CN114542917A

CN114542917A - Ore composition detection device

Info

Publication number: CN114542917A
Application number: CN202210145622.8A
Authority: CN
Inventors: 罗继锋; 何绒
Original assignee: Lanzhou Mineral Exploration Institute Of Gansu Nonferrous Metal Geological Exploration Bureau
Current assignee: Lanzhou Mineral Exploration Institute Of Gansu Nonferrous Metal Geological Exploration Bureau
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2022-05-27
Anticipated expiration: 2042-02-17
Also published as: CN114542917B

Abstract

The invention discloses an ore composition detection device, which structurally comprises a moving frame, a wind-up roll, a rope, a pulley and a stabilizing mechanism, wherein the wind-up roll is arranged in the middle of the upper end of the moving frame, the wind-up roll is wound with the head end of the rope, an inner ring torquer drives a connecting frame to keep horizontal, a connecting transverse plate and the connecting frame are kept horizontally balanced and descend through connecting support of a support rod, the detection mechanism is ensured to descend stably in an ore hole, a telescopic detector is prevented from colliding with the inner wall of the ore hole in the descending process, an electromagnetic block is electrified to generate magnetic adsorption on a sliding block, the sliding block slides in a sliding groove, the detection head pushes an opening and closing plate outwards through linkage of the linkage rod, the detection head extends out of the inner part of a shell to detect ore compositions, the electromagnetic block is powered off, and a spring rod exerts elasticity, the detection head is driven to extend into the shell, and the detection head is protected.

Description

Ore composition detection device

Technical Field

The invention relates to the field of ore detection, in particular to an ore component detection device.

Background

The ore is a mineral aggregate from which useful components can be extracted or which has a certain property that can be utilized, the ore is drilled in the ore, the ore component detection device is lifted, the ore component detection device is placed in the hole of the ore by the elevator to detect the components in the ore, but the ore component detection device is lifted on the elevator and has a certain weight, so that the ore component detection device is easy to shake on a rope of the elevator and is difficult to stably descend in the process of descending in the hole, the ore component detection device collides with the inner wall of the ore hole, a detection head on the ore component detection device is damaged, and the ore component detection device is difficult to stably rotate after being descended into the ore hole, the comprehensiveness of detecting the internal components of the ore is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the ore composition detection device structurally comprises a moving frame, a winding roller, a rope, a pulley and a stabilizing mechanism, wherein the winding roller is arranged in the middle of the upper end of the moving frame, the winding roller is wound with the head end of the rope, the tail end of the rope is wound with the stabilizing mechanism, the rope is in sliding connection with the pulley, the pulley is arranged at the upper right end of the moving frame, the stabilizing mechanism comprises a connecting frame, a rotating mechanism, balls, a supporting rod and a detection mechanism, the upper end of the connecting frame is wound with the tail end of the rope, the rotating mechanism is arranged in the connecting frame, the outer side end of the rotating mechanism is provided with the balls, the balls are arranged in the outer side end of the connecting frame in a clearance fit manner, the balls are welded with the supporting rod, the lower end of the supporting rod is arranged in the upper end of the outer side of the detection mechanism in a clearance fit manner, the number of the balls is four, the number of the supporting rods is two balls are in one group, the ball bearings at the lower end of the supporting rod are arranged inside the upper end of the detection mechanism in a clearance fit mode.

As a further improvement of the invention, the rotating mechanism comprises a rotor, an inner ring torquer, an outer ring and an outer ring torquer, wherein the rotor is arranged at the inner side of the inner ring torquer, the inner ring torquer is fixedly arranged at the middle part of the outer ring, the inner ring torquer is arranged in the connecting frame in a clearance fit manner, the outer ring torquer is arranged at the middle end of the outer side of the outer ring, the outer ring torquer is fixed with the balls, the inner ring torquer and the outer ring torquer are respectively provided with two, the two inner ring torquers are vertically symmetrically arranged at the middle parts of the upper end and the lower end of the outer ring, and the two outer ring torquers are horizontally symmetrically arranged at the middle parts of the left end and the right end of the outer ring.

