CN109289975B - Tombarthite ore over-and-under type crushing apparatus for sampling test - Google Patents

Abstract

The invention relates to rare earth ore crushing equipment, in particular to lifting type crushing equipment for rare earth ore sampling detection. The invention aims to provide a lifting type crushing device for sampling and detecting rare earth ore, which can crush more rare earth ore at one time and has uniform size after crushing. The technical scheme is as follows: a lifting type crushing device for rare earth ore sampling detection comprises a mounting frame, a primary crushing box, a first screen, a motor, a first gear, a second gear, a guide rail, a guide sleeve, a lifting rod, a first crushing plate, a connecting rod and the like; the upper portion of the left side of the right wall of the mounting frame is connected with a first-stage crushing box, the bottom of the first-stage crushing box is connected with a first screen, and the upper right side of the front wall of the first-stage crushing box is connected with a motor. The invention achieves the effects of more crushing at one time and uniform size after crushing, the first crushing plate moving up and down can realize primary crushing of rare earth ore, and the second crushing plate moving left and right can realize secondary crushing of fragments.

Description

Tombarthite ore over-and-under type crushing apparatus for sampling test

Technical Field

The invention relates to rare earth ore crushing equipment, in particular to lifting type crushing equipment for rare earth ore sampling detection.

Background

At present to the evaluation of rare earth ore value, need detect earlier, confirm inside composition and the content that contains, before detecting, need take a sample the rare earth ore, because present rare earth ore generally all is great cubic, the sampling personnel need break into the fragment of equidimension with the rare earth ore before the sample, just can detect, exist like this and can only rely on artifical broken a small amount at every turn to fragment after the breakage is not of uniform size, influences the result that detects.

Disclosure of Invention

In order to overcome the defects that a small amount of crushed rare earth ore can only be crushed by manpower at each time and the crushed blocks are different in size, the invention aims to provide the lifting type crushing equipment for sampling and detecting the rare earth ore, which can crush more rare earth ore at one time and has uniform size after crushing.

The technical scheme is as follows: a lifting type crushing device for rare earth ore sampling detection comprises a mounting frame, a first-level crushing box, a first screen, a motor, a first gear, a second gear, a guide rail, a guide sleeve, a lifting rod, a first crushing plate, a connecting rod, a rack, a first slide rail, a first slide block, a collecting box, a handle, a bearing seat and a rotating rod, wherein the upper part of the left side of the right wall of the mounting frame is connected with the first-level crushing box, the bottom of the first-level crushing box is connected with the first screen, the upper right side of the front wall of the first-level crushing box is connected with the motor, the output shaft of the motor is connected with the first gear, the lower left side of the front wall of the first-level crushing box is connected with the bearing seat, the rotating rod is installed on the bearing seat, the rotating rod is connected with the second gear, the second gear is meshed with the first gear, the upper parts of the left wall and the right wall of the first-level crushing box are both connected with the guide rail, the guide sleeve is slidably connected with the guide sleeve on the guide rail, the left side and the right side of the lifting rod is connected between the guide sleeve, the bottom of lifter is connected with first crushing board, first crushing board is located the broken case of one-level directly over, the guide pin bushing antetheca lower part of the left and right sides all is connected with the connecting rod, the bottom of connecting rod all is connected with the rack, left rack and second gear engagement, the rack and the first gear engagement on right side, the bottom is connected with first slide rail in the mounting bracket, sliding type is connected with first slider on first slide rail, the top of first slider is connected with the collecting box, the collecting box is located the below of first screen cloth of crossing, the top left side of collecting box is connected with the handle.

More preferably, still including the broken case of second grade, the screen cloth is crossed to the second, first carriage release, second crushing board and movable plate, the bottom of the broken case of one-level is connected with the broken case of second grade, the bottom of the broken case of second grade is connected with the screen cloth is crossed to the second, open the left wall lower part of the broken case of second grade has first through-hole, it has first carriage release to pass in the first through-hole, the right-hand member of first carriage release is connected with the broken board of second, the broken bottom of second is passed screen cloth top contact with the second, open at the left wall middle part of the broken case of second grade has the second through-hole, the left wall upper portion that the screen cloth was crossed to the second is connected with the movable plate, the movable plate passes the second through-hole.

More preferably, still including the carousel, the chuck, first swinging arms, the disc, the sliding shaft, the second swinging arms, second slide rail and second slider, eccentric connection has the carousel on the output shaft of motor, the carousel is located the front side of first gear, the cooperation is equipped with the chuck on the carousel, the antetheca left side rotary type of chuck is connected with first swinging arms, the front end eccentric connection of swinging arms has the disc, it has the annular groove to open on the disc, the annular groove fit in is equipped with the sliding shaft, the left end rotary type of first swinging arms is connected with the second swinging arms, second swinging arms upper portion is connected with the sliding shaft rotary type, the sub-unit connection of second swinging arms has the second slide rail, sliding connection has the second slider on the second slide rail, the second slider is connected with first moving arms left part rotary type.

