CN204208661U - A kind of feeding distribution mechanism - Google Patents

Abstract

The utility model discloses a kind of feeding distribution mechanism, comprise distributing trough and sub-material rotating disk, dividing plate is provided with in described distributing trough, distributing trough interior separation is at least two relatively independent conveying passages by described dividing plate, one end of described conveying passage is corresponding with the discharging opening of sub-material rotating disk to be communicated with, its other end is provided with mineral aggregate outlet, described sub-material rotating disk is provided with at least one discharging opening, described sub-material rotating disk is by rotating, make in many conveying passages, to have at least a conveying passage not carry out cloth, and remaining conveying passage carries out cloth simultaneously.The utility model is coordinated by distributing trough and sub-material rotating disk, by the rotation of sub-material rotating disk, make to have at least a conveying passage not carry out cloth in many conveying passages in distributing trough, and remaining conveying passage carries out cloth simultaneously, while realization carries out cloth to many conveying passages, also meet the requirement to being in conveying passage corresponding to recovery state and not carrying out cloth.

Description

A kind of feeding distribution mechanism

Technical field

The utility model belongs to technical field of mechanical equipment, particularly a kind of feeding distribution mechanism be mainly used in sandy soil heavy metal screening machine.

Background technology

In the sand ore separators of existing river, concrete structural design is not proposed for the problem of how to carry out sub-material before the choosing of river sand sieve, how to realize the alternative expression cloth of river sand and reclaim and the coordinating of cloth, it is the technical problem underlying needing at present to solve, in addition, because metal recovery band is after screening is collected, its surface can deposit more mine tailing, if directly reclaim, the purity of fine fodder can be affected.

Utility model content

Goal of the invention of the present utility model is: for above-mentioned Problems existing, provides a kind of and effectively can solve the sub-material of sandy soil and the cloth that the mode of sub-material meets metal recovery band coordinates with recovery the feeding distribution mechanism required.

The technical solution of the utility model is achieved in that a kind of feeding distribution mechanism, it is characterized in that: comprise distributing trough and sub-material rotating disk, dividing plate is provided with in described distributing trough, distributing trough interior separation is at least two relatively independent conveying passages by described dividing plate, one end of described conveying passage is corresponding with the discharging opening of sub-material rotating disk to be communicated with, its other end is provided with mineral aggregate outlet, described sub-material rotating disk is provided with at least one discharging opening, described sub-material rotating disk is by rotating, make in many conveying passages, to have at least a conveying passage not carry out cloth, and remaining conveying passage carries out cloth simultaneously.

Feeding distribution mechanism described in the utility model, it is provided with at least one guide plate in described conveying passage, and described guide plate is arranged along the throughput direction of conveying passage and separated by the conveying passage of correspondence.

Feeding distribution mechanism described in the utility model, described in it, sub-material rotating disk comprises inner ring and outer ring, described outer ring upper and lower side is connected to form a cavity with shrouding and base plate respectively, described inner ring is arranged in cavity, described shrouding is provided with the charging aperture be communicated with inner ring, described discharging opening is arranged on base plate, described inner ring lower side is provided with the radial opening corresponding with discharging opening, described mineral aggregate enters inner ring by charging aperture, then is flow in corresponding conveying passage by discharging opening corresponding with it after radial opening.

Feeding distribution mechanism described in the utility model, its mineral aggregate at described conveying passage outlet below correspondence is provided with guiding gutter.

Feeding distribution mechanism described in the utility model, its every bar conveying passage correspondence is provided with jettison gear, described distributing trough is provided with storage tank, described jettison gear is placed in storage tank, described jettison gear comprises discharge water bucket and capping, the described bottom of the barrel that discharges water is provided with the dewatering outlet be communicated with distributing trough, described capping is arranged on dewatering outlet place and is sealed, the described barrel side that discharges water is provided with the through hole be communicated with storage tank, described capping is provided with lift arm, described lift arm one end is hinged with barrel side that discharges water, be connected with lifting piece in the middle part of described lift arm.

Feeding distribution mechanism described in the utility model, lifting piece described in it comprises chain and steel wire A, hinged in the middle part of described chain lower end and lift arm, its upper end is connected with steel wire A lower end, and described steel wire A upper end is connected with return spring seat through being arranged on the steel wire guide pipe discharged water on bucket.

