CN214916412U - A screening plant for producing voc adsorbent - Google Patents

Abstract

The utility model discloses a screening plant for producing voc adsorbent, including the footing, still include the grinding structure that will bond the solid dispersion, improve the rocking structure of screening efficiency and prevent to throw scraping of material jam and get the structure, the main part is installed on the top of footing, and the bottom of the inside both sides of main part all installs first spout, the inside of first spout all is provided with first sliding plate, and all transversely installs the collecting vat through first sliding plate between the first spout, the collecting vat constitutes sliding structure through first sliding plate and first spout, and the both sides of the inside collecting vat top of main part all install the second spout through rocking structure. The utility model discloses a be provided with servo motor, open servo motor, left servo motor clockwise rotates, and the servo motor anticlockwise rotation on right side drives the second actuating lever simultaneously and rotates, and two grinding rollers also rotate to the direction that is close to mutually, and this structure has realized the solid separation that will bond together, and it is more meticulous to make the screening.

Description

A screening plant for producing voc adsorbent

Technical Field

The utility model relates to a voc adsorbent production technical field specifically is a screening plant for producing voc adsorbent.

Background

In the production process of the voc adsorbent, a screening device is required to be used for screening the solid in the raw materials of the voc adsorbent, and the particles with different sizes are classified.

In the first and traditional screening device for producing voc adsorbent, raw materials can adhere to the feeding position during the use process, and the feeding position is blocked.

Second, conventional screening devices for producing voc sorbent have a low screening efficiency when in use.

Third, conventional screening devices for producing voc sorbent tend to bind small solids together during use and are difficult to screen.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a screening plant for producing voc adsorbent to solve the jam, the low expense of efficiency and the solid problem that can bond of throwing the material department that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a screening device for producing voc adsorbent comprises bottom feet, a grinding structure for dispersing bonding solids, a shaking structure for improving screening efficiency and a scraping structure for preventing blockage at a feeding position;

the screening device comprises a footing and is characterized in that a main body is mounted at the top end of the footing, first sliding grooves are mounted at the bottom ends of two sides in the main body, first sliding plates are arranged in the first sliding grooves, collecting grooves are transversely mounted between the first sliding plates, the collecting grooves form a sliding structure through the first sliding plates and the first sliding grooves, second sliding grooves are mounted at two sides above the collecting grooves in the main body through a shaking structure, second sliding plates are arranged in the second sliding grooves, screening grooves are transversely mounted between the second sliding grooves through the second sliding plates, the screening grooves form a sliding structure through the second sliding plates and the second sliding grooves, screening holes are formed in the inner portions of the bottom ends of the screening grooves, and the shaking structures are located on two sides of the screening grooves;

the top end of the main body is provided with a feed opening, and the scraping structure is positioned inside the feed opening;

the grinding structure is located above the screening groove in the main body.

Preferably, the grinding structure comprises servo motors, the servo motors are arranged on two sides of the top end of the rear end of the main body, second driving rods are arranged at output ends of the servo motors, and grinding rollers are sleeved on outer walls of the second driving rods in the main body;

one end of the second driving rod extends to two sides of the front end inside the main body, and the second driving rod is connected to two sides of the front end inside the main body through a rotating shaft.

Preferably, the rocking structure includes driving motor, first actuating lever, movable groove, half-tooth gear and pinion rack, driving motor all installs in the both sides of main part, and driving motor's output all installs first actuating lever, half-tooth gear is all installed to the one end of first actuating lever, and the movable groove all installs in the second spout and keeps away from one side in screening groove, the pinion rack is all installed at both ends around the movable groove is inside.

Preferably, one end of each first driving rod extends to the inside of the movable groove, and the half-tooth gears are meshed with the toothed plates.

Preferably, scrape and get structure and include scraper blade, rocker, slider, sliding tray, activity spring and movable rod, the scraper blade all sets up in the top of the inside both sides of dog-house, and the sliding tray is all installed at both ends around scraper blade one side, the rocker all sets up in both ends intermediate position department around the dog-house is inside, and the movable rod is all installed to the one end that the rocker is close to each other, inside the both ends of movable rod all extended to the sliding tray, and the slider is all installed at the both ends of movable rod, the movable rod outer wall of the inside of sliding tray all overlaps and is equipped with activity spring.

