CN216757170U - Vibrating screen device with high-efficient dust removal structure - Google Patents

Abstract

The utility model discloses a vibrating screen device with a high-efficiency dust removal structure, which comprises a supporting table, wherein a stabilizing plate is transversely fixed at the bottom side of the supporting table, the end surface of the stabilizing plate is provided with three groups of storage boxes, the end surface of the supporting platform is provided with an operation box which is communicated with the left side of the industrial dust collector through a dust raising collecting box, and two ends of a U-shaped dust collection pipeline on the industrial dust collector extend to two side surfaces of the operation box and are communicated with one side of the top end of the feeding box, then the industrial dust collector is started to enable the dust collection cover to generate suction force to absorb the raised dust in the operation box, the adsorbed flying dust is conveyed and collected in the flying dust collecting box through the U-shaped dust collecting pipeline, and the dust collecting and adsorbing function can be performed on the dust input into the feeding box, and then realize the comprehensive adsorption effect to the raise dust, reduce the raise dust simultaneously and spread the problem to the outside from the conveying pipeline internal diffusion.

Description

Vibrating screen device with high-efficient dust removal structure

Technical Field

The utility model belongs to the technical field of vibrating screens, and particularly relates to a vibrating screen device with a high-efficiency dust removal structure.

Background

The vibrating screen has the advantages of high efficiency, light weight, complete and various series and multiple layers, and can meet the requirements for screening dry materials. To moisture height, there is the adhesion material, this model is unsuitable, and the during operation vibration makes the more compact adhesion of material in the sifter, causes the material to block up or is forced to shut down. Due to the limitation of the working principle, the energy consumption of the machine type is relatively high, especially under the working condition of high output. In addition, working noise and dust are heavy, and the existing vibrating screen cannot adsorb dust in time, so that the using effect is influenced.

For this reason, a shale shaker with dust removal effect that bulletin number is "CN 214132717U", including the vibration screening operation case, vibration screening operation roof portion is provided with two and floats heavy suction box, it controls the chamber to be provided with the dust absorption between the heavy suction box to float, the bottom of vibration screening operation case is provided with four pressure support posts, be provided with the laying dust chamber between the pressure support post, the laying dust chamber with vibration screening operation case fixed connection, the one end of vibration screening operation case is provided with first discharging pipe.

To this shale shaker with dust removal effect of above-mentioned, though the suction box that sinks floats through the top of vibratory screening operation case carries out the absorption that sinks, adsorbs the produced raise dust of shale shaker, accomplishes through adsorbing and to dismantle, clears up the dust of inside, keeps the effect and the efficiency of dust absorption, but it still has following comparatively obvious defect in the use: the dust collection structure of the vibrating screen performs the function of dust absorption on the inner part of the operation box through the dust collection device at the top end, however, because the smoke generated by the three layers of vibrating screens in the operation box is large, the dust collection device arranged at the top part can not achieve the high-efficiency dust removal effect on the inner part of the operation box, and some dust can not be absorbed after being diffused to the outer part through the discharge pipeline, therefore, the environment around the operation box is polluted, the discharge pipe is arranged at different positions at two sides of the operation box, and in the process of storing materials, the collecting boxes with different heights are required to be used for collecting the materials respectively, the mode is troublesome, workers need to insist on replacing the collecting boxes, and the running equipment needs to be stopped, so that the labor intensity of workers is increased, and the screening efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vibrating screen device with a high-efficiency dust removal structure, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a vibrating screen device with a high-efficiency dust removal structure comprises a supporting table, stabilizing plates are transversely fixed on the bottom side of the supporting table, three groups of storage boxes are arranged on the end faces of the stabilizing plates, an operation box is arranged on the end face of the supporting table, a feed hopper penetrates through the left side of the end face of the operation box, a dust raising collecting box is arranged on the corresponding right side of the feed hopper, a vibrating motor is arranged on the corresponding right side of the dust raising collecting box, an industrial dust collector is arranged on the corresponding right side of the vibrating motor, a U-shaped dust collection pipeline is connected to the front end face of the industrial dust collector, cylindrical positioning rods are symmetrically arranged on two sides inside the operation box, three groups of vibrating screens are movably arranged on the cylindrical positioning rods, dust collection covers are obliquely and symmetrically arranged on two inner side walls of the operation box, dust collection pipe fittings are connected to the upper ends of the dust collection covers, and feeding boxes are symmetrically penetrated through two outer side faces of the operation box, and blanking pipelines are arranged on one side of the bottom side of the feeding box, the tops of the blanking pipelines are communicated with one sides of the two storage boxes, and inclined auxiliary blanking plates are symmetrically arranged at the bottom end inside the operation box.

