CN110672391A

CN110672391A - Multistage splitter of ore with mixing function

Info

Publication number: CN110672391A
Application number: CN201911015427.8A
Authority: CN
Inventors: 左志坚
Original assignee: Individual
Current assignee: Mingguang Hengding Attapulgite Clay Co ltd
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2020-01-10
Anticipated expiration: 2039-10-24
Also published as: CN110672391B

Abstract

The invention relates to an ore multistage divider, in particular to an ore multistage divider with a blending function. The technical problem to be solved is to provide an ore multi-stage splitter with a blending function, which has the blending function and is convenient to operate. An ore multistage divider with a blending function comprises a concave frame, a connecting rod, a guide rail, a guide block, an arc-shaped frame, a blanking device, a concave oscillating rod and the like; the front side and the rear side of the upper part of the concave frame are both provided with connecting rods, the bottom ends of the connecting rods at the front side and the rear side are both connected with guide rails, the guide rails are connected with at least two guide blocks in a sliding mode, and an arc-shaped frame is connected between the inner sides of the guide blocks. According to the ore mixing device, the speed reduction motor can drive the ore in the arc-shaped frame to be mixed uniformly, and meanwhile, the ore in the mixing frame can be driven to be mixed uniformly, so that the accuracy of ore detection can be improved, the device is more convenient to use, and the device can perform multi-stage division on the ore, so that the sample preparation requirement of the ore is better met.

Description

Multistage splitter of ore with mixing function

Technical Field

The invention relates to an ore multistage divider, in particular to an ore multistage divider with a blending function.

Background

The division is a key procedure for sample preparation, and aims to reduce the sample amount. The division of the sample can be performed mechanically or manually. When the ore is sampled, the ore needs to be divided in order to reduce the sample amount.

When the ore is being reduced, need the staff to mix the ore, then pour into the division ware and go, the ore after the division all uses the bucket to collect at present, then pours into the division ware again and goes to carry out the division once more, such mode intensity of labour is very big to the ore mixes and also needs to go on in addition, has increased workman's burden, and the inhomogeneous result that still can influence the sample and detect of ore mixture simultaneously.

Therefore, it is necessary to design an ore multistage splitter with a blending function, which has a blending function and is convenient to operate, aiming at the defects of the prior art.

Disclosure of Invention

In order to overcome the defects that the existing splitter has no uniform mixing function and high labor intensity, the technical problems to be solved are as follows: provides an ore multi-stage divider with a blending function, which has the blending function and is convenient to operate.

The technical scheme is as follows: the utility model provides an ore multistage divider with mixing function, including: a concave frame; the two connecting rods are V-shaped and are arranged in the front and back directions of the upper part of the concave frame; two guide rails are arranged and mounted at the bottom end of the connecting rod; the four guide blocks are arranged in the guide rail in a sliding manner; the arc frame is arranged between the guide blocks on the front side and the rear side; the two blanking devices are arranged on the left side and the right side of the arc-shaped frame; two concave oscillating rods are arranged on the concave frame; two collecting containers are arranged on the concave oscillating rod and on the left side of the concave oscillating rod; the arc-shaped plate is slidably arranged at the bottom of the left collection container; and the mixing device is arranged on the right collecting container.

Further, unloader has all opened the spout including slider, elasticity rope and cowl, the arc frame left and right sides upper portion, and the spout inward sliding type is connected with the slider, is connected with the elasticity rope between slider and the arc frame, and the slider outside all is connected with cowl, and the blanking hole has all been opened to the arc frame bottom left and right sides, and cowl plugs up the blanking hole.

Further, the compounding device is including mixing the frame, gear motor, sector gear, torque spring and all-gear, the rotary type is connected with mixed frame in the collection container on right side, it has the feed port to mix open at the frame top, the rotating part that mixes the frame is worn out the collection container antetheca and is connected with all-gear, be connected with torque spring between all-gear and the collection container antetheca, it has the arc hole to open on the collection container right side on right side, gear motor is installed to concave frame antetheca, be connected with on gear motor's the output shaft with all-gear engagement's sector gear.