Preferably, the one end that the rocker kept away from each other all extends to the outside at both ends around the dog-house, and the movable rod all constitutes sliding structure through slider and sliding tray.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the rocker is arranged, the rocker is pulled downwards to drive the movable rod to move downwards, meanwhile, the movable rod in the sliding groove pushes the sliding block to slide obliquely downwards and generate tensile force on the movable spring, one end of the movable spring is fixed with the sliding groove, the sliding block is enabled to approach the rocker under the reaction force of the movable spring, and meanwhile, the scraper plate also slides downwards, so that the structure realizes the cleaning of the feeding position and prevents the feeding position from being blocked;

(2) the servo motor is started through the servo motor, the servo motor starts to work, the servo motor on the left side rotates clockwise, the servo motor on the right side rotates anticlockwise and drives the second driving rod to rotate simultaneously, so that the two grinding rollers are forced to rotate towards the direction close to each other, the structure realizes the separation of solids adhered together, and the screening accuracy is improved;

(3) through being provided with driving motor, start driving motor, driving motor begins work, it is rotatory to drive first actuating lever, first actuating lever then forces half-tooth gear to rotate, half-tooth gear and pinion rack intermeshing, at first actuating lever pivoted in-process, the teeth of a cogwheel intermittent type nature on it meshes and makes its luffing motion with the pinion rack on both sides, thereby force the movable groove luffing motion, give the screening groove with the swing transmission through second spout and second sliding plate, make the screening groove luffing motion, this structure has realized the processing of rocking to screening plant, the efficiency of screening has been improved.

Drawings

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

fig. 2 is a schematic view of the structure of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the present invention in a partial top view;

FIG. 4 is a schematic side sectional view of the movable trough according to the present invention;

fig. 5 is a schematic view of the enlarged structure of the feed opening of the present invention.

In the figure: 1. footing; 2. collecting tank; 3. a first sliding plate; 4. a first chute; 5. a drive motor; 6. a first drive lever; 7. a movable groove; 8. shaking the structure; 9. a scraping structure; 901. a squeegee; 902. a rocker; 903. a slider; 904. a sliding groove; 905. a movable spring; 906. a movable rod; 10. a main body; 11. a feeding port; 12. a grinding roller; 13. a second drive lever; 14. a second chute; 15. a second sliding plate; 16. a screening tank; 17. screening holes; 18. a servo motor; 19. a half-tooth gear; 20. a toothed plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-5, a sieving apparatus for producing voc adsorbent comprises a footing 1, a grinding structure for dispersing binding solids, a shaking structure 8 for improving sieving efficiency, and a scraping structure 9 for preventing blockage at the feeding position;

the top end of the footing 1 is provided with a main body 10, the bottom ends of two sides inside the main body 10 are respectively provided with a first sliding chute 4, the inside of each first sliding chute 4 is provided with a first sliding plate 3, a collecting groove 2 is transversely arranged between the first sliding chutes 4 through the first sliding plates 3, the collecting groove 2 and the first sliding chutes 4 form a sliding structure, two sides above the collecting groove 2 inside the main body 10 are respectively provided with a second sliding chute 14 through a shaking structure 8, the inside of each second sliding chute 14 is provided with a second sliding plate 15, screening grooves 16 are transversely arranged between the second sliding chutes 14 through the second sliding plates 15, the screening grooves 16 form a sliding structure through the second sliding plates 15 and the second sliding chutes 14, the inside of the bottom ends of the screening grooves 16 is provided with screen holes 17, and the shaking structures 8 are respectively positioned at two sides of the screening grooves 16;

a feeding port 11 is arranged at the top end of the main body 10, and the scraping structure 9 is positioned inside the feeding port 11;

the grinding structure is located inside the body 10 above the sifting groove 16;

referring to fig. 1-5, a screening device for producing voc adsorbent further includes a grinding structure, the grinding structure includes a servo motor 18, the type of the servo motor 18 can be 80HB-02430, the servo motors 18 are all installed on two sides of the top end of the rear end of the main body 10, the output ends of the servo motors 18 are all installed with second driving rods 13, and the outer walls of the second driving rods 13 inside the main body 10 are all sleeved with grinding rollers 12;

one end of the second driving rod 13 extends to both sides of the front end inside the main body 10, and the second driving rod 13 is connected to both sides of the front end inside the main body 10 through a rotating shaft;

specifically, as shown in fig. 1 and 3, when the mechanism is used, the servo motor 18 is turned on, the servo motor 18 starts to operate, the servo motor 18 on the left side rotates clockwise, the servo motor 18 on the right side rotates counterclockwise, and the second driving rod 13 is driven to rotate, so that the two grinding rollers 12 are also driven to rotate in the direction of approaching each other.