Feeding distribution mechanism described in the utility model, lifting piece described in it is connected with switching device by corresponding return spring seat, described switching device controls the capping opening and closing of corresponding jettison gear, by the water in storage tank through conveying passage to do not carry out cloth and prepare fine fodder reclaim metal recovery band rinse.

Feeding distribution mechanism described in the utility model, switching device described in it comprises driving gear and is arranged in driving gear surrounding and equally distributed multiple driven gear, the quantity of described driven gear is consistent with the quantity of conveying passage, on described driven gear, solderless wrapped connection has steel wire B, the described steel wire B other end is connected with return spring seat, described driving gear part is provided with tooth, described driving gear rotates and can engage with corresponding driven gear respectively for one week, positioning round table is provided with below described driving gear, the limit cam with positioning round table corresponding matching is provided with in the below of described driven gear, when described driving gear does not engage with driven gear, described limit cam leans against positioning round table surface, when described driving gear engages with corresponding driven gear, described driven gear rotates and limit cam leaves positioning round table, pull steel wire B simultaneously, by return spring seat the capping of jettison gear opened and wash by water, when described driving gear and driven gear are thrown off, return spring seat resets and drives steel wire B to pull driven gear to rotate backward, until the limit cam of driven gear is resisted against the positioning round table surface of driving gear, the capping of described jettison gear is closed.

Feeding distribution mechanism described in the utility model, described in it, sub-material rotating disk and driving gear are connected and synchronous axial system with power transmission shaft respectively, described sub-material rotating disk rotates under the effect of power transmission shaft, cloth is carried out to corresponding conveying passage, driving gear rotates under the effect of power transmission shaft simultaneously, its driven gear corresponding with the conveying passage not carrying out cloth is engaged, and the jettison gear pulling open the conveying passage that do not carry out cloth corresponding discharges water, rinse not carrying out cloth and preparing the metal recovery band that fine fodder reclaims.

Feeding distribution mechanism described in the utility model, described in it, return spring seat comprises urceolus, pull bar, spring and roller, described pull bar one end is inserted in urceolus, described spring to be placed in urceolus and to be socketed on pull bar, described spring one end is resisted against on the boss of tie rod end, its other end is resisted against on urceolus inner convex platform, and one end that described steel wire A upper end is placed in urceolus through roller and pull bar is connected, and described steel wire B is connected with the other end of pull bar by steel wire fairlead.

The utility model is coordinated by distributing trough and sub-material rotating disk, by the rotation of sub-material rotating disk, make to have at least a conveying passage not carry out cloth in many conveying passages in distributing trough, and remaining conveying passage carries out cloth simultaneously, while realization carries out cloth to many conveying passages, also the requirement to being in conveying passage corresponding to recovery state and not carrying out cloth is met, and can also realize carrying out discharging water the object of rinsing for not carrying out cloth and preparing metal recovery band that fine fodder reclaims simultaneously, thus the mine tailing of metal recovery belt surface is washed out, in order to avoid there is too much mine tailing to enter fine fodder, affect the purity of fine fodder.

Accompanying drawing explanation

Fig. 1 is sectional view of the present utility model.

Fig. 2 is the structural representation that in the utility model, distributing trough coordinates with sub-material rotating disk.

Fig. 3 is the structural representation of distributing trough in the utility model.

Fig. 4 is the sectional view of sub-material rotating disk in the utility model.

Fig. 5 is the top view of sub-material rotating disk in the utility model.

Fig. 6 is the syndeton schematic diagram of jettison gear in the utility model, return spring seat and switching device.

Fig. 7 is the structural representation of jettison gear in the utility model.

Fig. 8 is the structural representation of bucket of discharging water in jettison gear.

Fig. 9 is the structural representation of the utility model breaker in middle device.

Figure 10 is the structural representation of driving gear in switching device.

Figure 11 is the structural representation of driven gear in switching device.

Figure 12 is the structural representation of return spring seat in the utility model.