As a further optimization of the technical scheme, the vibration shaft rod is connected to the rotating shaft of the vibration motor in a transmission mode, penetrates through the interior of the operation box and penetrates through the middle of the three groups of vibrating screens to be fixedly connected, when the raw materials are screened, the vibration motor is started to drive the three groups of vibrating screens to screen the raw materials through vibration freon, and the quality of the raw materials in the production and processing process is guaranteed.

As a further optimization of the technical scheme, the dust collection box is communicated with the left side of the industrial dust collector through the dust collection pipe, two ends of a U-shaped dust collection pipeline arranged on the industrial dust collector extend to two side faces of the operation box and are communicated with one side of the top end of the feeding box, when the dust is raised in the process of screening raw materials, the industrial dust collector is started to enable the dust hood to generate suction force to adsorb the raised dust in the operation box, the adsorbed raised dust is conveyed and collected in the dust collection box through the U-shaped dust collection pipeline, the adsorption work of the raised dust is achieved, and meanwhile the problem that the raised dust is diffused to the outside from the inside of the material conveying pipeline is solved.

As the further optimization of this technical scheme, the dust absorption covers the one end of establishing the dust absorption pipe fitting run through extend to the terminal surface both sides of operation case and with the U type dust absorption pipeline between the intercommunication, three groups the side all is equipped with the bar baffle around the tip of shale shaker, this one through the oblique symmetry setting of dust absorption cover in operation incasement portion both sides, can make the raise dust in operation case any position carry out absorbent effect to make the higher high efficiency that adsorbs the raise dust, thereby avoid the raise dust to reveal to the operation case outside and cause the problem to the surrounding environment pollution.

As a further optimization of the technical scheme, one end of the feeding box runs through and extends to the two sides of the inner side of the operation box in an oblique symmetrical mode, screened raw materials can be conveyed and collected in the three groups of storage boxes through the feeding box, the phenomenon that the air is polluted due to raised dust in raw material output is avoided, the tail ends of the vibrating screens run through the feeding box in an activity mode, the screened raw materials are output, an inclined guide plate is arranged on one side of the inner portion of the feeding box, and the raw materials are collected in the storage boxes after being sorted conveniently.

As the further optimization of this technical scheme, wherein a set of the middle part that the storage case runs through to extend to the inboard bottom of operation case through the inlet pipe, the convenience is to the screening output of raw materials, and wherein a set of shale shaker terminal surface one side is equipped with the striker plate, realizes blockking to the screening raw materials, the inside of feeder hopper transversely is equipped with the axis of rotation, and evenly is equipped with in the axis of rotation and prevents stifled stirring rod, when can making the raw materials enter into the feeder hopper, the whereabouts inertia of raw materials drives prevents stifled stirring rod and rotates in the axis of rotation to the realization is got into the effect of dialling the material to the raw materials to avoided the raw materials input to cause the problem that the feeder hopper blockked up, and then improved the screening efficiency to the raw materials.