As a further improvement of the invention, the detection mechanism comprises a connecting transverse plate, a motor, a rotating shaft, a guide rod, a rotating disc and a telescopic detector, wherein the lower end of the support rod is arranged inside the upper end of the outer side of the connecting transverse plate in a clearance fit manner, the motor is arranged at the middle end inside the upper end of the connecting transverse plate, the output end of the motor and the rotating shaft synchronously rotate, the rotating shaft is fixed with the middle end inside the rotating disc, the lower end of the guide rod is arranged inside the upper end of the rotating disc in a clearance fit manner, the upper end of the rotating disc is arranged inside the middle end inside the bottom of the connecting transverse plate in a clearance fit manner, the lower end of the rotating disc is fixed with the top of the telescopic detector, the rotating disc is of a hollow circular truncated cone-shaped structure with a narrow upper end, and an inclined clearance with a high inner bottom and a high outer side is formed between the connecting transverse plate and the rotating disc.

As a further improvement of the invention, the telescopic detector comprises a shell, a transmission chip, a winding roll, a pushing mechanism, a protection mechanism and a data wire, wherein the transmission chip is arranged in the shell and is electrically connected with the pushing mechanism through the data wire, the data wire is wound in the winding roll, the right end of the pushing mechanism is abutted against the inner side of the protection mechanism, the protection mechanism is embedded in the middle end of the inner part of the right side of the shell, and a spiral spring piece is arranged in the winding roll.

As a further improvement of the invention, the pushing mechanism comprises a sliding groove, a spring rod, an electromagnetic block, a sliding block, a linkage rod and a detection head, wherein the sliding groove is fixedly arranged in the shell, the spring rod is arranged in the sliding groove, the electromagnetic block is arranged at the right end of the spring rod, the sliding block is slidably arranged in the sliding groove, the spring rod penetrates through the sliding block in a clearance fit manner, the sliding block is hinged with one end of the linkage rod, the other end of the linkage rod is hinged with the outer side of the left end of the detection head, the right end of the detection head is abutted against the inner side of the protection mechanism, the sliding groove, the spring rod, the electromagnetic block, the sliding block and the linkage rod are arranged in a vertically symmetrical manner, and the two linkage rods are respectively hinged with the upper end and the lower end of the left side of the detection head.

As a further improvement of the invention, the protection mechanism comprises a limiting rotary groove, a torsion shaft and an opening and closing sheet, the limiting rotary groove is embedded in the right side of the shell, the limiting rotary groove is hinged with the outer side end of the opening and closing sheet through the torsion shaft, the left side end surface of the opening and closing sheet is abutted against the right end of the detection head, the limiting rotary groove, the torsion shaft and the opening and closing sheet are arranged in a vertically symmetrical mode, and the limiting rotary groove is abutted against the left side of the opening and closing sheet.

The invention has the beneficial effects that:

1. the gravity through the rotor self rotates, and the inner ring torquer drives the link and keeps the level, through the joint support of bracing piece for connecting diaphragm and link and keeping the level balance and descend, ensure that detection mechanism carries out steady decline inside the ore hole, prevent to descend in-process flexible detector and ore hole inner wall bump, the motor drives the rolling disc and carries out steady rotation, thereby make flexible detector rotate inside the ore hole and detect comprehensively.

2. Get electricity through the electromagnetism piece, produce magnetic adsorption to the sliding block, at this moment the sliding block slides at the sliding tray, interlock through the trace, the detection head carries out outer top to the switching piece, at this moment the switching piece rotates downwards round the torsion shaft of upper end and opens, then it stretches out inside the shell to detect the head, detect the ore composition, through the outage of electromagnetism piece, elasticity is applyed to the spring beam at this moment for the sliding block slides that resets, it stretches into inside the shell to drive the detection head, play the effect of protection to detecting the head.

Drawings

Fig. 1 is a schematic structural diagram of an ore component detection apparatus according to the present invention.

