CN206008974U - A kind of tilting pan type sorts chute - Google Patents

Abstract

A kind of tilting pan type sorts chute, including drive mechanism, the outfan of drive mechanism is fixed with power transmission shaft, power transmission shaft is connected with the separator plate of multiple sectors by bearing block, separator plate is rounded centered on power transmission shaft to be distributed in around power transmission shaft, each separator plate has near the narrow end of power transmission shaft and away from the wide end of power transmission shaft, wide end is downward-sloping relative to narrow end, mine tailing chute is provided with around wide end, panel surface is radially spaced is provided with multiple first baffles for sorting, the bottom of separator plate is connected with linkage, separator plate is driven to rotate by linkage, sorting chute working region is divided into roughly selects area, rinse area and unload mining area, roughly select to be provided with above narrow end in area and give ore deposit case, rinsing radially arranged has multiple water spouts in the top of separator plate in area, unload.Above-mentioned sorting chute can realize that continuous sorting works, and improve work efficiency, and can be not required to manually unload ore deposit with automatic sorting, reduce labor strength.

Description

A kind of tilting pan type sorts chute

Technical field

This utility model is related to a kind of gravitational separation equipment, and more particularly to a kind of tilting pan type sorts chute.

Background technology

Sorting chute is one of gravitational separation equipment, and with simple structure, consume energy low advantage, is widely used in gravel mine, stannum Operation roughly selected by ore deposit and tungsten ore.Assorting room of the material in coarse grain chute includes settling in vertical direction and moves two with along bottom land Individual stage, sedimentation in vertical direction are mainly affected by particle properties and flow method fluctuation velocity so that coarse size or density Big granule is deposited to bottom land first；For those tiny low-density particles then may be because sedimentation velocity be less than the pulsation of current Speed and all the time be in suspended state.After granule sinks to chute bottom land, substantially it is in monolayer distribution, granule of different nature will be by Realize separating according to the speed that moves along bottom land is different.Sorting chute adopts single chute structure, material to feed in actual applications Chute stops to ore deposit for a period of time afterwards, plus flushing water, and by light instrument, coarse fraction heavy mineral is cleaned out sorting manually and is slipped Groove, inefficiency, labor strength are big, poor working environment.Accordingly, it would be desirable to the equipment is improved, above-mentioned to solve Problem.

Utility model content

For the problem that prior art is present, this utility model provides one kind and continuously can work, the tilting pan type of automatic sorting Sorting chute.

To achieve these goals, this utility model is adopted the following technical scheme that：

A kind of tilting pan type sorts chute, and including drive mechanism, the outfan of the drive mechanism is fixed with power transmission shaft, described Power transmission shaft is connected with the separator plate of multiple sectors, the separator plate rounded distribution centered on the power transmission shaft by bearing block Around the power transmission shaft, each described separator plate has narrow end and the width away from the power transmission shaft near the power transmission shaft End, the wide end are downward-sloping relative to said narrow end, are provided with mine tailing chute, the sorting panel surface edge around the wide end Spaced radial is provided with multiple first baffles, and the bottom of the separator plate is connected with linkage, is driven by the linkage The separator plate is rotated, and the sorting chute working region is divided into roughly selects area, rinsing area and unload mining area, described is roughly selected in area in institute State and give ore deposit case, in the rinsing area in the separator plate top radially arranged have multiple water spouts, Described unloading in mining area is provided with concentrate chute below the separator plate.

Further, the wide end is 5 ° relative to the downward-sloping angle of said narrow end.

Further, the both sides of each separator plate are provided with the second baffle for radially extending, and the second baffle is higher than The first baffle.

Further, in the separator plate radially spaced set, each described first baffle is in arc to the first baffle Shape, its two ends are connected to the second baffle of both sides.

Further, the separator plate have 12, be divided into four groups, per 3 as one group, respectively be located at described roughly select area, The rinsing area and described unload in mining area.

Further, the bearing block is inserted in the radially secure end for having the first steel shaft, first steel shaft of said narrow end Hole in, when the separator plate is driven by the linkage, can around first steel shaft axis rotate.

Further, the bottom of the wide end is provided with wheel carrier and is supported in the separator plate, is provided with slide rail below the wheel carrier, The bottom of the wheel carrier is provided with wheel and moves along the slide rail.