The utility model has the technical effects and advantages that: this shale shaker device with high-efficient dust removal structure, when producing the raise dust to raw materials separation, at first communicate through the left side of raise dust collecting box and industrial vacuum cleaner, and the U type dust absorption pipeline both ends on the industrial vacuum cleaner extend to the both sides face of operation case and communicate with top one side of delivery box, start industrial vacuum cleaner afterwards and make the suction hood produce suction and adsorb the raise dust of operation incasement, and be carried through U type dust absorption pipeline and collect inside the raise dust collecting box for absorbent raise dust, and can remove dust absorbent function to the dust of inputing to the delivery box internal production, and then realize the comprehensive adsorption effect to the raise dust, reduce the raise dust simultaneously and spread to outside problem in the delivery pipeline.

Then the dust suction covers are obliquely and symmetrically arranged on two sides in the operation box, the dust at any position of the operation box can be adsorbed, the efficiency of adsorbing the dust is higher, one end of the feeding box penetrates and extends to the two sides in the operation box, the screened raw materials can be conveyed and collected in the three groups of storage boxes through the feeding box, the pollution to air caused by the dust in the raw material output process is avoided, the raw materials are convenient to collect by personnel, meanwhile, the tail ends of the two groups of vibrating screens movably penetrate into the feeding box to realize the output of the screened raw materials, the raw materials are convenient to collect in the storage boxes after being sorted, the problems that the discharging pipes are arranged at different positions on two sides of the operation box, and in the process of storing the materials needing to be received, the collecting boxes with different heights are needed to be used for receiving and collecting the materials respectively are solved, through the inside rotation axis that transversely sets up of feeder hopper, and evenly be equipped with in the rotation axis and prevent stifled stirring rod, when can making the raw materials enter into the feeder hopper, the whereabouts inertia of raw materials drives prevents stifled stirring rod and rotates in the rotation axis to the realization gets into the raw materials and dials the effect of material, and has avoided the raw materials input to cause the problem that the feeder hopper blockked up, and then has improved the screening efficiency to the raw materials.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the shaker of the present invention;

FIG. 3 is a top internal view of the feed hopper of the present invention.

In the figure: 1. a support table; 2. a stabilizing plate; 3. a material storage box; 4. an operation box; 5. a feed hopper; 6. a raise dust collecting box; 7. a vibration motor; 8. industrial vacuum cleaners; 9. a U-shaped dust collection pipeline; 10. a cylindrical positioning rod; 11. vibrating screen; 12. a dust hood; 13. a dust collection pipe fitting; 14. a feeding box; 15. a blanking pipe; 16. the inclined plane assists the blanking plate; 17. a vibrating shaft; 18. a strip-shaped baffle plate; 19. an axis of rotation.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a shale shaker device with high-efficient dust removal structure, including brace table 1, the bottom side of brace table 1 transversely is fixed with steadying plate 2, and 2 terminal surfaces of steadying plate are equipped with three storage case 3 of group, the realization is deposited the unified collection after the raw materials is selected separately, wherein a set of storage case 3 runs through the middle part that extends to the inboard bottom of operation case 4 through the inlet pipe, be convenient for collect the raw materials after the screening, brace table 1's terminal surface is equipped with operation case 4, and the terminal surface left side of operation case 4 runs through and is equipped with feeder hopper 5, the raw materials of being convenient for get into to select separately, the inside of feeder hopper 5 transversely is equipped with rotation axle 19, and evenly be equipped with on rotation axle 19 and prevent stifled kickoff pole, can prevent that the raw materials from causing the problem of feeder hopper 5 jam, the corresponding right side of feeder hopper 5 is equipped with raise dust collecting box 6, the realization is handled the absorption collection system of raise dust.