Fig. 2 is a schematic view of the internal structure of a smoothing mechanism according to the present invention.

Fig. 3 is a schematic perspective view of a rotating mechanism according to the present invention.

FIG. 4 is a schematic diagram of a detecting mechanism and a partial top view enlarged structure according to the present invention.

Fig. 5 is a schematic diagram of an internal structure of a telescopic detector according to the present invention.

Fig. 6 is a schematic structural view of a pushing mechanism of the present invention.

Fig. 7 is a schematic view of a protection mechanism according to the present invention and a partial enlarged structure.

In the figure: moving frame-A, winding roller-C, rope-E, pulley-V, stabilizing mechanism-S, connecting frame-S1, rotating mechanism-S3, ball-S6, support rod-S8, detecting mechanism-S4, rotor-3C, inner ring torquer-3 a, outer ring-3 h, outer ring torquer-3 d, connecting transverse plate-44, motor-46, rotating shaft-4 a, guide rod-4 w, rotating disc-41, telescopic detector-4 d, shell-d 2, transmission chip-d 4, winding disc-d 6, pushing mechanism-d 1, protecting mechanism-d 9, data line-d 3, sliding groove-d 1z, spring rod-d 1a, electromagnetic block-d 1C, sliding block-d 1S, linkage rod-d 1f, connecting frame-S8956, connecting frame-S1, rotating mechanism-S3, rotating shaft-4 w, guide rod-4 w, rotating disc-41, telescopic detector-d 2, transmission chip-d 4, winding disc-d 6, pushing mechanism-d 1, protecting mechanism-d 9, data line-d 3, sliding groove-d 1z, spring rod-d a, electromagnetic block-d 1C, and connecting rod-d f, A detection head-d 1q, a limit rotary groove-9 q, a torsion shaft-9 x and an opening and closing sheet-9 f.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to an ore component detection device, which structurally comprises a moving frame A, a winding roller C, a rope E, a pulley V and a stabilizing mechanism S, wherein the winding roller C is arranged in the middle of the upper end of the moving frame A, the winding roller C is wound with the head end of the rope E, the tail end of the rope E is wound with the stabilizing mechanism S, the rope E is connected with the pulley V in a sliding mode, the pulley V is arranged at the right upper end of the moving frame A, the stabilizing mechanism S comprises a connecting frame S1, a rotating mechanism S3, a ball S6, a supporting rod S8 and a detection mechanism S4, the upper end of the connecting frame S1 is wound with the tail end of the rope E, the rotating mechanism S3 is arranged inside the connecting frame S1, the outer side end of the rotating mechanism S3 is provided with the ball S6, the ball S6 is arranged inside the outer side end of the connecting frame S1 in a clearance fit mode, the ball S6 is welded with the supporting rod S8, the lower end of the supporting rod S8 is arranged inside the outer side upper end of the detection mechanism S4 in a clearance fit mode, the number of the balls S6 is four, the number of the supporting rods S8 is two, the two balls S6 form a group and are respectively arranged at the upper end and the lower end of the supporting rod S8, the balls S6 at the lower end of the supporting rod S8 are arranged inside the upper end of the detecting mechanism S4 in a clearance fit mode, and the two balls S6 rotate stably, so that the supporting rod S8 keeps balance between the detecting mechanism S4 and the connecting frame S1.

Wherein, the rotating mechanism S3 comprises a rotor 3c, an inner ring torquer 3a, an outer ring 3h and an outer ring torquer 3d, the rotor 3c is arranged at the inner side of the inner ring torquer 3a, the inner ring torquer 3a is fixedly arranged in the middle of the outer ring 3h, the inner ring torquer 3a is arranged in the connecting frame S1 by clearance fit, the outer ring torquer 3d is arranged at the middle end of the outer side of the outer ring 3h, and the outer ring torquer 3d is fixed with the ball S6, two inner ring torquers 3a and two outer ring torquers 3d are provided, two inner ring torquers 3a are vertically and symmetrically arranged in the middle of the upper and lower ends of the outer ring 3h, two outer ring torquers 3d are horizontally and symmetrically arranged in the middle of the left and right ends of the outer ring 3h, gravity rotation balance is carried out through a rotor 3c, thereby rapidly driving the outer ring 3h to reach a balanced state and ensuring that the connecting frame S1 keeps descending horizontally and stably.