Further, the radially secure end for having the second steel shaft, second steel shaft of the wide end is connected to by bearing The wheel carrier, when the linkage pulls the separator plate, the separator plate is rotated around the axis of second steel shaft.

Further, the linkage includes the first connecting rod for being articulated with the sorting tray bottom, the first connecting rod The other end is articulated with second connecting rod and third connecting rod, and the second connecting rod is articulated with fixed base plate, and the third connecting rod is located at Between the first connecting rod and the second connecting rod, its end is articulated with actuating unit, is driven by the actuating unit described Third connecting rod is moved, and then drives the second connecting rod and the first connecting rod to rotate, to drive the separator plate upset.

Further, the water spout is connected to upper hose, and the upper hose is provided with ball valve.

The beneficial effects of the utility model：

Drive mechanism drives power transmission shaft and separator plate to rotate, and makes separator plate turn to corresponding working region, separator plate elder generation Turn to and roughly select area, be deposited at first baffle to into the separator plate ore deposit, wherein bulky grain heavy mineral to ore deposit case, fine fraction Light mineral outflow separator plate is unloaded falls mine tailing chute, and then separator plate turns to rinsing area, and water spout is washed by water into separator plate, will The fine fraction light mineral being mingled with is rinsed to mine tailing chute, and then separator plate is turned to and unloads mining area, and linkage starts and drives sorting Disk overturns, and coarse fraction heavy mineral is unloaded and drops down onto concentrate chute, completed the sorting work of a separator plate, be provided with this utility model Multiple separator plates, are divided into multigroup sorting, it is possible to achieve continuous work, greatly improve work efficiency, and above-mentioned sorting can be with Automatically carried out by drive mechanism and linkage, realize automatic sorting, be not required to manually unload ore deposit, reduce labor strength.

Description of the drawings

Fig. 1 is the top view that this utility model tilting pan type sorts chute；

Fig. 2 is the sectional view of A-A in Fig. 1；

Fig. 3 is the schematic diagram of a separator plate in Fig. 2；

Fig. 4 is the partial enlarged drawing in Fig. 2 at B；

In figure, 1 drive mechanism, 2 power transmission shafts, 3 bearing blocks, 4 separator plates, 5 narrow ends, 6 wide ends, 7 Slide in one baffle plate, 8 second baffles, 9 first steel shafts, 10 second steel shafts, 11 bearings, 12 wheel carriers, 13 wheels, 14 Give ore deposit in rail, 15 linkages, 16 first connecting rods, 17 second connecting rods, 18 third connecting rods, 19 fixation base plates, 20 Case, 21 water spouts, 22 mine tailing chutes, 23 concentrate chutes.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than all Embodiment.Embodiment in based on this utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belongs to the scope of this utility model protection.

Such as Fig. 1 to Fig. 3, this utility model provides a kind of tilting pan type and sorts chute, for by light for fine fraction in ore pulp ore deposit Thing and coarse fraction heavy mineral are sorted out.Tilting pan type sorting chute includes that drive mechanism 1, drive mechanism 1 are generally motor, In the present embodiment, drive mechanism 1 is motor, is interrupted sex work.The outfan of drive mechanism 1 is fixed with power transmission shaft 2, passes Moving axis 2 is connected with the separator plate 4 of multiple sectors by bearing block 3, and separator plate 4 is rounded centered on power transmission shaft 2 to be distributed in biography Around moving axis 2, power transmission shaft 2 and separator plate 4 is driven to rotate around the axis of power transmission shaft 2 by drive mechanism 1.

Each separator plate 4 has the narrow end 5 and the wide end 6 away from power transmission shaft 2 near power transmission shaft 2, and wide end 6 is relative to narrow end 5 is downward-sloping, and in the present embodiment, the downward-sloping angle of separator plate 4 is 5 °.In the present embodiment, separator plate 4 has 12 Individual, it is divided into four groups, per 3 as one group.Corresponding, sorting chute is circumferentially formed four working regions, each working region It is divided into and roughly selects area, rinsing area and unload mining area, roughly selects in area and be provided with to ore deposit case 20, in separator plate 4 in rinsing area in the top of narrow end 5 Top radially arranged have multiple water spouts 21, water spout 21 to be connected to upper hose, ball valve is installed on upper hose, can control The water yield.Unloading in mining area and concentrate chute 23 being provided with the lower section of separator plate 4, concentrate chute 23 unloads the concentrate ore deposit in mining area for collecting Slurry.The periphery of 4 wide end 6 of separator plate is provided with mine tailing chute 22, and the mine tailing ore deposit in area and rinsing area roughly selected by mine tailing chute 22 for collecting Slurry.