Raise dust collecting box 6 passes through the left side intercommunication of dust absorption pipe with industrial vacuum cleaner 8, be convenient for carry to raise dust collecting box 6 after the raise dust adsorbs, the right side that corresponds of raise dust collecting box 6 is equipped with vibrating motor 7, the transmission is connected with vibrating shaft 17 in vibrating motor 7's the pivot, vibrating shaft 17 runs through the inside that extends to operation case 4 and runs through fixed connection with the middle part of the shale shaker 11 that establishes of three groups, the realization is to the sorting of raw materials, vibrating motor 7's the right side that corresponds is equipped with industrial vacuum cleaner 8, and industrial vacuum cleaner 8's preceding terminal surface is connected with U type dust absorption pipeline 9, it is convenient to the output of absorbent raise dust and collect, the inside bilateral symmetry of operation case 4 is equipped with cylinder locating lever 10, and cylinder locating lever 10 goes up the activity and is equipped with three group shale shakers 11, the realization is screened the cubic to the raw materials.

All be equipped with bar baffle 18 around the tip of three sets of shale shakers 11, the realization is to blockking of raw materials, wherein 11 terminal surface one side of a set of shale shakers is equipped with the striker plate, avoid raw materials to scatter to the inconvenient receipts material in other positions, the oblique symmetry is equipped with suction hood 12 on the inside both sides wall of operation case 4, the upper end of suction hood 12 all is connected with dust absorption pipe fitting 13, the realization is to the absorption of raise dust, the one end of dust absorption pipe fitting 13 that establishes on suction hood 12 runs through the terminal surface both sides that extend to operation case 4 and communicate between the U type dust absorption pipeline 9, the realization is to the whole aspect dust removal processing of raise dust in operation case 4, the outside both sides face oblique symmetry of operation case 4 runs through and is equipped with pay-off case 14, avoid producing the raise dust in raw materials transportation process and cause environmental pollution.

The utility model discloses an industrial vacuum cleaner 8, the both ends of the U type dust absorption pipeline 9 that establish extend to the both sides face of operation case 4 and communicate with top one side of feeding box 14 on the industry dust catcher, realize carrying out absorbent effect to the raise dust that the pay-off produced, the one end of feeding box 14 runs through and extends to the inboard bilateral symmetry setting of operation case 4, make things convenient for the raw materials to select separately the back whereabouts output, wherein the terminal activity of two sets of shale shakers 11 runs through to the inside of feeding box 14, inside one side of feeding box 14 is equipped with the inclined plane stock guide, accelerate the output efficiency of raw materials, bottom side one side of feeding box 14 all is equipped with blanking pipeline 15, and one side intercommunication of the top of blanking pipeline 15 and wherein two sets of storage casees 3, realize selecting separately the collection of raw materials, the inside bottom symmetry of operation case 4 is equipped with inclined plane supplementary flitch 16, improve the unloading efficiency of raw materials.

It is specific, communicate with the left side of industrial vacuum cleaner through raise dust collecting box 6 during the use, and the U type dust absorption pipeline 9 both ends on the industrial vacuum cleaner 8 extend to the both sides face of operation case 4 and communicate with top one side of pay-off case 14, start industrial vacuum cleaner 8 afterwards and make suction hood 12 produce suction and adsorb the raise dust in to operation case 4, and be carried through U type dust absorption pipeline 9 and collect inside raise dust collecting box 6 for absorbent raise dust, and can carry out the absorbent function of removing dust to the dust of inputing to pay-off case 14 internal product, and then realize the comprehensive adsorption effect to the raise dust, reduce the raise dust simultaneously and spread to outside problem from the material conveying pipeline.