Wherein, the detecting mechanism S4 includes connecting transverse plate 44, motor 46, pivot 4a, guide bar 4w, rotating disc 41, flexible detector 4d, the lower extreme of branch S8 adopts clearance fit to install inside connecting transverse plate 44 outside upper end, the motor 46 is installed in connecting transverse plate 44 upper end inside middle-end, the motor 46 output rotates with pivot 4a synchronously, and pivot 4a is fixed with rotating disc 41 inboard middle-end, the lower extreme of guide bar 4w adopts clearance fit to install inside rotating disc 41 upper end, and rotating disc 41 upper end adopts clearance fit to install inside connecting transverse plate 44 bottom middle-end, the lower extreme of rotating disc 41 is fixed with flexible detector 4d top mutually, rotating disc 41 is the narrow cavity round platform type structure in upper and lower, connect and form the high inclined clearance in the inboard bottom outside between connecting transverse plate 44 and the rotating disc 41, thereby avoid inside tiny ore in ore hole to enter into and connect diaphragm 44 inside, ensure that motor 46 drives rolling disc 41 and carries out steady rotation to make flexible detector 4d rotate inside the ore hole and detect comprehensively.

The specific use mode and function of the embodiment are as follows:

in the invention, the rope E is unreeled through the reeling roller C, the sliding smoothness of the rope E is improved through the pulley V, so that the rope E drives the stabilizing mechanism S to descend in the ore hole, in the descending process, the rope E is wound and connected with the upper end of the connecting frame S1, the inner ring torquer 3a drives the outer ring 3h to quickly reach a stable state through the self gravity rotation of the rotor 3C, meanwhile, the inner ring torquer 3a drives the connecting frame S1 to be kept horizontal, when the outer ring torquer 3d at the left end and the right end of the outer ring 3h reach balance, the balls S6 perform balanced rotation on the outer sides of the two ends of the connecting frame S1, the balls S6 at the lower end of the supporting rod S8 are connected and supported by the supporting rod S8, and the balls S6 at the lower end of the supporting rod S8 rotate on the connecting transverse plate 44 in a balanced manner, so that the connecting transverse plate 44 and the connecting frame S1 keep horizontal balance and descend, and the detecting mechanism S4 can descend stably in the ore hole, prevent to descend flexible detector 4d of in-process and ore hole inner wall to bump, the starter motor 46 drives pivot 4a to rotate after descending, at this moment the rolling disc 41 is following the rotation, under the direction of guide bar 4w, ensure that rolling disc 41 wholly carries out steady rotation, connect simultaneously and connect between diaphragm 44 and the rolling disc 41 and form the high slope clearance in the inboard end outside, thereby avoid inside tiny ore in ore hole to enter into and connect inside diaphragm 44, ensure that motor 46 drives rolling disc 41 and carry out steady rotation, thereby make flexible detector 4d rotate comprehensive detection to ore hole inside.

Example 2:

as shown in fig. 5 to 7:

the telescopic detector 4d comprises a shell d2, a transmission chip d4, a winding roll d6, a pushing mechanism d1, a protection mechanism d9 and a data line d3, wherein the transmission chip d4 is arranged inside the shell d2, the transmission chip d4 is electrically connected with the pushing mechanism d1 through the data line d3, the data line d3 is wound inside the winding roll d6, the right end of the pushing mechanism d1 is abutted to the inner side of the protection mechanism d9, the protection mechanism d9 is embedded at the middle end inside the right side of the shell d2, a spiral spring piece is arranged inside the winding roll d6, and the winding roll d6 automatically unreels the data line d3 through the rotation torque force generated by the spring piece, so that the data line d3 is ensured to be extended and contracted, and normal data transmission work is performed between the transmission chip d4 and the pushing mechanism d 1.