Further, discharging device is including collecting the frame, the guide pin bushing, the striker plate, the arch plate, the shell fragment, baffle and first extension spring, the hole that leaks has all been opened to the collection container bottom on mixed frame and right side, the collection container bottom slidingtype on right side is equipped with collects the frame, it has the branch material hole to collect open the frame bottom, be equipped with the guide pin bushing in the middle of the collection frame bottom, the guide pin bushing inward sliding type is connected with the baffle, be connected with first extension spring between baffle bottom and the guide pin bushing, baffle upper portion is equipped with the striker plate, all be equipped with the shell fragment on the collection container of the hole left and right sides that leaks, be connected with the arch plate between the shell fragment.

Further, still including axis of rotation, belt pulley, flat belt, cam and V shaped plate, concave frame middle part rotary type is equipped with the axis of rotation, all is connected with the belt pulley in gear motor's the output shaft and the axis of rotation, around having flat belt between the belt pulley, is equipped with the cam in the axis of rotation, and arc frame bottom center is equipped with the V shaped plate.

Furthermore, the device also comprises an inserted link and a second extension spring, the partition board is provided with a jack, the connecting piece of the guide sleeve is connected with the inserted link in a sliding way, and the second extension spring is connected between the right end of the inserted link and the connecting piece of the guide sleeve.

The invention has the beneficial effects that: according to the ore mixing device, the speed reduction motor can drive the ore in the arc-shaped frame to be mixed uniformly, and meanwhile, the ore in the mixing frame can be driven to be mixed uniformly, so that the accuracy of ore detection can be improved, the device is more convenient to use, and the device can perform multi-stage division on the ore, so that the sample preparation requirement of the ore is better met.

Drawings

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

Fig. 2 is a partial schematic front view of the present invention.

Reference numerals: 1 concave frame, 2 connecting rods, 3 guide rails, 4 guide blocks, 5 arc-shaped frames, 6 sliding grooves, 7 sliding blocks, 8 elastic ropes, 9 arc-shaped baffles, 10 blanking holes, 11 concave oscillating rods, 12 collection containers, 13 discharge holes, 14 arc-shaped plates, 15 mixing frames, 16 feed holes, 17 reduction motors, 18 sector gears, 19 torsion springs, 20 arc-shaped holes, 21 full gears, 22 material leakage holes, 23 collection frames, 24 material distribution holes, 25 guide sleeves, 26 material baffle plates, 27 arch-shaped plates, elastic sheets, 28 partition plates, 271 first extension springs, 30 rotating shafts, 31 belt pulleys, 32 flat belts, 33 cams, 331V-shaped plates, 34 jacks, 35 inserted rods and 36 second extension springs.

Detailed Description

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

Example 1

A multi-stage ore divider with a blending function, please refer to fig. 1 and fig. 2, which comprises a concave frame 1, a connecting rod 2, a guide rail 3, a guide block 4, an arc frame 5, a blanking device, a concave oscillating rod 11, a collecting container 12, an arc plate 14, a mixing device and a discharging device, wherein the connecting rod 2 is arranged at the front and the rear sides of the upper part of the concave frame 1, the guide rail 3 is connected to the bottom end of the connecting rod 2 at the front and the rear sides, the two guide blocks 4 are connected in a sliding way in the guide rail 3, the arc frame 5 is connected between the inner sides of the guide blocks 4, the blanking device which discharges ores in a rotating way is arranged on the arc frame 5, the two concave oscillating rods 11 are rotatably arranged at the upper part of the concave frame 1, the collecting container 12 is arranged at the lower part of the concave oscillating rod 11, a discharging hole 13 is arranged at the bottom of the left collecting container 12, a mixing device for mixing materials in a shaking mode is connected between the collecting container 12 on the right side and the concave frame 1, and a discharging device for discharging materials in a pulling mode is arranged at the bottom of the collecting container 12 on the right side. Specifically, when the device is required to be used for ore division, a user firstly pours ores required to be divided into the arc-shaped frame 5, after the ores are poured into the arc-shaped frame 5, the user can swing the arc-shaped frame 5 left and right to drive the ores in the arc-shaped frame 5, so that the ores in the arc-shaped frame 5 can be uniformly mixed, after the ores in the arc-shaped frame 5 are uniformly mixed, the user opens the blanking device, so that the ores in the arc-shaped frame 5 flow into the collecting containers 12 on the left and right sides through the blanking device, then the user swings the collecting containers 12 upwards through the concave swinging rods 11, so that the ores in the collecting containers 12 can be poured back into the arc-shaped frame 5 again, then the user repeats the steps, the ores are divided again, after the ores are divided for the first time, the user pulls the arc-shaped plate 14 to the left side, so that the arc-shaped plate 14 does not block the discharge holes 13 any more, and discharges, a second reduction of ore in the right collection container 12 is then commenced. At this moment, the user control compounding device begins to work, make the ore in the right side collecting container 12 can the mixing, then the discharging device is opened to the user, make the right side collecting container 12 can carry out the second time division, the ore after the division enters into discharging device in, then the user is again in discharging device emits the ore and falls back right side collecting container 12 once more, then repeat above step, continue to carry out the division, the ore secondary division finishes the back, the user takes out the sample after the division through discharging device.