Mark in figure: 1 is distributing trough, 2 is sub-material rotating disk, 3 is dividing plate, 4 is conveying passage, 5 is discharging opening, 6 is mineral aggregate outlet, 7 is guide plate, 8 is inner ring, 9 is outer ring, 10 is shrouding, 11 is base plate, 12 is charging aperture, 13 is radial opening, 14 is guiding gutter, 15 is jettison gear, 16 is storage tank, 17 is the bucket that discharges water, 18 is capping, 19 is dewatering outlet, 20 is through hole, 21 is lift arm, 22 is chain, 23 is return spring seat, 24 is switching device, 25 is driving gear, 26 is driven gear, 27 is steel wire B, 28 is positioning round table, 29 is limit cam, 30 is power transmission shaft, 31 is steel wire A, 32 is steel wire guide pipe, 33 is urceolus, 34 is pull bar, 35 is spring, 36 is roller, 37 is steel wire fairlead.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As Fig. 1, shown in 2 and 3, a kind of feeding distribution mechanism, comprise distributing trough 1 and sub-material rotating disk 2, dividing plate 3 is provided with in described distributing trough 1, distributing trough 1 interior separation is four relatively independent conveying passages 4 by described dividing plate 3, two guide plates 7 are provided with in each conveying passage 4, described guide plate 7 is arranged along the throughput direction of conveying passage 4 and is separated by the conveying passage 4 of correspondence, be convenient to placer Uniform Flow, one end of described conveying passage 4 is corresponding with the discharging opening 5 of sub-material rotating disk 2 to be communicated with, its other end is provided with mineral aggregate outlet 6, below the mineral aggregate outlet 6 of described conveying passage 4, correspondence is provided with guiding gutter 14, described sub-material rotating disk 2 is provided with three discharging openings 5, described sub-material rotating disk 2 is by rotating, make in four conveying passages 4, have a conveying passage 4 not carry out cloth, and remaining three conveying passages 4 carry out cloth simultaneously.

As shown in Figures 4 and 5, described sub-material rotating disk 2 comprises inner ring 8 and outer ring 9, described outer ring 9 upper and lower side is connected to form a cavity with shrouding 10 and base plate 11 respectively, described inner ring 8 is arranged in cavity, described shrouding 10 is provided with the charging aperture 12 be communicated with inner ring 8, described discharging opening 5 is arranged on base plate 11, described inner ring 8 lower side is provided with the radial opening 13 corresponding with discharging opening 5, described mineral aggregate enters inner ring 8 by charging aperture 12, then is flow in corresponding conveying passage 4 by discharging opening 5 corresponding with it after radial opening 13.

As shown in figs. 1 and 6, every bar conveying passage 4 correspondence is provided with jettison gear 15, described distributing trough 1 is provided with storage tank 16, described jettison gear 15 is placed in storage tank 16, each jettison gear 15 is connected with switching device 24 by corresponding return spring seat 23, described switching device 24 controls the opening and closing of corresponding jettison gear 15, by the water in storage tank 16 through conveying passage 4 to do not carry out cloth and prepare fine fodder reclaim metal recovery band rinse.

As shown in FIG. 7 and 8, described jettison gear 15 comprises discharge water bucket 17 and capping 18, the dewatering outlet 19 be communicated with distributing trough 1 is provided with bottom the described bucket 17 that discharges water, described capping 18 is arranged on dewatering outlet 19 place and is sealed, described bucket 17 side that discharges water is provided with the through hole 20 be communicated with storage tank 16, described capping 18 is provided with lift arm 21, described lift arm 21 one end is hinged with bucket 17 side that discharges water, be connected with lifting piece in the middle part of described lift arm 21, described lifting piece comprises chain 22 and steel wire A31, hinged in the middle part of described chain 22 lower end and lift arm 21, its upper end is connected with steel wire A31 lower end, described steel wire A31 upper end is connected with return spring seat 23 through being arranged on the steel wire guide pipe 32 discharged water on bucket 17, described lifting piece is connected with switching device 24 by corresponding return spring seat 23, described switching device 24 controls capping 18 opening and closing of corresponding jettison gear 15.

As Fig. 9, shown in 10 and 11, described switching device 24 comprises driving gear 25 and is arranged in driving gear 25 surrounding and equally distributed four driven gears 26, the quantity of described driven gear 26 is consistent with the quantity of conveying passage 4, on described driven gear 26, solderless wrapped connection has steel wire B27, the described steel wire B27 other end is connected with return spring seat 23, described driving gear 25 part is provided with tooth, described driving gear 25 rotates and can engage with corresponding driven gear 26 respectively for one week, positioning round table 28 is provided with below described driving gear 25, the limit cam 29 with positioning round table 28 corresponding matching is provided with in the below of described driven gear 26, when described driving gear 25 does not engage with driven gear 26, described limit cam 29 leans against positioning round table 28 surface, when described driving gear 25 engages with corresponding driven gear 26, described driven gear 26 rotates and limit cam 29 leaves positioning round table 28, pull steel wire B27 simultaneously, by return spring seat 23 capping 18 of jettison gear 15 opened and wash by water, when described driving gear 25 is thrown off with driven gear 26, return spring seat 23 resets and drives steel wire B27 to pull driven gear 26 to rotate backward, until the limit cam 29 of driven gear 26 is resisted against positioning round table 28 surface of driving gear 25, the capping 18 of described jettison gear 15 is closed.