Wherein the pushing mechanism d1 comprises a sliding groove d1z, a spring rod d1a, a magnet block d1c, a sliding block d1s, an interlocking rod d1f and a detection head d1q, the sliding groove d1q is fixedly installed inside the housing d q, the spring rod d1q is installed inside the sliding groove d1q, the magnet block d1q is installed at the right end of the spring rod d1q, the sliding block d1q is installed inside the sliding groove d1q in a sliding manner, the spring rod d1q penetrates through the sliding block d1q in a clearance fit manner, the sliding block d1q is hinged with one end of the interlocking rod d1q, the other end of the interlocking rod d1q is hinged with the outer side of the left end of the detection head d1q, the right end of the detection head d1q is in contact with the inner side of the sliding groove d q, the sliding groove d1, the spring rod d1q, the magnet block d1q, the interlocking rod d1 and the detection head d q are installed symmetrically, and the two interlocking rods q are installed symmetrically, and the two interlocking heads are installed symmetrically, the ore components are detected by extending out of the inside of the shell d2, and the detection head d1q can be protected by retracting into the inside of the shell d2, so that the detection head d1q is prevented from being impacted.

The protection mechanism d9 comprises a limiting rotary groove 9q, a torsion shaft 9x and an opening and closing sheet 9f, the limiting rotary groove 9q is embedded inside the right side of the shell d2, the limiting rotary groove 9q is hinged to the outer side end of the opening and closing sheet 9f through the torsion shaft 9x, the left side end face of the opening and closing sheet 9f is abutted to the right end of the detection head d1q, the limiting rotary groove 9q, the torsion shaft 9x and the opening and closing sheet 9f are arranged in a vertically symmetrical mode, the limiting rotary groove 9q is abutted to the left side of the opening and closing sheet 9f, the opening and closing sheet 9f can only be rotated and opened towards the right side, the opening inside the right side of the shell d2 can be sealed and protected, and fine ores in an ore hole are prevented from entering the inside of the shell d2 and colliding with the detection head d1 q.

The specific use mode and function of the embodiment are as follows:

in the invention, the telescopic detector 4d generates magnetic attraction to the sliding block d1s by electrifying the electromagnetic block d1c in the process of detecting ore components, then the sliding block d1s slides in the sliding groove d1z, the detection head d1q is pushed to move by the linkage of the linkage rod d1f, in the moving process, the data wire d3 is unreeled by the winding disc d6, the data wire d3 is extended, the data wire d3 is ensured to carry out data conduction connection between the detection head d1q and the transmission chip d4, the opening and closing sheet 9f is jacked by the detection head d1q, at this time, the opening and closing sheet 9f rotates downwards around the shaft 9x to open, then the detection head d1q extends out of the shell d2 to detect ore components, after the detection is finished, the power is cut off by the electromagnetic block d1c, the spring rod d1a applies elastic force to make the detection head d1 d 5 slide, and the detection head d 24 is reset to drive the sliding block 2 to enter the shell 57342, the detection head d1q is protected, the torsion shaft 9x applies reset elastic torsion, the opening and closing sheet 9f is automatically closed, the opening and closing sheet 9f is closed and limited through the limiting rotary groove 9q, the opening and closing sheet 9f closes the shell d2, and external fine ores are prevented from entering the shell d2 and colliding with the detection head d1 q.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides an ore composition detection device, its structure is including removing frame (A), wind-up roll (C), rope (E), pulley (V), steady mechanism (S), it is equipped with wind-up roll (C) to remove frame (A) upper end middle part, wind-up roll (C) twines with rope (E) head end mutually to the terminal winding of rope (E) has steady mechanism (S), rope (E) and pulley (V) sliding connection, install at removing frame (A) upper right end pulley (V), its characterized in that:

steady mechanism (S) is including link (S1), slewing mechanism (S3), ball (S6), branch (S8), detection mechanism (S4), link (S1) upper end twines with rope (E) end mutually, slewing mechanism (S3) are installed inside link (S1), slewing mechanism (S3) outside end is equipped with ball (S6) to ball (S6) adopt clearance fit to install inside link (S1) outside end, ball (S6) and branch (S8) weld mutually, branch (S8) lower extreme adopts clearance fit to install inside detection mechanism (S4) outside upper end.