More preferably, the steel wire rope collecting device further comprises a guide wheel, a mounting rod, a steel wire rope and a first spring, wherein the guide wheel is connected to the left side of the bottom in the mounting frame, the mounting rod is connected to the left side of a guide sleeve on the left side, the steel wire rope is connected to the bottom of the mounting rod, the steel wire rope bypasses the guide wheel, the tail end of the steel wire rope is connected with the left wall of the collecting box, and the first spring is connected between the right wall of the collecting box and the lower portion of the left side of the right wall of the mounting frame.

More preferably, the secondary crushing box further comprises a torsion spring, a swinging plate, a knocking block, a second moving rod and a third moving rod, wherein the upper part of the left wall of the secondary crushing box is connected with the swinging plate through the torsion spring, the lower part of the right side of the swinging plate is connected with the knocking block, the middle part of the left side of the swinging plate is connected with the second moving rod, the left side of the top of the first moving rod is connected with the third moving rod, and the third moving rod is matched with the second moving rod.

When rare earth ore needs to be crushed, a user firstly puts rare earth ore to be crushed into a primary crushing box, then a starting motor drives a first gear to rotate clockwise, a second gear rotates anticlockwise, racks on the left side and the right side move downwards, a guide sleeve drives a lifting rod and a first crushing plate to move downwards to crush rare earth ore, after the first crushing plate moves downwards for a certain distance to crush rare earth ore, the user controls a motor to drive the first gear to rotate anticlockwise, the second gear rotates clockwise, racks on the left side and the right side move upwards, the guide sleeve drives the lifting rod and the first crushing plate to move upwards, then the user continuously starts the motor to drive the first gear to rotate clockwise, the second gear rotates anticlockwise, racks on the left side and the right side move downwards, the guide sleeve drives the lifting rod and the first crushing plate to move downwards to crush rare earth ore, and the operation is repeated, until the rare earth ore in the first-stage crushing box is crushed and falls into the collecting box, when the rare earth fragments fall into the collecting box, a user can slightly move the collecting box left and right through the handle, so that the rare earth fragments in the collecting box are more smoothly distributed in the collecting box, and the rare earth fragments in the collecting box are prevented from falling out due to excessive local parts.

Because still including the broken case of second grade, the screen cloth is crossed to the second, first carriage release lever, broken board of second and movable plate, the bottom of the broken case of one-level is connected with the broken case of second grade, the bottom of the broken case of second grade is connected with the screen cloth is crossed to the second, open the left wall lower part of the broken case of second grade has first through-hole, first carriage release lever has been passed in the first through-hole, the right-hand member of first carriage release lever is connected with the broken board of second, second broken board bottom and the contact of second screen cloth top, open at the left wall middle part of the broken case of second grade has the second through-hole, the left wall upper portion that the screen cloth was crossed to the second is connected with the movable plate, the movable plate passes the second through-hole. The fragment that falls out from first sieve screen falls into on the second sieve screen, then the user of service can be continuous moves first carriage release lever about, makes the fragment on the continuous side-to-side movement crushing second sieve screen of second breaker, just so can realize the doublestage breakage to rare earth ore, and the fragment that makes after the breakage is littleer, the detection of being more convenient for, the movable plate can prevent that the fragment from falling into the left side of second breaker.

Because still including the carousel, the chuck, first swinging arms, the disc, the sliding shaft, the second swinging arms, second slide rail and second slider, the eccentric carousel that is connected with on the output shaft of motor, the carousel is located the front side of first gear, the cooperation is equipped with the chuck on the carousel, the antetheca left side rotary type of chuck is connected with first swinging arms, the front end eccentric connection of swinging arms has the disc, it has the annular groove to open on the disc, the annular groove fit in is equipped with the sliding shaft, the left end rotary type of first swinging arms is connected with the second swinging arms, second swinging arms upper portion is connected with the sliding shaft rotary type, the sub-unit connection of second swinging arms has the second slide rail, sliding connection has the second slider on the second slide rail, the second slider is connected with first moving rod left part rotary type. When the motor drives the continuous clockwise and anticlockwise rotation of carousel, the continuous anticlockwise and clockwise rotation of disc also can be thereupon, will realize the continuous horizontal hunting of second swinging arms and second slide rail like this to realize that first carriage release lever drives the second breaker horizontal motion and carries out the breakage to the fragment, the fragment that the size is less than second sieve mesh aperture after the breakage falls into to the collection incasement, need not the manpower like this and come the broken fragment of second grade, can practice thrift the manpower like this, it is more convenient to operate.

Because still including leading wheel, installation pole, wire rope and first spring, the bottom left side is connected with the leading wheel in the mounting bracket, and left guide pin bushing left side is connected with the installation pole, and the installation pole bottom is connected with wire rope, and wire rope walks around the leading wheel, and wire rope's end and the left wall connection of collecting box are connected with first spring between the right wall of collecting box and the right wall left side lower part of mounting bracket. When the left guide sleeve moves downwards, the mounting rod moves downwards, the collecting box moves rightwards under the action of the elastic force of the first spring, when the left guide sleeve moves upwards, the mounting rod moves upwards, and the collecting box moves leftwards under the action of the tensile force of the steel wire rope, so that the leftwards and rightwards movement of the collecting box can be realized in the process of crushing rare earth ore, the fragments in the collecting box continuously shake leftwards and rightwards, and the fragments can be uniformly distributed in the collecting box without manpower.