4 surface of separator plate is radially spaced to be provided with multiple first baffles 7, and first baffle 7 is radially equidistant in separator plate 4 Arrange, each first baffle 7 is curved, the both sides of each 4 sector of separator plate are provided with the second baffle 8 for radially extending, first The two ends of 7 arc of baffle plate are connected to the second baffle 8 of both sides, and in the present embodiment, second baffle 8 is higher than the first baffle 7. When ore pulp is injected to ore deposit case 20 to the narrow end 5 of separator plate 4, ore pulp flows to wide end along the separator plate 4 for inclining, in flow process In, fine fraction light mineral is flowed in mine tailing chute 22, and coarse fraction heavy mineral is deposited at first baffle 7, realizes roughly selecting.Second Baffle plate 8 is arranged higher than first baffle 7, prevents ore pulp from flowing out from the both sides of separator plate 4.

Such as Fig. 2 to Fig. 4, the narrow end of separator plate 4 is fixedly connected with the first steel shaft 9 centrally along radial through bolt, and first In the hole of the other end insertion bearing block 3 of steel shaft 9, when separator plate 4 is driven rotation, can rotate around the axis of the first steel shaft 9. Wide end 6 is fixed with the second steel shaft 10 centrally along radial through bolt, and the second steel shaft 10 is parallel with the first steel shaft 9, the second steel shaft 10 end is connected to wheel carrier 12 by bearing 11, and the inner ring of bearing 11 is fixed on the second steel shaft 10, and the outer ring of bearing 11 is fixed In wheel carrier 12 so that can rotate around the axis of the second steel shaft 10 when separator plate 4 is rotated.The lower section of wheel carrier 12 is provided with slide rail 14, sliding Around rail 14 is circularized and is arranged at below separator plate 4, the bottom of wheel carrier 12 is provided with wheel 13, can move along slide rail 14, when point Select disk 4 around power transmission shaft 2 rotate when, wheel carrier 12 is moved on slide rail 14 with separator plate 4.

The bottom center of separator plate 4 is connected with linkage 15, and linkage 15 is together with wheel carrier 12 and bearing block 3 to dividing Select disk 4 to play supported at three point effect, keep stable when separator plate 4 is rotated around power transmission shaft 2.Linkage 15 includes being articulated with point The other end of the first connecting rod 16 of 4 bottom of disk, first connecting rod 16 is selected to be articulated with second connecting rod 17 and third connecting rod 18, second connecting rod 17 are articulated with fixed base plate 19, and third connecting rod 18 is located between first connecting rod 16 and second connecting rod 17, and its end is articulated with dynamic Force mechanisms (not shown), drive third connecting rod 18 to move by actuating unit, and then drive second connecting rod 17 and first connecting rod 16 Rotate, to drive separator plate 4 to overturn.

Above-mentioned drive mechanism 1, linkage 15, automatic control system is all connected to ore deposit case 20, upper hose, according to reality Need to arrange systematic parameter, automatically control between drive mechanism 1, linkage 15, the starting time to ore deposit case and 20 upper hoses Every and starting duration, realize automatic sorting function.And separator plate 4 continuously can work in rotation process, work effect is improve Rate.

Illustrate that this utility model tilting pan type sorts the course of work of chute by taking the course of work of a separator plate 4 as an example. During work, drive mechanism 1 starts, and drives separator plate 4 to turn to and roughly selects area, and then drive mechanism 1 stops, controlling to ore deposit case 20 to To ore deposit in separator plate 4, stop to ore deposit case 20 after terminating to ore deposit, ore pulp flows into the narrow end 5 of separator plate 4, and from narrow end 5 to wide end 6 Flowing, wherein bulky grain heavy mineral is deposited at first baffle 7, and fine fraction light mineral outflow separator plate 4 is unloaded falls mine tailing chute 22, realize roughly selecting.Complete set roughly select the time after, drive mechanism 1 start drive separator plate 4 rotate, enter rinsing area, then Drive mechanism 1 stops, and controls upper hose and ball valve, makes water spout 21 spray water into separator plate 4, thin by be mingled with by washings Grade light mineral is rinsed to mine tailing chute 22, realizes rinsing function.After completing the rinsing time for setting, drive mechanism 1 is opened again Dynamic drive separator plate 4 is rotated, and is entered and is unloaded mining area, and now actuating unit starts, and drivening rod mechanism 15 rotates, by third connecting rod 18 First connecting rod 16 is pulled downward on, and then drives separator plate 4 to realize 90 ° of upsets, coarse fraction heavy mineral is unloaded and drops down onto concentrate chute 23, Complete a sorting work of separator plate 4.Then repeat the above-mentioned course of work, realize that continuous sorting works.