2. An ore composition detecting apparatus according to claim 1, wherein: slewing mechanism (S3) includes rotor (3 c), inner ring torquer (3 a), outer loop (3 h), outer loop torquer (3 d), rotor (3 c) are installed at inner ring torquer (3 a) inboard to inner ring torquer (3 a) fixed mounting is in outer loop (3 h) middle part, inner ring torquer (3 a) adopt clearance fit to install inside link (S1), outer loop (3 h) outside middle-end is equipped with outer loop torquer (3 d) to outer loop torquer (3 d) are fixed mutually with ball (S6).

3. An ore composition detecting apparatus according to claim 1, wherein: detection mechanism (S4) is including connecting diaphragm (44), motor (46), pivot (4 a), guide bar (4 w), rolling disc (41), flexible detector (4 d), branch (S8) lower extreme adopts clearance fit to install inside connecting diaphragm (44) outside upper end, motor (46) are installed and are being connected diaphragm (44) upper end inside middle-end, motor (46) output and pivot (4 a) synchronous rotation to pivot (4 a) are fixed mutually with rolling disc (41) inboard middle-end, guide bar (4 w) lower extreme adopts clearance fit to install inside rolling disc (41) upper end to rolling disc (41) upper end adopts clearance fit to install inside connecting diaphragm (44) bottom middle-end, rolling disc (41) lower extreme is fixed mutually with flexible detector (4 d) top.

4. An ore composition detecting apparatus according to claim 3, wherein: the telescopic detector (4 d) comprises an outer shell (d 2), a transmission chip (d 4), a winding roll (d 6), a pushing mechanism (d 1), a protection mechanism (d 9) and a data line (d 3), wherein the transmission chip (d 4) is arranged inside the outer shell (d 2), the transmission chip (d 4) is electrically connected with the pushing mechanism (d 1) through the data line (d 3), the data line (d 3) is wound inside the winding roll (d 6), the right end of the pushing mechanism (d 1) is in contact with the inner side of the protection mechanism (d 9), and the protection mechanism (d 9) is embedded in the middle end of the inner side of the outer shell (d 2).

5. An ore composition detecting apparatus according to claim 4, wherein: the pushing mechanism (d 1) comprises a sliding groove (d 1 z), a spring rod (d 1 a), an electromagnetic block (d 1 c), a sliding block (d 1 s), a linkage rod (d 1 f) and a detection head (d 1 q), wherein the sliding groove (d 1 z) is fixedly installed inside the casing (d 2), the spring rod (d 1 a) is arranged inside the sliding groove (d 1 z), the electromagnetic block (d 1 c) is installed at the right end of the spring rod (d 1 a), the sliding block (d 1 s) is slidably installed inside the sliding groove (d 1 z), the spring rod (d 1 a) penetrates through the inside of the sliding block (d 1 s) in a clearance fit mode, the sliding block (d 1 s) is hinged to one end of the linkage rod (d 1 f), the other end of the linkage rod (d 1 f) is hinged to the outer side of the left end of the detection head (d 1 q), and the right end of the detection head (d 1 q) abuts against the inner side of the protection mechanism (d 9).

6. An ore composition detecting apparatus according to claim 5, wherein: the protection mechanism (d 9) comprises a limiting rotary groove (9 q), a torsion shaft (9 x) and an opening and closing sheet (9 f), the limiting rotary groove (9 q) is embedded inside the right side of the shell (d 2), the limiting rotary groove (9 q) is hinged to the outer side end of the opening and closing sheet (9 f) through the torsion shaft (9 x), and the left side end face of the opening and closing sheet (9 f) is abutted to the right end of the detection head (d 1 q).