Example 2: the shaking structure 8 comprises a driving motor 5, a first driving rod 6, a movable groove 7, a half-tooth gear 19 and a toothed plate 20, the driving motor 5 is installed on two sides of the main body 10, the type of the driving motor 5 can be Y315M-2, the first driving rod 6 is installed on the output end of the driving motor 5, the half-tooth gear 19 is installed on one end of the first driving rod 6, the movable groove 7 is installed on one side, away from the screening groove 16, of the second sliding groove 14, and the toothed plate 20 is installed on the front end and the rear end inside the movable groove 7;

one end of each first driving rod 6 extends to the inside of the movable groove 7, and the half-tooth gears 19 are meshed with the tooth plates 20;

specifically, as shown in fig. 1 and 4, when the mechanism is used, the driving motor 5 is started, the driving motor 5 starts to operate, the first driving rod 6 is driven to rotate, the first driving rod 6 forces the half-tooth gear 19 to rotate, the half-tooth gear 19 is meshed with the toothed plate 20, and in the process of rotating the first driving rod 6, the teeth on the first driving rod intermittently mesh with the toothed plates 20 on two sides and swing up and down, so that the movable chute 7 is forced to swing up and down, and the swing is transmitted to the screening chute 16 through the second chute 14 and the second sliding plate 15, so that the screening chute 16 swings up and down.

Example 3: the scraping structure 9 comprises a scraping plate 901, a rocker 902, a sliding block 903, a sliding groove 904, a movable spring 905 and a movable rod 906, wherein the scraping plate 901 is arranged at the top ends of two sides in the feed opening 11, the sliding grooves 904 are arranged at the front end and the rear end of one side of the scraping plate 901, the rocker 902 is arranged at the middle position of the front end and the rear end in the feed opening 11, the movable rod 906 is arranged at one end, close to the rocker 902, of each other, the two ends of the movable rod 906 extend into the sliding groove 904, the sliding blocks 903 are arranged at the two ends of the movable rod 906, and the movable spring 905 is sleeved on the outer wall of the movable rod 906 in the sliding groove 904;

one ends of the rocker arms 902, which are far away from each other, extend to the outer parts of the front end and the rear end of the feeding port 11, and the movable rods 906 form a sliding structure through the sliding blocks 903 and the sliding grooves 904;

specifically, as shown in fig. 1 and 5, when the mechanism is used, the rocker 902 is pulled downward, the movable rod 906 is driven to move downward, the movable rod 906 inside the sliding groove 904 pushes the slider 903 to slide obliquely downward and generates tensile force on the movable spring 905, one end of the movable spring 905 is fixed with the sliding groove 904, and under the reaction force of the movable spring 905, the slider 903 is made to approach the rocker 902, and the scraper 901 also slides downward.

The working principle is as follows: when the device is used, firstly, a worker puts a to-be-processed material into the device from the feeding port 11, after feeding is finished, if the feeding port 11 is internally remained, the worker can pull the rocker 902 downwards to drive the movable rod 906 to move downwards, meanwhile, the movable rod 906 in the sliding groove 904 pushes the slider 903 to slide obliquely downwards and generate tensile force on the movable spring 905, one end of the movable spring 905 is fixed with the sliding groove 904, the slider 903 is enabled to approach the rocker 902 under the reaction force of the movable spring 905, meanwhile, the scraper 901 also slides downwards, in the process, the scraper 901 is always attached to the inner wall of the feeding port 11, and scraping treatment is carried out on the material on the inner wall of the feeding port 11.

After the materials to be processed are added, the worker turns on the servo motor 18, the servo motor 18 starts to work, the servo motor 18 on the left side rotates clockwise, the servo motor 18 on the right side rotates anticlockwise and drives the second driving rod 13 to rotate at the same time, so that the two grinding rollers 12 are forced to rotate towards the approaching direction, and the materials to be processed, which are bonded together, are rapidly dispersed under the grinding of the grinding rollers 12 and fall into the device.