Please refer to 1, the discharging device comprises a sliding block 7, an elastic rope 8 and an arc-shaped baffle plate 9, sliding grooves 6 are formed in the upper portions of the left side and the right side of an arc-shaped frame 5, the sliding block 7 is connected to the sliding grooves 6 in a sliding mode, the elastic rope 8 is connected between the sliding block 7 and the arc-shaped frame 5, the arc-shaped baffle plate 9 is connected to the outer side of the sliding block 7 through bolts, discharging holes 10 are formed in the left side and the right side of the bottom of the arc-shaped frame 5, and the arc. Specifically, when the ore of mixing in needs frame 5 contracts, the user need upwards stimulate cowl 9 for cowl 9 rebound opens unloading hole 10, elasticity rope 8 is stretched, the back is opened to unloading hole 10, the ore of mixing will fall into through unloading hole 10 in the frame 5 in collecting container 12, the ore in frame 5 is whole to fall down the back, the user loosens cowl 9, elasticity rope 8 resets, it keeps off unloading hole 10 to drive cowl 9 to reset.

Example 2

Referring to fig. 1 and 2, the mixing device includes a mixing frame 15, a speed reducing motor 17, a sector gear 18, a torsion spring 19 and a full gear 21, the mixing frame 15 is rotatably connected in the collecting container 12 on the right side, a feeding hole 16 is formed in the top of the mixing frame 15, a rotating part of the mixing frame 15 penetrates through the front wall of the collecting container 12 and is connected with the full gear 21, the torsion spring 19 is connected between the full gear 21 and the front wall of the collecting container 12, an arc-shaped hole 20 is formed in the right side of the collecting container 12 on the right side, the speed reducing motor 17 is installed on the front wall of the concave frame 1 through a bolt, and the sector gear 18 meshed with the full gear 21. Specifically, after the ore enters into right side collection container 12, can enter into in the mixing frame 15, when the ore mixing in the frame 15 will be mixed to needs, the user can control gear motor 17 and rotate, drive sector gear 18 and rotate, and then drive full gear 21 and rotate, make mixing frame 15 rotate, torsion spring 19 is compressed, when sector gear 18 and full gear 21 separate, torsion spring 19 resets and drives mixing frame 15 reversal, so relapse, make the continuous just reversal of mixing frame 15, make the ore in mixing frame 15 can the mixing, after the ore mixing in mixing frame 15, user control gear motor 17 stop work.