Because still including torsion spring, swing board, strike piece, second carriage release lever and third carriage release lever, the left wall upper portion of the broken case of second grade is connected with swing board through torsion spring, and the right side sub-unit connection of swing board has the strike piece, and the left side middle part of swing board is connected with the second carriage release lever, and the top left side of first carriage release lever is connected with the third carriage release lever, and the third carriage release lever cooperates with the second carriage release lever. When the third movable rod moves leftwards along with the first movable rod to be in contact with the second movable rod, the second movable rod and the swinging plate start to swing clockwise, when the third movable rod moves rightwards along with the first movable rod, the second movable rod, the swinging plate and the knocking block start to swing anticlockwise to knock the upper portion of the left wall of the secondary crushing box, and therefore the knocking block can continuously knock the left wall of the secondary crushing box through continuous left-right movement of the third movable rod, fragments falling on the upper portion of the left side of the secondary crushing box slide onto the second screen mesh, and a large number of fragments are prevented from being accumulated on the inner wall of the upper portion of the left side of the secondary crushing box.

Compared with the prior art, the invention has the following advantages: the invention achieves the effects of more crushing at one time and uniform size after crushing, the first crushing plate moving up and down can realize primary crushing of rare earth ore, the second crushing plate moving left and right can realize secondary crushing of fragments, the collecting box moving left and right can enable the fragments to be uniformly distributed in the collecting box, and the knocking block continuously swings clockwise and anticlockwise, so that a large amount of fragments can be effectively prevented from being accumulated on the inner wall of the upper part of the left side of the secondary crushing box.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a second front view structure diagram of the present invention.

Fig. 3 is a third schematic view of the present invention.

Fig. 4 is a schematic diagram of a fourth front view structure according to the present invention.

Fig. 5 is a schematic view of a fifth front view structure according to the present invention.

Wherein the figures include the following reference numerals: 1. mounting rack, 2, primary crushing box, 3, first screen passing screen, 4, motor, 5, first gear, 6, second gear, 7, guide rail, 8, guide sleeve, 9, lifting rod, 10, first crushing plate, 11, connecting rod, 12, rack, 13, first slide rail, 14, first slide block, 15, collecting box, 16, handle, 161, bearing seat, 162, rotating rod, 17, secondary crushing box, 18, second screen passing screen, 19, first through hole, 20, first moving rod, 21, second crushing plate, 22, second through hole, 23, moving plate, 24, rotating disk, 25, chuck, 26, first swinging rod, 27, disk, 28, annular groove, 29, sliding shaft, 30, second swinging rod, 31, second slide rail, 32, second slide block, 33, guide wheel, 34, mounting rod, 35, steel wire rope, 36, first spring, 37, spring, 38, swinging plate, 39. a knocking block 40, a second moving rod 41 and a third moving rod.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A rare earth ore sampling and detecting lifting type crushing device is shown in figures 1-5 and comprises a mounting frame 1, a first-level crushing box 2, a first screen passing screen 3, a motor 4, a first gear 5, a second gear 6, a guide rail 7, a guide sleeve 8, a lifting rod 9, a first crushing plate 10, a connecting rod 11, a rack 12, a first slide rail 13, a first slider 14, a collecting box 15, a handle 16, a bearing seat 161 and a rotating rod 162, wherein the upper portion of the left side of the right wall of the mounting frame 1 is connected with the first-level crushing box 2, the bottom of the first-level crushing box 2 is connected with the first screen passing screen 3, the upper right side of the front wall of the first-level crushing box 2 is connected with the motor 4, the output shaft of the motor 4 is connected with the first gear 5, the lower left side of the front wall of the first-level crushing box 2 is connected with the bearing seat 161, the rotating rod 162 is mounted on the bearing seat 161, the rotating rod 162 is connected with the second gear 6, and the second gear 6 is meshed with the first gear 5, two wall upper portions all are connected with guide rail 7 about one-level broken case 2, sliding connection has guide pin bushing 8 on guide rail 7, be connected with lifter 9 between the guide pin bushing 8 of the left and right sides, lifter 9's bottom is connected with first crushing board 10, first crushing board 10 is located one-level broken case 2 directly over, the guide pin bushing 8 antetheca lower part of the left and right sides all is connected with connecting rod 11, connecting rod 11's bottom all is connected with rack 12, left rack 12 meshes with second gear 6, rack 12 and the meshing of first gear 5 on right side, the bottom is connected with first slide rail 13 in mounting bracket 1, sliding connection has first slider 14 on first slide rail 13, the top of first slider 14 is connected with collecting box 15, collecting box 15 is located the below of first screen cloth 3 of crossing, the top left side of collecting box 15 is connected with handle 16.