Then the dust hood 12 is arranged on two sides inside the operation box 4 in an oblique symmetry manner, the dust at any position of the operation box 4 can be adsorbed, the efficiency of adsorbing the dust is higher, one end of the feeding box 14 penetrates and extends to two sides inside the operation box 4 in an oblique symmetry manner, the screened raw materials can be conveyed and collected in the three groups of storage boxes through the feeding box 14, the pollution to the air caused by the dust during the raw material output is avoided, the raw materials can be conveniently collected by personnel, meanwhile, the tail ends of the two groups of vibrating screens 11 movably penetrate through the feeding box 14, the screened raw materials are output, the raw materials are conveniently collected in the storage boxes after being sorted, the raw materials are collected in the storage boxes through the rotating shafts 19 transversely arranged inside the feeding hopper 5, and the anti-blocking stirring rods are uniformly arranged on the rotating shafts 19, so that when the raw materials enter the feeding hopper 5, the whereabouts inertia of raw materials drives and prevents stifled stirring rod and rotate on axis of rotation 19 to the realization gets into the effect of dialling the material to the raw materials, and avoided the raw materials input to cause the problem that feeder hopper 5 blockked up, and then improved the screening efficiency to the raw materials.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a shale shaker device with high-efficient dust removal structure, includes a supporting bench (1), its characterized in that: a stabilizing plate (2) is transversely fixed at the bottom side of the supporting table (1), three groups of storage boxes (3) are arranged on the end face of the stabilizing plate (2), an operation box (4) is arranged on the end face of the supporting table (1), a feed hopper (5) is arranged on the left side of the end face of the operation box (4) in a penetrating manner, a dust raising collection box (6) is arranged on the corresponding right side of the feed hopper (5), a vibration motor (7) is arranged on the corresponding right side of the dust raising collection box (6), an industrial dust collector (8) is arranged on the corresponding right side of the vibration motor (7), a U-shaped dust collection pipeline (9) is connected to the front end face of the industrial dust collector (8), cylindrical positioning rods (10) are symmetrically arranged on two sides in the operation box (4), three groups of vibrating screens (11) are movably arranged on the cylindrical positioning rods (10), dust collection covers (12) are symmetrically arranged on two side walls in the operation box (4), the dust collection device is characterized in that the upper end of the dust collection cover (12) is connected with a dust collection pipe fitting (13), the two outer side faces of the operation box (4) are obliquely and symmetrically provided with feeding boxes (14), blanking pipelines (15) are arranged on one side of the bottom side of each feeding box (14), the tops of the blanking pipelines (15) are communicated with one sides of the two storage boxes (3), and inclined auxiliary blanking plates (16) are symmetrically arranged at the bottom end inside the operation box (4).

2. A vibrating screen assembly with a high efficiency dust extraction structure as set forth in claim 1, wherein: the vibration motor (7) is connected with a vibration shaft lever (17) in a transmission mode in a rotating shaft, and the vibration shaft lever (17) penetrates through the interior of the operation box (4) and is fixedly connected with the middle portions of the three groups of the vibration sieves (11).

3. A vibrating screen assembly with a high efficiency dust extraction structure as set forth in claim 1, wherein: the dust raising collection box (6) is communicated with the left side of the industrial dust collector (8) through a dust collection pipe, and two ends of a U-shaped dust collection pipeline (9) arranged on the industrial dust collector (8) extend to two side faces of the operation box (4) and are communicated with one side of the top end of the feeding box (14).

4. A vibrating screen assembly with a high efficiency dust extraction structure as set forth in claim 1, wherein: one end of a dust collection pipe fitting (13) arranged on the dust collection cover (12) penetrates through the two sides of the end face of the operation box (4) and is communicated with the U-shaped dust collection pipeline (9), and strip-shaped baffles (18) are arranged on the front side and the rear side of the end part of each of the three groups of vibrating screens (11).

5. A vibrating screen assembly with a high efficiency dust extraction structure as set forth in claim 1, wherein: one end of the feeding box (14) penetrates through the two sides of the inner side of the operation box (4) and extends to be obliquely and symmetrically arranged, the tail ends of the two groups of vibrating screens (11) movably penetrate through the feeding box (14), and an inclined guide plate is arranged on one side of the inner part of the feeding box (14).

6. A vibrating screen assembly with a high efficiency dust extraction structure as set forth in claim 1, wherein: wherein a set of storage case (3) run through the middle part that extends to operation case (4) inboard bottom through the inlet pipe, wherein a set of shale shaker (11) terminal surface one side is equipped with the striker plate, the inside of feeder hopper (5) transversely is equipped with rotation axis (19), and evenly is equipped with on rotation axis (19) and prevents stifled kickoff pole.

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