Wherein, described sub-material rotating disk 2 is connected and synchronous axial system with power transmission shaft 30 respectively with driving gear 25, described sub-material rotating disk 2 rotates under the effect of power transmission shaft 30, cloth is carried out to corresponding conveying passage 4, driving gear 25 rotates under the effect of power transmission shaft 30 simultaneously, its driven gear 26 corresponding with the conveying passage 4 not carrying out cloth is engaged, and the jettison gear 15 pulling open conveying passage 4 correspondence of not carrying out cloth discharges water, to do not carry out cloth and prepare fine fodder reclaim metal recovery band rinse.

As shown in figure 12, described return spring seat 23 comprises urceolus 33, pull bar 34, spring 35 and roller 36, described pull bar 34 one end is inserted in urceolus 33, described spring 35 to be placed in urceolus 33 and to be socketed on pull bar 34, described spring 35 one end is resisted against on the boss of pull bar 34 end, its other end is resisted against on urceolus 33 inner convex platform, one end that described steel wire A31 upper end is placed in urceolus 33 through roller 36 and pull bar 34 is connected, and described steel wire B27 is connected with the other end of pull bar 34 by steel wire fairlead 37.

The setting of described jettison gear, its object is to before reclaiming fine fodder each time, washes out, in order to avoid there is too much mine tailing to enter fine fodder, affect the purity of fine fodder with the mine tailing of water by metal recovery band top layer.By the driving gear of switching device is connected with power transmission shaft, make itself and power transmission shaft synchronous axial system, driving gear rotates 1/4 circle at every turn, four driven gears being distributed in surrounding are driven to rotate successively, in the rotation process of driven gear, steel wire B is pulled, thus the spring in compression retracteding position spring seat, by lifting piece, the capping in jettison gear is mentioned, the water in storage tank is made to enter conveying passage corresponding in distributing trough, metal recovery band is flowed to by guiding gutter, play the effect of flushing, the unnecessary mine tailing being distributed in metal recovery belt surface is washed out, to improve feed recovery purity.Wherein, the driving gear of switching device only there is several tooth, throw off with driven gear after rotating 1/4 circle, by the reset of Compress Spring in return spring seat, steel wire A is retracted, until the positioning round table of limit cam on driven gear and driving gear is fitted, to ensure driven gear energy parking position accuracy, now corresponding jettison gear is in closed condition, and the rotation of next 1/4 circle of driving gear drives another driven gear to rotate, and realizes above-mentioned action.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a feeding distribution mechanism, it is characterized in that: comprise distributing trough (1) and sub-material rotating disk (2), dividing plate (3) is provided with in described distributing trough (1), distributing trough (1) interior separation is at least two relatively independent conveying passages (4) by described dividing plate (3), one end of described conveying passage (4) is corresponding with the discharging opening (5) of sub-material rotating disk (2) to be communicated with, its other end is provided with mineral aggregate outlet (6), described sub-material rotating disk (2) is provided with at least one discharging opening (5), described sub-material rotating disk (2) is by rotating, make in many conveying passages (4), to have at least a conveying passage (4) not carry out cloth, and remaining conveying passage (4) carries out cloth simultaneously.

2. feeding distribution mechanism according to claim 1, it is characterized in that: in described conveying passage (4), be provided with at least one guide plate (7), described guide plate (7) is arranged along the throughput direction of conveying passage (4) and is separated by the conveying passage (4) of correspondence.

3. feeding distribution mechanism according to claim 2, it is characterized in that: described sub-material rotating disk (2) comprises inner ring (8) and outer ring (9), described outer ring (9) upper and lower side is connected to form a cavity with shrouding (10) and base plate (11) respectively, described inner ring (8) is arranged in cavity, described shrouding (10) is provided with the charging aperture (12) be communicated with inner ring (8), described discharging opening (5) is arranged on base plate (11), described inner ring (8) lower side is provided with the radial opening (13) corresponding with discharging opening (5), described mineral aggregate enters inner ring (8) by charging aperture (12), flow in corresponding conveying passage (4) by discharging opening (5) corresponding with it after radial opening (13) again.