Example 2

A rare earth ore sampling and detecting lifting type crushing device is shown in figures 1-5 and comprises a mounting frame 1, a first-level crushing box 2, a first screen passing screen 3, a motor 4, a first gear 5, a second gear 6, a guide rail 7, a guide sleeve 8, a lifting rod 9, a first crushing plate 10, a connecting rod 11, a rack 12, a first slide rail 13, a first slider 14, a collecting box 15, a handle 16, a bearing seat 161 and a rotating rod 162, wherein the upper portion of the left side of the right wall of the mounting frame 1 is connected with the first-level crushing box 2, the bottom of the first-level crushing box 2 is connected with the first screen passing screen 3, the upper right side of the front wall of the first-level crushing box 2 is connected with the motor 4, the output shaft of the motor 4 is connected with the first gear 5, the lower left side of the front wall of the first-level crushing box 2 is connected with the bearing seat 161, the rotating rod 162 is mounted on the bearing seat 161, the rotating rod 162 is connected with the second gear 6, and the second gear 6 is meshed with the first gear 5, two wall upper portions all are connected with guide rail 7 about one-level broken case 2, sliding connection has guide pin bushing 8 on guide rail 7, be connected with lifter 9 between the guide pin bushing 8 of the left and right sides, lifter 9's bottom is connected with first crushing board 10, first crushing board 10 is located one-level broken case 2 directly over, the guide pin bushing 8 antetheca lower part of the left and right sides all is connected with connecting rod 11, connecting rod 11's bottom all is connected with rack 12, left rack 12 meshes with second gear 6, rack 12 and the meshing of first gear 5 on right side, the bottom is connected with first slide rail 13 in mounting bracket 1, sliding connection has first slider 14 on first slide rail 13, the top of first slider 14 is connected with collecting box 15, collecting box 15 is located the below of first screen cloth 3 of crossing, the top left side of collecting box 15 is connected with handle 16.

Still including the broken case 17 of second grade, the screen cloth 18 is crossed to the second, first carriage release lever 20, second crushing board 21 and movable plate 23, the bottom of the broken case 2 of first grade is connected with the broken case 17 of second grade, the bottom of the broken case 17 of second grade is connected with the screen cloth 18 of second grade, open the left wall lower part of the broken case 17 of second grade has first through-hole 19, first carriage release lever 20 has passed in the first through-hole 19, the right-hand member of first carriage release lever 20 is connected with second crushing board 21, the contact of screen cloth 18 top is crossed to second crushing board 21 bottom and second, open at the left wall middle part of the broken case 17 of second grade has second through-hole 22, the left wall upper portion that the screen cloth 18 was crossed to the second is connected with 23, movable plate 23 passes second through-hole 22.

Example 3

A rare earth ore sampling and detecting lifting type crushing device is shown in figures 1-5 and comprises a mounting frame 1, a first-level crushing box 2, a first screen passing screen 3, a motor 4, a first gear 5, a second gear 6, a guide rail 7, a guide sleeve 8, a lifting rod 9, a first crushing plate 10, a connecting rod 11, a rack 12, a first slide rail 13, a first slider 14, a collecting box 15, a handle 16, a bearing seat 161 and a rotating rod 162, wherein the upper portion of the left side of the right wall of the mounting frame 1 is connected with the first-level crushing box 2, the bottom of the first-level crushing box 2 is connected with the first screen passing screen 3, the upper right side of the front wall of the first-level crushing box 2 is connected with the motor 4, the output shaft of the motor 4 is connected with the first gear 5, the lower left side of the front wall of the first-level crushing box 2 is connected with the bearing seat 161, the rotating rod 162 is mounted on the bearing seat 161, the rotating rod 162 is connected with the second gear 6, and the second gear 6 is meshed with the first gear 5, two wall upper portions all are connected with guide rail 7 about one-level broken case 2, sliding connection has guide pin bushing 8 on guide rail 7, be connected with lifter 9 between the guide pin bushing 8 of the left and right sides, lifter 9's bottom is connected with first crushing board 10, first crushing board 10 is located one-level broken case 2 directly over, the guide pin bushing 8 antetheca lower part of the left and right sides all is connected with connecting rod 11, connecting rod 11's bottom all is connected with rack 12, left rack 12 meshes with second gear 6, rack 12 and the meshing of first gear 5 on right side, the bottom is connected with first slide rail 13 in mounting bracket 1, sliding connection has first slider 14 on first slide rail 13, the top of first slider 14 is connected with collecting box 15, collecting box 15 is located the below of first screen cloth 3 of crossing, the top left side of collecting box 15 is connected with handle 16.

Still including the broken case 17 of second grade, the screen cloth 18 is crossed to the second, first carriage release lever 20, second crushing board 21 and movable plate 23, the bottom of the broken case 2 of first grade is connected with the broken case 17 of second grade, the bottom of the broken case 17 of second grade is connected with the screen cloth 18 of second grade, open the left wall lower part of the broken case 17 of second grade has first through-hole 19, first carriage release lever 20 has passed in the first through-hole 19, the right-hand member of first carriage release lever 20 is connected with second crushing board 21, the contact of screen cloth 18 top is crossed to second crushing board 21 bottom and second, open at the left wall middle part of the broken case 17 of second grade has second through-hole 22, the left wall upper portion that the screen cloth 18 was crossed to the second is connected with 23, movable plate 23 passes second through-hole 22.