Multiple separator plates 4 are provided with this utility model, are divided into multigroup sorting, it is possible to achieve continuous work, carry significantly High workload efficiency, and above-mentioned sorting can be carried out automatically by drive mechanism 1 and linkage 15, realized automatic sorting, be not required to Ore deposit is manually unloaded, reduces labor strength.

Above example is only unrestricted in order to the technical solution of the utility model to be described, although with reference to preferred embodiment pair This utility model has been described in detail, it will be appreciated by those skilled in the art that can enter to the technical solution of the utility model Row modification or equivalent, without deviating from the objective and scope of the technical program, which all should be covered in power of the present utility model In sharp claimed range.

Claims (10)

1. a kind of tilting pan type sorts chute, it is characterised in that include：Drive mechanism, the outfan of the drive mechanism are fixed with Power transmission shaft, the power transmission shaft are connected with the separator plate of multiple sectors by bearing block, during the separator plate with the power transmission shaft is The heart is rounded to be distributed in around the power transmission shaft, and each described separator plate has near the narrow end of the power transmission shaft and away from institute The wide end of power transmission shaft is stated, the wide end is downward-sloping relative to said narrow end, around the wide end, be provided with mine tailing chute, described Panel surface is radially spaced is provided with multiple first baffles for sorting, and the bottom of the separator plate is connected with linkage, by described Linkage drives the separator plate to rotate, and the sorting chute working region is divided into roughly selects area, rinsing area and unload mining area, described Roughly select and give ore deposit case, the top in the rinsing area in the separator plate radially arranged has Multiple water spouts, described unloading in mining area are provided with concentrate chute below the separator plate.

2. tilting pan type according to claim 1 sorts chute, it is characterised in that：The wide end is downward relative to said narrow end The angle of inclination is 5 °.

3. tilting pan type according to claim 1 sorts chute, it is characterised in that：The both sides of each separator plate are provided with edge The second baffle for radially extending, the second baffle are higher than the first baffle.

4. tilting pan type according to claim 3 sorts chute, it is characterised in that：The first baffle is in the separator plate footpath Spaced set upwards, each described first baffle are curved, and its two ends is connected to the second baffle of both sides.

5. tilting pan type according to claim 1 sorts chute, it is characterised in that：The separator plate has 12, is divided into four Group, per 3 as one group, is located at respectively and described roughly select area, the rinsing area and described unload in mining area.

6. tilting pan type according to claim 1 sorts chute, it is characterised in that：Said narrow end is radially secure the first steel Axle, the end of first steel shaft are inserted in the hole of the bearing block, when the separator plate is driven by the linkage, can Axis around first steel shaft is rotated.

7. tilting pan type according to claim 1 sorts chute, it is characterised in that：The bottom of the wide end is provided with wheel carrier support Slide rail is provided with below the separator plate, the wheel carrier, and the bottom of the wheel carrier is provided with wheel and moves along the slide rail.

8. tilting pan type according to claim 7 sorts chute, it is characterised in that：The wide end is radially secure the second steel Axle, the end of second steel shaft are connected to the wheel carrier by bearing, when the linkage pulls the separator plate, institute The axis that separator plate is stated around second steel shaft is rotated.

9. tilting pan type according to claim 1 sorts chute, it is characterised in that：The linkage includes being articulated with described The first connecting rod of sorting tray bottom, the other end of the first connecting rod are articulated with second connecting rod and third connecting rod, and described second connects Bar is articulated with fixed base plate, and the third connecting rod is located between the first connecting rod and the second connecting rod, and its end is hinged In actuating unit, the third connecting rod movement is driven by the actuating unit, and then drive the second connecting rod and described the One link rotatable, to drive the separator plate upset.

10. tilting pan type according to claim 1 sorts chute, it is characterised in that：The water spout is connected to upper hose, institute State upper hose and be provided with ball valve.