Finally, the material to be processed enters the screening groove 16, the operator turns on the driving motor 5, the driving motor 5 starts to work, the first driving rod 6 is driven to rotate, the first driving rod 6 forces the half-tooth gear 19 to rotate, the half-tooth gear 19 is meshed with the toothed plate 20, during the rotation of the first driving rod 6, the gear teeth thereon intermittently engage with the toothed plates 20 on both sides and make them swing up and down, thereby forcing the movable slot 7 to swing up and down, the swing is transmitted to the screening groove 16 through the second chute 14 and the second sliding plate 15, so that the screening groove 16 shakes up and down, the solid with the radius smaller than that of the screen hole 17 falls into the collecting groove 2 from the screen hole 17, the others are left inside the screening slot 16, the operator closes the driving motor 5 after the screening is finished, opens the valve of the device, takes out the screening slot 16 from the inside of the second chute 14 through the second sliding plate 15, and pulls the handle to take out the collecting tank 2 from the inside of the first chute 4 through the first sliding plate 3.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. A screening device for the production of voc sorbent comprising a footing (1) characterized in that: the device also comprises a grinding structure for dispersing the bonding solid, a shaking structure (8) for improving the screening efficiency and a scraping structure (9) for preventing the blockage of the feeding part;

the top end of the bottom foot (1) is provided with a main body (10), the bottom ends of two sides in the main body (10) are respectively provided with a first sliding chute (4), a collecting groove (2) is transversely arranged between the first sliding chutes (4) through the first sliding plates (3), the collecting groove (2) and the first sliding chutes (4) form a sliding structure, two sides above the collecting groove (2) in the main body (10) are respectively provided with a second sliding chute (14) through a shaking structure (8), the second sliding chute (14) is respectively provided with a second sliding plate (15), a screening groove (16) is transversely arranged between the second sliding chutes (14) through the second sliding plates (15), and the screening groove (16) and the second sliding chutes (14) form a sliding structure, sieve holes (17) are formed in the bottom end of the sieving groove (16), and the shaking structures (8) are located on two sides of the sieving groove (16);

a feeding port (11) is arranged at the top end of the main body (10), and the scraping structure (9) is positioned inside the feeding port (11);

the grinding structure is located above the screening slot (16) inside the body (10).

2. A screening device for the production of voc sorbent according to claim 1, wherein: grind structure includes servo motor (18), servo motor (18) are all installed in the both sides of main part (10) rear end top, and second actuating lever (13) are all installed to the output of servo motor (18), inside second actuating lever (13) outer wall of main part (10) all overlaps and is equipped with grinding roller (12).

3. A screening device for the production of voc sorbent according to claim 2, wherein: one end of the second driving rod (13) extends to two sides of the inner front end of the main body (10), and the second driving rod (13) is connected to two sides of the inner front end of the main body (10) through a rotating shaft.

4. A screening device for the production of voc sorbent according to claim 1, wherein: rock structure (8) and include driving motor (5), first actuating lever (6), activity groove (7), half-tooth gear (19) and pinion rack (20), driving motor (5) are all installed in the both sides of main part (10), and driving motor's (5) output all installs first actuating lever (6), half-tooth gear (19) are all installed to the one end of first actuating lever (6), and activity groove (7) all install in second spout (14) keep away from one side in screening groove (16), pinion rack (20) are all installed at both ends around activity groove (7) is inside.

5. A screening device for the production of voc sorbent according to claim 4, wherein: one end of the first driving rod (6) extends to the inner part of the movable groove (7), and the half-tooth gears (19) are meshed with the toothed plates (20).

6. A screening device for the production of voc sorbent according to claim 1, wherein: scrape and get structure (9) and include scraper blade (901), rocker (902), slider (903), sliding tray (904), activity spring (905) and movable rod (906), scraper blade (901) all set up in the top of dog-house (11) inside both sides, and sliding tray (904) are all installed at both ends around scraper blade (901) one side, rocker (902) all set up both ends intermediate position department around dog-house (11) is inside, and movable rod (906) are all installed to the one end that rocker (902) are close to each other, the both ends of movable rod (906) all extend to inside sliding tray (904), and slider (903) are all installed at the both ends of movable rod (906), the movable rod (906) outer wall of sliding tray (904) inside all overlaps and is equipped with activity spring (905).

7. A screening device for the production of voc sorbent according to claim 6, wherein: the one end that rocking bar (902) kept away from each other all extends to the outside at dog-house (11) front and back both ends, and movable rod (906) all constitute sliding structure through slider (903) and sliding tray (904).

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