The automatic feeding device is characterized by further comprising a rotating disc 24, a chuck 25, a first swing rod 26, a disc 27, a sliding shaft 29, a second swing rod 30, a second sliding rail 31 and a second sliding block 32, wherein the rotating disc 24 is eccentrically connected to an output shaft of the motor 4, the rotating disc 24 is positioned on the front side of the first gear 5, the chuck 25 is arranged on the rotating disc 24 in a matched mode, the first swing rod 26 is rotatably connected to the left side of the front wall of the chuck 25, the disc 27 is eccentrically connected to the front end of the rotating rod 162, an annular groove 28 is formed in the disc 27, the sliding shaft 29 is arranged in the annular groove 28 in a matched mode, the second swing rod 30 is rotatably connected to the left end of the first swing rod 26, the upper portion of the second swing rod 30 is rotatably connected with the sliding shaft 29, the second sliding rail 31 is connected to the lower portion of the second swing rod 30, the second sliding block 32 is slidably connected to the second sliding rail 31, and the left portion of the first moving rod 20 is rotatably connected to the second sliding block 32.

Example 4

A rare earth ore sampling and detecting lifting type crushing device is shown in figures 1-5 and comprises a mounting frame 1, a first-level crushing box 2, a first screen passing screen 3, a motor 4, a first gear 5, a second gear 6, a guide rail 7, a guide sleeve 8, a lifting rod 9, a first crushing plate 10, a connecting rod 11, a rack 12, a first slide rail 13, a first slider 14, a collecting box 15, a handle 16, a bearing seat 161 and a rotating rod 162, wherein the upper portion of the left side of the right wall of the mounting frame 1 is connected with the first-level crushing box 2, the bottom of the first-level crushing box 2 is connected with the first screen passing screen 3, the upper right side of the front wall of the first-level crushing box 2 is connected with the motor 4, the output shaft of the motor 4 is connected with the first gear 5, the lower left side of the front wall of the first-level crushing box 2 is connected with the bearing seat 161, the rotating rod 162 is mounted on the bearing seat 161, the rotating rod 162 is connected with the second gear 6, and the second gear 6 is meshed with the first gear 5, two wall upper portions all are connected with guide rail 7 about one-level broken case 2, sliding connection has guide pin bushing 8 on guide rail 7, be connected with lifter 9 between the guide pin bushing 8 of the left and right sides, lifter 9's bottom is connected with first crushing board 10, first crushing board 10 is located one-level broken case 2 directly over, the guide pin bushing 8 antetheca lower part of the left and right sides all is connected with connecting rod 11, connecting rod 11's bottom all is connected with rack 12, left rack 12 meshes with second gear 6, rack 12 and the meshing of first gear 5 on right side, the bottom is connected with first slide rail 13 in mounting bracket 1, sliding connection has first slider 14 on first slide rail 13, the top of first slider 14 is connected with collecting box 15, collecting box 15 is located the below of first screen cloth 3 of crossing, the top left side of collecting box 15 is connected with handle 16.

Still including the broken case 17 of second grade, the screen cloth 18 is crossed to the second, first carriage release lever 20, second crushing board 21 and movable plate 23, the bottom of the broken case 2 of first grade is connected with the broken case 17 of second grade, the bottom of the broken case 17 of second grade is connected with the screen cloth 18 of second grade, open the left wall lower part of the broken case 17 of second grade has first through-hole 19, first carriage release lever 20 has passed in the first through-hole 19, the right-hand member of first carriage release lever 20 is connected with second crushing board 21, the contact of screen cloth 18 top is crossed to second crushing board 21 bottom and second, open at the left wall middle part of the broken case 17 of second grade has second through-hole 22, the left wall upper portion that the screen cloth 18 was crossed to the second is connected with 23, movable plate 23 passes second through-hole 22.

The automatic feeding device is characterized by further comprising a rotating disc 24, a chuck 25, a first swing rod 26, a disc 27, a sliding shaft 29, a second swing rod 30, a second sliding rail 31 and a second sliding block 32, wherein the rotating disc 24 is eccentrically connected to an output shaft of the motor 4, the rotating disc 24 is positioned on the front side of the first gear 5, the chuck 25 is arranged on the rotating disc 24 in a matched mode, the first swing rod 26 is rotatably connected to the left side of the front wall of the chuck 25, the disc 27 is eccentrically connected to the front end of the rotating rod 162, an annular groove 28 is formed in the disc 27, the sliding shaft 29 is arranged in the annular groove 28 in a matched mode, the second swing rod 30 is rotatably connected to the left end of the first swing rod 26, the upper portion of the second swing rod 30 is rotatably connected with the sliding shaft 29, the second sliding rail 31 is connected to the lower portion of the second swing rod 30, the second sliding block 32 is slidably connected to the second sliding rail 31, and the left portion of the first moving rod 20 is rotatably connected to the second sliding block 32.

The steel wire rope collection and collection device is characterized by further comprising a guide wheel 33, a mounting rod 34, a steel wire rope 35 and a first spring 36, wherein the guide wheel 33 is connected to the left side of the bottom in the mounting frame 1, the mounting rod 34 is connected to the left side of the guide sleeve 8 on the left side, the steel wire rope 35 is connected to the bottom of the mounting rod 34, the steel wire rope 35 bypasses the guide wheel 33, the tail end of the steel wire rope 35 is connected with the left wall of the collection box 15, and the first spring 36 is connected between the right wall of the collection box 15 and the lower portion of the left side of the right wall of the mounting frame 1.