Referring to fig. 1 and 2, the discharging device includes a collecting frame 23, a guide sleeve 25, a baffle 26, an arch-shaped plate 27, elastic pieces 271, a partition 28 and a first extension spring 29, the bottom of the mixing frame 15 and the bottom of the collecting container 12 on the right side are both provided with material leaking holes 22, the bottom of the collecting container 12 on the right side is slidably provided with the collecting frame 23, the bottom of the collecting frame 23 is provided with material distributing holes 24, the middle of the bottom of the collecting frame 23 is provided with the guide sleeve 25 through bolts, the guide sleeve 25 is internally connected with the partition 28 which slides up and down, the first extension spring 29 is connected between the bottom of the partition 28 and the guide sleeve 25, the baffle 26 is arranged on the upper portion of the partition 28, the collecting containers 12 on the left and right sides of the material leaking holes 22 are both provided with the elastic pieces 271. Specifically, when the ore in the mixing frame 15 needs to be contracted for the second time, the user can pull the partition plate 28 downwards, the first extension spring 29 is extended, the striker plate 26 moves downwards to block the distributing hole 24, meanwhile, the elastic piece 271 swings downwards to drive the arch plate 27 to move downwards to open the leaking hole 22, the ore in the mixing frame 15 falls through the leaking hole 22 to enter the space on the left side and the right side of the collecting frame 23, after all the ore in the mixing frame 15 enters the collecting frame 23, the user needs to keep the arch plate 27 with the hand to block the position of the leaking hole 22 again, the user can rotate the collecting frame 23 to the right side to enable the outlet of the collecting frame 23 to face the arc-shaped hole 20, so that the ore in the collecting frame 23 returns to the mixing frame 15 again, then the collecting frame 23 rotates downwards to reset, at this time, the user loosens the partition plate 28, the first extension spring 29 resets to drive the partition plate 28 to move upwards to reset, the arch plate 27 is rested. When the division is finished and the sample to be divided needs to be taken out, a user firstly pulls the partition plate 28 downwards, so that ores in the mixing frame 15 enter the collecting frame 23, then the partition plate 28 is loosened, the material baffle plate 26 moves upwards to open the material dividing hole 24, the divided ores flow out through the material dividing hole 24, and the user collects the divided ores.

Example 3

Referring to fig. 1 and 2, on the basis of embodiments 1 and 2, in order to reduce the workload of the worker, the frame further includes a rotating shaft 30, a belt pulley 31, a flat belt 32, a cam 33 and a V-shaped plate 331, the rotating shaft 30 is rotatably disposed in the middle of the concave frame 1, the belt pulley 31 is connected to both the output shaft of the reduction motor 17 and the rotating shaft 30, the flat belt 32 is wound between the belt pulleys 31, the cam 33 is keyed on the rotating shaft 30, and the V-shaped plate 331 is disposed at the center of the bottom of the arc-shaped frame 5. Specifically, when needs are with the ore mixing in the arc frame 5, the user can control gear motor 17 and rotate, drives cam 33 through belt pulley 31 and flat belt 32 and rotates, and cam 33 rotates when contacting with V-arrangement board 331, promotes arc frame 5 and shakes about for the ore in the arc frame 5 can obtain the mixing, behind the ore mixing in the arc frame 5, control gear motor 17 stop work.

Referring to fig. 2, in order to better operate the apparatus, the apparatus further includes an insertion rod 35 and a second extension spring 36, the partition 28 is provided with an insertion hole 34, the insertion rod 35 is slidably connected to the connecting member of the guide sleeve 25, and the second extension spring 36 is welded between the right end of the insertion rod 35 and the connecting member of the guide sleeve 25. Specifically, when the user pulls the partition plate 28 downwards, the inserting hole 34 is driven to move downwards to the left side of the inserting rod 35, the material blocking plate 26 just blocks the material distributing hole 24, at the moment, the inserting rod 35 is directly inserted into the inserting hole 34 under the action of the second extension spring 36 to fix the partition plate 28, so that the user is not required to keep the position of the partition plate 28 after being used all the time, the user is enabled to use more conveniently, and when the partition plate 28 needs to be reset, the inserting rod 35 is pulled out.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. The utility model provides an ore multistage splitter with mixing function which characterized in that, including:

a concave frame (1);

the two connecting rods (2) are V-shaped and are arranged in the front and back directions of the upper part of the concave frame (1);

two guide rails (3) are arranged at the bottom end of the connecting rod (2);

the four guide blocks (4) are arranged in the guide rail (3) in a sliding manner;

the arc-shaped frame (5) is arranged between the guide blocks (4) on the front side and the rear side;

two blanking devices are arranged on the left side and the right side of the arc-shaped frame (5);

two concave oscillating rods (11) are arranged on the concave frame (1);

two collecting containers (12) are arranged on the concave oscillating rod (11), and the bottom of the collecting container (12) on the left side is provided with a discharge hole (13);

an arc-shaped plate (14) is slidably arranged at the bottom of the left collection container (12);

and the mixing device is arranged on the right collecting container (12).