4. feeding distribution mechanism according to claim 3, is characterized in that: mineral aggregate outlet (6) the below correspondence of described conveying passage (4) is provided with guiding gutter (14).

5. feeding distribution mechanism as claimed in any of claims 1 to 4, it is characterized in that: every bar conveying passage (4) correspondence is provided with jettison gear (15), described distributing trough (1) is provided with storage tank (16), described jettison gear (15) is placed in storage tank (16), described jettison gear (15) comprises the bucket that discharges water (17) and capping (18), the described bucket that discharges water (17) bottom is provided with the dewatering outlet (19) be communicated with distributing trough (1), described capping (18) is arranged on (19) place, dewatering outlet and is sealed, the described bucket that discharges water (17) side is provided with the through hole (20) be communicated with storage tank (16), described capping (18) is provided with lift arm (21), described lift arm (21) one end is hinged with bucket (17) side that discharges water, described lift arm (21) middle part is connected with lifting piece.

6. feeding distribution mechanism according to claim 5, it is characterized in that: described lifting piece comprises chain (22) and steel wire A(31), described chain (22) lower end and lift arm (21) middle part hinged, its upper end and steel wire A(31) lower end is connected, described steel wire A(31) upper end is connected with return spring seat (23) through the steel wire guide pipe (32) be arranged on the bucket that discharges water (17).

7. feeding distribution mechanism according to claim 5, it is characterized in that: described lifting piece is connected with switching device (24) by corresponding return spring seat (23), described switching device (24) controls capping (18) opening and closing of corresponding jettison gear (15), by the water in storage tank (16) through conveying passage (4) to do not carry out cloth and prepare fine fodder reclaim metal recovery band rinse.

8. feeding distribution mechanism according to claim 7, it is characterized in that: described switching device (24) comprises driving gear (25) and is arranged in driving gear (25) surrounding and equally distributed multiple driven gear (26), the quantity of described driven gear (26) is consistent with the quantity of conveying passage (4), steel wire B(27 is had) in the upper solderless wrapped connection of described driven gear (26), described steel wire B(27) other end is connected with return spring seat (23), described driving gear (25) part is provided with tooth, described driving gear (25) rotates and can engage with corresponding driven gear (26) respectively for one week, described driving gear (25) below is provided with positioning round table (28), the limit cam (29) with positioning round table (28) corresponding matching is provided with in the below of described driven gear (26), when described driving gear (25) does not engage with driven gear (26), described limit cam (29) leans against positioning round table (28) surface, when described driving gear (25) engages with corresponding driven gear (26), described driven gear (26) rotates and limit cam (29) leaves positioning round table (28), pull steel wire B(27) simultaneously, by return spring seat (23) capping (18) of jettison gear (15) opened and wash by water, when described driving gear (25) is thrown off with driven gear (26), return spring seat (23) resets and drives steel wire B(27) pull driven gear (26) to rotate backward, until the limit cam (29) of driven gear (26) is resisted against positioning round table (28) surface of driving gear (25), the capping (18) of described jettison gear (15) is closed.

9. feeding distribution mechanism according to claim 8, it is characterized in that: described sub-material rotating disk (2) is connected and synchronous axial system with power transmission shaft (30) respectively with driving gear (25), described sub-material rotating disk (2) is rotated under the effect of power transmission shaft (30), cloth is carried out to corresponding conveying passage (4), driving gear (25) rotates under the effect of power transmission shaft (30) simultaneously, its driven gear (26) corresponding with the conveying passage (4) not carrying out cloth is engaged, and the jettison gear (15) pulling open conveying passage (4) correspondence of not carrying out cloth discharges water, to do not carry out cloth and prepare fine fodder reclaim metal recovery band rinse.

10. feeding distribution mechanism according to claim 9, it is characterized in that: described return spring seat (23) comprises urceolus (33), pull bar (34), spring (35) and roller (36), described pull bar (34) one end is inserted in urceolus (33), described spring (35) to be placed in urceolus (33) and to be socketed on pull bar (34), described spring (35) one end is resisted against on the boss of pull bar (34) end, its other end is resisted against on urceolus (33) inner convex platform, described steel wire A(31) one end of being placed in urceolus (33) through roller (36) and pull bar (34), upper end is connected, described steel wire B(27) be connected by the other end of steel wire fairlead (37) with pull bar (34).