Example 5

A rare earth ore sampling and detecting lifting type crushing device is shown in figures 1-5 and comprises a mounting frame 1, a first-level crushing box 2, a first screen passing screen 3, a motor 4, a first gear 5, a second gear 6, a guide rail 7, a guide sleeve 8, a lifting rod 9, a first crushing plate 10, a connecting rod 11, a rack 12, a first slide rail 13, a first slider 14, a collecting box 15, a handle 16, a bearing seat 161 and a rotating rod 162, wherein the upper portion of the left side of the right wall of the mounting frame 1 is connected with the first-level crushing box 2, the bottom of the first-level crushing box 2 is connected with the first screen passing screen 3, the upper right side of the front wall of the first-level crushing box 2 is connected with the motor 4, the output shaft of the motor 4 is connected with the first gear 5, the lower left side of the front wall of the first-level crushing box 2 is connected with the bearing seat 161, the rotating rod 162 is mounted on the bearing seat 161, the rotating rod 162 is connected with the second gear 6, and the second gear 6 is meshed with the first gear 5, two wall upper portions all are connected with guide rail 7 about one-level broken case 2, sliding connection has guide pin bushing 8 on guide rail 7, be connected with lifter 9 between the guide pin bushing 8 of the left and right sides, lifter 9's bottom is connected with first crushing board 10, first crushing board 10 is located one-level broken case 2 directly over, the guide pin bushing 8 antetheca lower part of the left and right sides all is connected with connecting rod 11, connecting rod 11's bottom all is connected with rack 12, left rack 12 meshes with second gear 6, rack 12 and the meshing of first gear 5 on right side, the bottom is connected with first slide rail 13 in mounting bracket 1, sliding connection has first slider 14 on first slide rail 13, the top of first slider 14 is connected with collecting box 15, collecting box 15 is located the below of first screen cloth 3 of crossing, the top left side of collecting box 15 is connected with handle 16.

Still including the broken case 17 of second grade, the screen cloth 18 is crossed to the second, first carriage release lever 20, second crushing board 21 and movable plate 23, the bottom of the broken case 2 of first grade is connected with the broken case 17 of second grade, the bottom of the broken case 17 of second grade is connected with the screen cloth 18 of second grade, open the left wall lower part of the broken case 17 of second grade has first through-hole 19, first carriage release lever 20 has passed in the first through-hole 19, the right-hand member of first carriage release lever 20 is connected with second crushing board 21, the contact of screen cloth 18 top is crossed to second crushing board 21 bottom and second, open at the left wall middle part of the broken case 17 of second grade has second through-hole 22, the left wall upper portion that the screen cloth 18 was crossed to the second is connected with 23, movable plate 23 passes second through-hole 22.

The automatic feeding device is characterized by further comprising a rotating disc 24, a chuck 25, a first swing rod 26, a disc 27, a sliding shaft 29, a second swing rod 30, a second sliding rail 31 and a second sliding block 32, wherein the rotating disc 24 is eccentrically connected to an output shaft of the motor 4, the rotating disc 24 is positioned on the front side of the first gear 5, the chuck 25 is arranged on the rotating disc 24 in a matched mode, the first swing rod 26 is rotatably connected to the left side of the front wall of the chuck 25, the disc 27 is eccentrically connected to the front end of the rotating rod 162, an annular groove 28 is formed in the disc 27, the sliding shaft 29 is arranged in the annular groove 28 in a matched mode, the second swing rod 30 is rotatably connected to the left end of the first swing rod 26, the upper portion of the second swing rod 30 is rotatably connected with the sliding shaft 29, the second sliding rail 31 is connected to the lower portion of the second swing rod 30, the second sliding block 32 is slidably connected to the second sliding rail 31, and the left portion of the first moving rod 20 is rotatably connected to the second sliding block 32.

The steel wire rope collection and collection device is characterized by further comprising a guide wheel 33, a mounting rod 34, a steel wire rope 35 and a first spring 36, wherein the guide wheel 33 is connected to the left side of the bottom in the mounting frame 1, the mounting rod 34 is connected to the left side of the guide sleeve 8 on the left side, the steel wire rope 35 is connected to the bottom of the mounting rod 34, the steel wire rope 35 bypasses the guide wheel 33, the tail end of the steel wire rope 35 is connected with the left wall of the collection box 15, and the first spring 36 is connected between the right wall of the collection.

The secondary crushing box comprises a secondary crushing box body 17, and is characterized by further comprising a torsion spring 37, a swinging plate 38, a knocking block 39, a second moving rod 40 and a third moving rod 41, wherein the upper part of the left wall of the secondary crushing box body 17 is connected with the swinging plate 38 through the torsion spring 37, the right lower part of the swinging plate 38 is connected with the knocking block 39, the middle part of the left side of the swinging plate 38 is connected with the second moving rod 40, the left side of the top of the first moving rod 20 is connected with the third moving rod 41, and the third moving rod 41 is matched with the second moving rod 40.

