CN218108444U - Multistage active carbon processing is with high-efficient screening plant - Google Patents

Abstract

The utility model discloses a multistage active carbon processing is with high-efficient screening plant, including the screening organism, the feed inlet has been seted up to screening organism upper end, and feed inlet one side is equipped with the controller on screening organism outer wall, and screening organism side is equipped with multiunit discharge baffle, the correspondence of feed inlet lower extreme is equipped with the screening net, and its screening net is located in the screening rack, and the screening rack lower extreme is connected with and connects the hopper, connects the hopper lower extreme correspondence to be equipped with receipts magazine, and screening rack one side correspondence is equipped with the motor, and its motor has the eccentric wheel through the coupling joint, screening net one side level is equipped with the push pedal. This multistage high-efficient screening plant is used in active carbon processing carries out likepowder and granular screening through the screening net to the active carbon after the breakage earlier, and spherical and columnar screening is carried out to the active carbon to rethread first screening board and second screening board to can classify the screening collection to the active carbon after the breakage, further improve active carbon screening efficiency.

Description

Multistage active carbon processing is with high-efficient screening plant

The technical field is as follows:

the utility model relates to an active carbon production and processing technology field specifically is a high-efficient screening plant is used in processing of multistage active carbon.

Background art:

the activated carbon is a general name of carbon materials which are prepared by pyrolyzing and activating carbon-containing raw materials such as wood, coal, petroleum coke and the like, have developed pore structures, larger specific surface areas, abundant surface chemical groups and stronger specific adsorption capacity. Activated carbon is generally classified into two types, i.e., powder and granule, according to its shape. The granular activated carbon includes cylindrical, spherical, hollow cylindrical and hollow spherical and irregular shaped crushed carbon.

And CN216150359U among the technical scheme that has now disclosed discloses the active carbon screening plant that has multiple sorting effect, and this technical scheme can filter the classification to the material through multiple screening, but still has certain not enough, and this technical scheme can not filter according to the shape of active carbon itself, still can not classify and filter likelinely and graininess, consequently provides a multistage active carbon processing and uses high-efficient screening plant in order to solve above-mentioned problem.

The utility model has the following contents:

an object of the utility model is to provide a multistage active carbon processing is with high-efficient screening plant to it can not filter according to the shape of active carbon itself to propose prior art scheme in the above-mentioned background art to solve, still can not classify the problem of screening to likepowder and granular.

The utility model discloses by following technical scheme implement: a high-efficiency screening device for processing multistage activated carbon comprises a screening machine body, wherein a feed inlet is formed in the upper end of the screening machine body, a controller is arranged on the outer wall of the screening machine body on one side of the feed inlet, a plurality of groups of discharging baffles are arranged on the side face of the screening machine body, a screening net is correspondingly arranged at the lower end of the feed inlet and is arranged in a screening net frame, a receiving hopper is connected to the lower end of the screening net frame, a motor is correspondingly arranged on one side of the screening net frame, the motor is connected with an eccentric wheel through a coupler, a push plate is horizontally arranged on one side of the screening net frame, the rear end of the push plate is connected with a pneumatic cylinder through a pneumatic telescopic arm, and the pneumatic cylinder is fixed on the inner wall of the screening machine body through a frame;

one side of the screening net rack is connected with the first screening plate through a soft connecting belt, the other side of the first screening plate is connected with the second screening plate, the rear end of the second screening plate is provided with a rear discharging barrel, one side surface of the first screening plate is provided with a side discharging barrel, the other side of the first screening plate is correspondingly provided with a side air inlet, and the other side of the side air inlet is connected with a third exhaust fan through an air guide barrel;

an air inlet cover is arranged on one side of the lower end of the feeding port, a first exhaust fan is arranged in the air inlet cover, a second exhaust fan is arranged on the other side of the air inlet cover corresponding to the air inlet cover, and the rear end of the second exhaust fan is connected with a dust collecting cloth bag through an air guide cylinder.

Preferably, the front side and the rear side of the screening net rack are clamped in sliding grooves formed in the inner wall of the screening machine body, and the screening net rack and the eccentric wheel are located at the same horizontal height.

Preferably, the first screening plate and the second screening plate are obliquely arranged, the first screening plate and the second screening plate are provided with a plurality of circular leakage holes, and the diameter of the circular leakage hole in the first screening plate is smaller than that of the circular leakage hole in the second screening plate.

Preferably, the spacing parting bead of vertical setting evenly is equipped with to the equidistance on the second screening board.

Preferably, the side air inlet is arranged obliquely downwards, and the air outlet position of the oblique downwards corresponds to the upper end face of the first screening plate.