2. The ore multistage splitter with the uniformly mixing function according to claim 1, wherein the blanking device comprises a sliding block (7), an elastic rope (8) and an arc-shaped baffle plate (9), sliding grooves (6) are formed in the upper portions of the left side and the right side of the arc-shaped frame (5), the sliding block (7) is connected to the sliding grooves (6) in an inner sliding mode, the elastic rope (8) is connected between the sliding block (7) and the arc-shaped frame (5), the arc-shaped baffle plate (9) is connected to the outer side of the sliding block (7), blanking holes (10) are formed in the left side and the right side of the bottom of the arc-shaped frame (5), and the blanking holes (10) are blocked by the arc-shaped baffle.

3. The ore multistage splitter with the blending function according to claim 2, characterized in that the mixing device comprises a mixing frame (15), a speed reduction motor (17), a sector gear (18), a torsion spring (19) and a full gear (21), the mixing frame (15) is connected to the right side of the collecting container (12) in a rotating mode, a feeding hole (16) is formed in the top of the mixing frame (15), a rotating part of the mixing frame (15) penetrates out of the front wall of the collecting container (12) to be connected with the full gear (21), the torsion spring (19) is connected between the full gear (21) and the front wall of the collecting container (12), an arc-shaped hole (20) is formed in the right side of the collecting container (12) on the right side of the collecting container, the speed reduction motor (17) is installed on the front wall of the concave frame (1), and the sector gear (18) meshed with the full gear (21) is.

4. The ore multistage splitter with the uniformly mixing function according to claim 3, wherein the discharging device comprises a collecting frame (23), a guide sleeve (25), a material baffle (26), an arch-shaped plate (27), an elastic sheet (271), a partition plate (28) and a first stretching spring (29), the bottoms of the mixing frame (15) and the collecting container (12) on the right side are respectively provided with a material leaking hole (22), the bottom of the collecting container (12) on the right side is provided with the collecting frame (23) in a sliding manner, the bottom of the collecting frame (23) is provided with a material distributing hole (24), the middle of the bottom of the collecting frame (23) is provided with the guide sleeve (25), the guide sleeve (25) is connected with the partition plate (28) in an inner sliding manner, the first stretching spring (29) is connected between the bottom of the partition plate (28) and the guide sleeve (25), the material baffle (26) is arranged on the upper part of the partition plate (28), the elastic sheets (271) are, an arch-shaped plate (27) is connected between the bottom ends of the elastic sheets (271), and the bottom of the arch-shaped plate (27) is in contact with the top of the partition plate (28).

5. The ore multistage splitter with the uniformly mixing function according to claim 4, further comprising a rotating shaft (30), a belt pulley (31), a flat belt (32), a cam (33) and a V-shaped plate (331), wherein the rotating shaft (30) is rotatably arranged in the middle of the concave frame (1), the belt pulleys (31) are respectively connected to an output shaft of the speed reducing motor (17) and the rotating shaft (30), the flat belt (32) is wound between the belt pulleys (31), the cam (33) is arranged on the rotating shaft (30), and the V-shaped plate (331) is arranged at the center of the bottom of the arc-shaped frame (5).

6. The ore multistage splitter with the blending function according to claim 5, further comprising an insertion rod (35) and a second extension spring (36), wherein the partition plate (28) is provided with an insertion hole (34), the insertion rod (35) is connected to the connecting piece of the guide sleeve (25) in a sliding manner, and the second extension spring (36) is connected between the right end of the insertion rod (35) and the connecting piece of the guide sleeve (25).