When rare earth ore needs to be crushed, a user firstly puts rare earth ore to be crushed into the first-stage crushing box 2, then the starting motor 4 drives the first gear 5 to rotate clockwise, the second gear 6 rotates anticlockwise, the racks 12 on the left side and the right side both move downwards, the guide sleeve 8 drives the lifting rod 9 and the first crushing plate 10 to move downwards to crush rare earth ore, after the first crushing plate 10 moves downwards for a certain distance to crush rare earth ore, the user controls the motor 4 to drive the first gear 5 to rotate anticlockwise, the second gear 6 rotates clockwise, the racks 12 on the left side and the right side both move upwards, the guide sleeve 8 drives the lifting rod 9 and the first crushing plate 10 to move upwards, then the starting motor 4 is continuously started to drive the first gear 5 to rotate clockwise, the second gear 6 rotates anticlockwise, the racks 12 on the left side and the right side both move downwards, the guide sleeve 8 drives the lifting rod 9 and the first crushing plate 10 to move downwards to crush rare earth ore, the operation is repeated until the rare earth ore in the first-stage crushing box 2 is crushed and falls into the collecting box 15, when the rare earth fragments fall into the collecting box 15, a user can slightly move the collecting box 15 left and right through the handle 16, so that the rare earth fragments in the collecting box 15 are more smoothly distributed in the collecting box 15, and the rare earth fragments in the collecting box 15 are prevented from falling out due to excessive local parts.

Because the novel screen cloth crusher further comprises a second-stage crushing box 17, a second screen cloth 18, a first moving rod 20, a second crushing plate 21 and a moving plate 23, the bottom of the first-stage crushing box 2 is connected with the second-stage crushing box 17, the bottom of the second-stage crushing box 17 is connected with the second screen cloth 18, a first through hole 19 is formed in the lower portion of the left wall of the second-stage crushing box 17, the first moving rod 20 penetrates through the first through hole 19, the right end of the first moving rod 20 is connected with the second crushing plate 21, the bottom of the second crushing plate 21 contacts with the top of the second screen cloth 18, a second through hole 22 is formed in the middle of the left wall of the second-stage crushing box 17, the upper portion of the left wall of the second screen cloth 18 is connected with the moving plate 23, and the moving plate 23 penetrates through the second through hole 22. The fragments that fall out from first crossing in the screen cloth 3 fall into second and cross on screen cloth 18, then the user can be continuous move first carriage release lever 20 about, make the continuous left and right sides motion of second breaker 21 break the fragments on the screen cloth 18 of second crossing, just so can realize the doublestage breakage to the tombarthite ore, make the fragment after the breakage littleer, the detection of being more convenient for, movable plate 23 can prevent that the fragment from falling into the left side of second breaker 21.

Because the swing mechanism further comprises a rotating disc 24, a chuck 25, a first swing rod 26, a disc 27, a sliding shaft 29, a second swing rod 30, a second sliding rail 31 and a second sliding block 32, the rotating disc 24 is eccentrically connected to an output shaft of the motor 4, the rotating disc 24 is positioned at the front side of the first gear 5, the chuck 25 is arranged on the rotating disc 24 in a matching manner, the first swing rod 26 is rotatably connected to the left side of the front wall of the chuck 25, the disc 27 is eccentrically connected to the front end of the rotating rod 162, an annular groove 28 is formed in the disc 27, the sliding shaft 29 is arranged in the annular groove 28 in a matching manner, the second swing rod 30 is rotatably connected to the left end of the first swing rod 26, the upper portion of the second swing rod 30 is rotatably connected to the sliding shaft 29, the second sliding rail 31 is connected to the lower portion of the second swing rod 30, the second sliding block 32 is slidably connected to the second sliding rail 31, and the second sliding block 32 is rotatably connected to the left portion of the first moving rod 20. When the motor 4 drives the rotating disc 24 to rotate clockwise and anticlockwise continuously, the disc 27 also rotates anticlockwise and clockwise continuously, so that the second swinging rod 30 and the second sliding rail 31 can swing left and right continuously, the first moving rod 20 drives the second crushing plate 21 to move left and right to crush fragments, the fragments with the size smaller than the aperture of the second passing screen 18 fall into the collecting box 15 after crushing, and the fragments do not need manpower to be used for secondary crushing, so that the manpower can be saved, and the operation is more convenient.

Because still including leading wheel 33, installation pole 34, wire rope 35 and first spring 36, the bottom left side is connected with leading wheel 33 in the mounting bracket 1, and left side guide pin bushing 8 is connected with installation pole 34, and the installation pole 34 bottom is connected with wire rope 35, and wire rope 35 bypasses leading wheel 33, and wire rope 35's end is connected with the left wall of collecting box 15, is connected with first spring 36 between the right wall of collecting box 15 and the left side lower part of the right wall of mounting bracket 1. When the left guide sleeve 8 moves downwards, the mounting rod 34 moves downwards, the collecting box 15 moves rightwards under the action of the elastic force of the first spring 36, when the left guide sleeve 8 moves upwards, the mounting rod 34 moves upwards, and the collecting box 15 moves leftwards under the action of the tensile force of the steel wire rope 35, so that the left-right movement of the collecting box 15 can be realized in the process of crushing rare earth ores, fragments in the collecting box 15 can continuously swing leftwards and rightwards, and the fragments can be uniformly distributed in the collecting box 15 without manpower.

