way bearing (18), the lower end of the rotating rod (8) extends into the cylindrical barrel (16), two horizontal barrels (20) are horizontally and symmetrically inserted into the side wall of the cylindrical barrel (16), one end of the rotating rod (8) located in the cylindrical barrel (16) is located between the two horizontal barrels (20), and the two ends, far away from each other, of the two horizontal barrels (20) are both open, every horizontal cylinder (20) all communicates with the external world through corresponding the opening, horizontal cylinder (20) lower extreme level fixed mounting has first permanent magnetism piece (19), every equal horizontal sliding connection has second permanent magnetism piece (22) in horizontal cylinder (20), every second permanent magnetism piece (22) are close to between the side of first permanent magnetism piece (19) and the corresponding horizontal cylinder (20) inner wall equal level be equipped with reset spring (21), every be equipped with in horizontal cylinder (20) and correspond second permanent magnetism piece (22) complex control mechanism, the vertical fixedly connected with drill bit (17) of cylinder (16) lower extreme.

2. The rare earth mineral exploration device according to claim 1, wherein a plurality of universal wheels (2) are uniformly and fixedly connected to the lower end surface of said base (1), and a plurality of hydraulic rods (28) are uniformly and vertically fixedly connected to the lower end surface of said base (1).

3. The rare earth mineral exploration device of claim 1, wherein said driving mechanism comprises a ball screw (5) vertically and rotatably installed in a vertical groove (4), a driving motor (6) is fixedly installed on the upper end face of said vertical plate (3), the output shaft of said driving motor (6) extends into said vertical groove (4) and is coaxially and fixedly connected with said ball screw (5), a screw nut (7) is sleeved on the upper thread of said ball screw (5), and the upper end of said rotating rod (8) is rotatably connected with said screw nut (7).

4. The rare earth mineral exploration device of claim 3, wherein said limiting mechanism comprises a fixing plate (9) horizontally and fixedly connected with the side wall of the base (1), a vertical hole is formed in the fixing plate (9) in a penetrating manner, a rotating pipe (10) is rotatably mounted in the vertical hole through a limiting bearing (11), a plurality of limiting grooves (12) are uniformly formed in the inner wall of the rotating pipe (10), a plurality of limiting blocks (13) are uniformly and vertically fixedly connected with the peripheral wall of the rotating rod (8), and each limiting block (13) is vertically and slidably connected with the corresponding limiting groove (12).

5. A rare earth mineral exploration device according to claim 4, wherein driving wheels (14) are in interference fit with the lower end of the ball screw (5) and the rotating pipe (10), and a driving belt (15) is sleeved on the two driving wheels (14) together.

6. The rare earth mineral exploration device according to claim 1, wherein each control mechanism comprises a slide block (23) which is horizontally and fixedly connected with one end, far away from the first permanent magnet (19), of the second permanent magnet (22), each slide block (23) is in sliding connection with the inner wall of the corresponding horizontal cylinder (20) in a sealing manner, and a through hole (25) is vertically formed between the inner wall and the lower end face of each horizontal cylinder (20).

7. The rare earth mineral exploration device according to claim 6, wherein a channel is horizontally formed through the side wall of the cylindrical barrel (16), the channel is located below the plurality of horizontal barrels (20), a sampling box (26) with an open upper end surface is horizontally and movably connected in the channel, the sampling box (26) is located right below the plurality of through holes (25), and sealing plates (27) are detachably, hermetically and fixedly connected in openings at two ends of the channel.

8. The rare earth mineral exploration device according to claim 1, wherein two magnetic poles of said first permanent magnet (19) and said two second permanent magnets (22) are distributed along a horizontal direction, and a limit ring (24) matched with a slide block (23) is fixedly connected to an opening of each horizontal cylinder (20).