The utility model has the advantages that: this multistage high-efficient screening plant is used in active carbon processing carries out likepowder and granular screening through the screening net to the active carbon after the breakage earlier, and spherical and columnar screening is carried out to the active carbon to rethread first screening board and second screening board to can classify the screening collection to the active carbon after the breakage, further improve active carbon screening efficiency.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the external structure of a high-efficiency screening device for processing multistage activated carbon according to the present invention;

FIG. 2 is a schematic view of the internal structure of the high-efficiency screening device for processing multistage activated carbon of the present invention;

fig. 3 is the utility model discloses a multistage active carbon processing is with high-efficient screening plant's screening net, first screening board and second screening board overlook the structural schematic diagram.

In the figure: 1. screening organism, 2, the feed inlet, 3, the screening net, 4, connect the hopper, 5, the material collecting box, 6, the flexible connecting band, 7, first screening board, 8, the second screening board, 9, the back feed cylinder, 10, the side wind mouth, 11, the side feed cylinder, 12, the screening rack, 13, spacing parting bead, 14, discharge baffle, 15, the controller, 16, the air inlet cover, 17, first air exhauster, 18, the second air exhauster, 19, the pneumatic cylinder, 20, the flexible arm of atmospheric pressure, 21, the push pedal, 22, the motor, 23, the eccentric wheel, 24, the collection dirt sack, 25, the third air exhauster.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a high-efficiency screening device for processing multistage activated carbon comprises a screening machine body 1, wherein a feed inlet 2 is formed in the upper end of the screening machine body 1, a controller 15 is arranged on the outer wall of the screening machine body 1 on one side of the feed inlet 2, the controller 15 controls the on and off of each electric appliance of equipment through switch matching wires by adopting the prior disclosed technology, a plurality of groups of discharge baffles 14 are arranged on the side surface of the screening machine body 1, a screening net 3 is correspondingly arranged at the lower end of the feed inlet 2, the screening net 3 is arranged in a screening net rack 12, a receiving hopper 4 is connected to the lower end of the screening net rack 12, a receiving hopper 5 is correspondingly arranged at the lower end of the receiving hopper 4, a motor 22 is correspondingly arranged on one side of the screening net rack 12, the motor 22 is connected with an eccentric wheel 23 through a coupler, a push plate 21 is horizontally arranged on one side of the screening net 3, the rear end of the push plate 21 is connected with a pneumatic cylinder 19 through a pneumatic telescopic arm 20, and the pneumatic cylinder 19 is fixed on the inner wall of the screening machine body 1 through a rack;

further, both sides block in the spout that screening organism 1 inner wall was seted up around screening rack 12, and the spout other end passes through spring and screening rack 12 elastic connection, and screening rack 12 is in same level with eccentric wheel 23, carries out incessant striking through motor 22 drive eccentric wheel 23 to screening rack 12 to make screening rack 12 block carry out the back-and-forth movement and cooperate the spring cooperation in the spout, carry out the vibration screening to the material on the screening net 3.

One side of a screening net rack 12 is connected with a first screening plate 7 through a soft connecting belt 6, the other side of the first screening plate 7 is connected with a second screening plate 8, a rear discharging barrel 9 is arranged at the rear end of the second screening plate 8, a side discharging barrel 11 is arranged on one side of the first screening plate 7, a side air port 10 is correspondingly arranged on the other side of the first screening plate 7, and the other side of the side air port 10 is connected with a third exhaust fan 25 through an air guide barrel;

further, first screening board 7 and the equal slope setting of second screening board 8, and first screening board 7 and second screening board 8 all are equipped with a plurality of circular small openings, and the circular small opening diameter on the first screening board 7 is less than the circular small opening diameter on the second screening board 8, utilize the first screening board 7 and the second screening board 8 that the slope set up, can make the active carbon after being pushed by push pedal 21 can slide and roll down under its self gravity condition, thereby by the circular small opening screening of variation in size.

Further, the second screening plate 8 is equidistantly and uniformly provided with vertically arranged limiting partition bars 13, and the columnar activated carbon is guided by the arranged limiting partition bars 13, so that the columnar activated carbon can roll downwards along the second screening plate 8 and slide into the rear blanking barrel 9.

An air inlet cover 16 is arranged on one side of the lower end of the feeding port 2, a first exhaust fan 17 is arranged inside the air inlet cover 16, a second exhaust fan 18 is arranged on the other side of the air inlet cover 16 corresponding to the air inlet cover, the rear end of the second exhaust fan 18 is connected with a dust collecting cloth bag 24 through an air guide cylinder, and dust pollution generated in the vibrating screening process of the screening net 3 is collected by utilizing the matching of the first exhaust fan 17 and the second exhaust fan 18, so that dust is collected into the dust collecting cloth bag.

Further, side wind mouth 10 is the slope and sets up downwards, and its decurrent air-out position of slope is corresponding with first screening board 7 up end, and the outside air formation air current of screening organism 1 is sucked through third air exhauster 25 to lead out from side wind mouth 10 and blow vertical columnar activated carbon on first screening board 7, thereby make and be vertical state stop in the columnar activated carbon of first screening board 7 side leading-in side feed cylinder 11 down from first screening board 7, carry out the categorised collection.