Because the secondary crushing box further comprises a torsion spring 37, a swinging plate 38, a knocking block 39, a second moving rod 40 and a third moving rod 41, the upper part of the left wall of the secondary crushing box 17 is connected with the swinging plate 38 through the torsion spring 37, the lower part of the right side of the swinging plate 38 is connected with the knocking block 39, the middle part of the left side of the swinging plate 38 is connected with the second moving rod 40, the left side of the top of the first moving rod 20 is connected with the third moving rod 41, and the third moving rod 41 is matched with the second moving rod 40. When the third moving rod 41 moves leftwards along with the first moving rod 20 to be in contact with the second moving rod 40, the second moving rod 40 and the swinging plate 38 start to swing clockwise, and when the third moving rod 41 moves rightwards along with the first moving rod 20, the second moving rod 40, the swinging plate 38 and the knocking block 39 start to swing anticlockwise to knock the upper portion of the left wall of the secondary crushing box 17, so that the knocking block 39 can continuously knock the left wall of the secondary crushing box 17 through continuous left-right movement of the third moving rod 41, fragments falling on the upper portion of the left side of the secondary crushing box 17 slide onto the second sieving screen 18, and a large number of fragments are prevented from being accumulated on the inner wall of the upper portion of the left side of the secondary crushing box 17.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (1)

1. A lifting type crushing device for rare earth ore sampling detection comprises a mounting frame, a first-level crushing box, a first screen, a motor, a first gear, a second gear, a guide rail, a guide sleeve, a bearing seat and a rotating rod, wherein the upper part of the left side of the right wall of the mounting frame is connected with the first-level crushing box, the bottom of the first-level crushing box is connected with the first screen, the upper right side of the front wall of the first-level crushing box is connected with the motor, the output shaft of the motor is connected with the first gear, the lower left side of the front wall of the first-level crushing box is connected with the bearing seat, the rotating rod is mounted on the bearing seat, the rotating rod is connected with the second gear, the second gear is meshed with the first gear, the upper parts of the left wall and the right wall of the first-level crushing box are both connected with the guide rail, the guide sleeve is slidably connected on, the bottom end of the lifting rod is connected with a first crushing plate which is positioned right above the primary crushing box, the lower parts of the front walls of the guide sleeves on the left side and the right side are connected with connecting rods, the bottom ends of the connecting rods are connected with racks, the racks on the left side are meshed with a second gear, the racks on the right side are meshed with a first gear, the bottom in the mounting frame is connected with a first slide rail, the first slide rail is connected with a first slide block in a sliding manner, the top of the first slide block is connected with a collecting box, the collecting box is positioned below the first screen, the left side of the top of the collecting box is connected with a handle, the device also comprises a secondary crushing box, a second screen, a first moving rod, a second crushing plate and a moving plate, the bottom of the primary crushing box is connected with a secondary crushing box, the bottom of the secondary crushing box is connected with a second screen, and the lower part of the left wall of the secondary crushing box is provided with a first through hole, the first through hole is internally penetrated with a first moving rod, the right end of the first moving rod is connected with a second crushing plate, the bottom of the second crushing plate is contacted with the top of a second sieving screen, the middle part of the left wall of a secondary crushing box is provided with a second through hole, the upper part of the left wall of the second sieving screen is connected with a moving plate, the moving plate penetrates through the second through hole, the device also comprises a rotary disc, a chuck, a first oscillating rod, a disc, a sliding shaft, a second oscillating rod, a second sliding rail and a second sliding block, the output shaft of a motor is eccentrically connected with the rotary disc, the rotary disc is positioned at the front side of a first gear, the rotary disc is matched and provided with the chuck, the left side of the front wall of the chuck is rotatably connected with the first oscillating rod, the front end of the rotary rod is eccentrically connected with the disc, an annular groove is arranged on the disc, the sliding shaft is matched and arranged in the annular groove, the left end of the first oscillating rod is rotatably connected with the second oscillating rod, the upper part of the second oscillating rod is rotatably connected with the sliding shaft, the lower part of the second swing rod is connected with a second slide rail, the second slide rail is connected with a second slide block in a sliding way, the second slide block is rotatably connected with the left part of the first movable rod, the secondary crushing box further comprises a guide wheel, a mounting rod, a steel wire rope and a first spring, the left side of the bottom in the mounting frame is connected with the guide wheel, the left side of a guide sleeve on the left side is connected with the mounting rod, the bottom of the mounting rod is connected with the steel wire rope, the steel wire rope bypasses the guide wheel, the tail end of the steel wire rope is connected with the left wall of the collecting box, the first spring is connected between the right wall of the collecting box and the lower part of the left side of the right wall of the mounting frame, the secondary crushing box further comprises a torsion spring, a swing plate, a swing block, a second movable rod and a third movable rod, the upper part of the left wall of the secondary crushing box is connected with the swing plate through the torsion spring, the middle part of the left side of the swing plate is connected with the second movable rod, the left side of the first movable rod is connected with the third movable rod, the third movable rod is matched with the second movable rod.

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