The working principle is as follows: when the efficient screening device for processing multistage active carbon is used, firstly, the power supply of the screening machine body 1 is switched on, then, a proper amount of crushed active carbon to be screened is added into the screening machine body 1 from the feeding hole 2, the active carbon enters the inside of the screening machine body 1 and stays at the upper end of the screening net 3, at the moment, the motor 22 is started through the controller 15 to enable the motor to work, the motor 22 drives the eccentric wheel 23 connected with the motor to rotate after working, the screening net frame 12 at one side is impacted, the screening net frame 12 and the screening net 3 are driven to vibrate, the active carbon at the upper end of the screening net is subjected to powder screening, the screened powdery active carbon is guided into the material receiving box 5 through the screening net 3 through the material receiving hopper 4 to be collected, the screened active carbon stays at the upper end of the screening net 3 and then drives the pneumatic telescopic arm 20 to stretch through the pneumatic cylinder 19 to act on the push plate 21 to push the active carbon staying at the upper end of the screening net 3 to the first screening plate 7, as the first screening plate 7 is obliquely arranged, the spherical activated carbon freely rolls off at the moment, the cylindrical activated carbon is screened by utilizing the circular leak holes on the first screening plate 7, the columnar activated carbon rolls off the second screening plate 8 and is guided by utilizing the limiting partition strips 13 on the second screening plate 8 to finally roll off the columnar activated carbon into the rear blanking barrel 9 and then is guided into the material receiving box 5 through the material receiving hopper 4 to be collected, the spherical activated carbon is screened by the circular leak holes on the first screening plate 7 and the second screening plate 8 and correspondingly falls into the material receiving box 5 at the lower end, a plurality of columnar longitudinally distributed activated carbons can stay on the first screening plate 7, the third exhaust fan 25 can be restarted at the moment to suck air to form airflow to be blown out from the side air inlet 10, and the columnar activated carbon staying on the first screening plate 7 is blown, so that the active carbon is blown off from the side surface of the first screening plate 7, is guided into the side discharging barrel 11 and is collected by the material receiving box 5 corresponding to the lower end, and the screening work of the crushed active carbon is finished.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a multistage active carbon processing is with high-efficient screening plant, includes screening organism (1), feed inlet (2) have been seted up to screening organism (1) upper end, and feed inlet (2) one side is equipped with controller (15) on screening organism (1) outer wall, and screening organism (1) side is equipped with multiunit discharge baffle (14), its characterized in that: the screening net (3) is correspondingly arranged at the lower end of the feeding port (2), the screening net (3) is arranged in the screening net rack (12), the lower end of the screening net rack (12) is connected with the material receiving hopper (4), the lower end of the material receiving hopper (4) is correspondingly provided with the material receiving box (5), one side of the screening net rack (12) is correspondingly provided with a motor (22), the motor (22) is connected with an eccentric wheel (23) through a coupling, one side of the screening net (3) is horizontally provided with a push plate (21), the rear end of the push plate (21) is connected with a pneumatic cylinder (19) through a pneumatic telescopic arm (20), and the pneumatic cylinder (19) is fixed on the inner wall of the screening machine body (1) through a frame;

one side of the screening net rack (12) is connected with a first screening plate (7) through a flexible connecting belt (6), the other side of the first screening plate (7) is connected with a second screening plate (8), a rear blanking barrel (9) is arranged at the rear end of the second screening plate (8), a side blanking barrel (11) is arranged on one side face of the first screening plate (7), a side air port (10) is correspondingly arranged on the other side of the first screening plate (7), and the other side of the side air port (10) is connected with a third exhaust fan (25) through an air guide barrel;

an air inlet cover (16) is arranged on one side of the lower end of the feed inlet (2), a first exhaust fan (17) is arranged in the air inlet cover (16), a second exhaust fan (18) is arranged on the other side, corresponding to the air inlet cover (16), of the air inlet cover, and the rear end of the second exhaust fan (18) is connected with a dust collecting cloth bag (24) through an air guide cylinder.

2. The high-efficiency screening device for processing multistage activated carbon as claimed in claim 1, wherein: both sides block in the spout that screening organism (1) inner wall was seted up around screening rack (12), and screening rack (12) and eccentric wheel (23) are in same level.

3. The high-efficiency screening device for processing multistage activated carbon as claimed in claim 1, wherein: the first screening plate (7) and the second screening plate (8) are all obliquely arranged, the first screening plate (7) and the second screening plate (8) are both provided with a plurality of circular leakage holes, and the diameter of the circular leakage hole in the first screening plate (7) is smaller than that of the circular leakage hole in the second screening plate (8).

4. The high-efficiency screening device for processing multistage activated carbon as claimed in claim 1, wherein: and the second screening plate (8) is uniformly provided with vertically arranged limiting parting strips (13) at equal intervals.

5. The high-efficiency screening device for processing multistage activated carbon as claimed in claim 1, wherein: the side air inlet (10) is obliquely and downwards arranged, and the oblique and downwards air outlet position of the side air inlet corresponds to the upper end face of the first screening plate (7).

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