CN218531832U - Multistage screening structure of ceramic tile production - Google Patents

Abstract

The utility model discloses a multistage screening structure of ceramic tile production, including the screening box, the feed inlet has been seted up in the middle of the screening box upper end, the lower extreme is provided with the screening subassembly in the screening box internal surface, screening box internal surface lower extreme both sides are provided with scrapes the dirt subassembly, screening box lower extreme surface is provided with the multiunit supporting leg, the surface is provided with the screening subassembly in the middle of the screening box lower extreme. A multistage screening structure of ceramic tile production, through the screening subassembly that sets up, be convenient for people carry out the automation after screening box screening dust and sort into three types according to the particle size, the material that people of being convenient for selected suitable particle diameter carries out processes such as follow-up mixture, suppression, uses manpower sparingly, this multistage screening structure of ceramic tile production, through the dirt subassembly of scraping that sets up, be convenient for screen out and clear up behind the dust, prevent that the dust accumulation is in the screening box, influence the granule screening.

Description

Multistage screening structure of ceramic tile production

Technical Field

The utility model relates to a ceramic tile raw materials screening technical field specifically is a multistage screening structure of ceramic tile production.

Background

Ceramic tiles, also called ceramic tiles, are made of refractory metal oxides and semimetal oxides by the processes of grinding, mixing, pressing, glazing, and sintering, the formed acid and alkali resistant porcelain or stone and other building or decorative materials are called as ceramic tiles, the raw materials are mostly formed by mixing clay, quartz sand and the like, after the grinding process, the particle sizes of the materials are different, the materials need to be screened, the materials with proper grain diameter are selected to be subjected to subsequent processes of mixing, pressing and the like, the materials are screened by manpower in the current sorting process, the operation mode takes a great deal of time and labor, the labor intensity is high, the sorting speed is slow, and the Chinese patent publication No. CN208771818U discloses a sorting device used in ceramic tile production, which comprises a conveyer belt device, the conveying tail end of the conveying belt device is arranged at the top of the feed hopper of the screening box body, a screen is horizontally arranged in the screening box body, one end of the screen extends into the guide disc, the other end of the screen is hinged with one end of the moving rod, a top disc capable of vertically lifting is arranged below the screen, the other end of the moving rod passes through the side wall of the screening box body and is connected with the roller moving mechanism which can transversely reciprocate, the material to be sorted is conveyed to the feed hopper through the conveyer belt device, so as to be guided to enter the screen of the screening box body, the stepping motor is turned on, which drives the incomplete gear to rotate, when the incomplete gear rotates, when the toothed part rotates to the upper end of the kidney-shaped frame body, which is engaged with the straight rack on the upper side to drive the oval frame body to move horizontally, when the toothed part rotates to the lower end of the oval frame body, the upper and lower straight racks are meshed with each other, so that the waist-shaped frame body is driven to horizontally move towards the other direction; when the waist-shaped frame body moves left and right, the transmission rod can be driven to move left and right, so that the moving rod can also move left and right in a reciprocating manner, and the screen mesh is driven to move left and right in a reciprocating manner, so that the screening process is realized; when the materials on the screen are required to be poured, the first electric telescopic rod is contracted, so that the guide disc is separated from the guide rod of the screen, the screen rotates downwards in an inclined mode, and the materials on the screen can slide down.

However, only the particles of the raw material and the powder such as dust are sieved by the sieving, and the sieved particles of the powder such as dust are directly poured and sieved without being cleaned, so that the particles and the powder are easily mixed, and the raw material particles with different sizes cannot be directly sieved in multiple stages, so that the particles with different sizes are still mixed together and are difficult to distinguish.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a multistage screening structure of ceramic tile production possesses the screening, scrapes advantages such as dirt, can effectively solve the problem in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the technical proposal that: the utility model provides a multistage screening structure of ceramic tile production, includes the screening box, the feed inlet has been seted up in the middle of the screening box upper end, the lower extreme is provided with the screening subassembly in the screening box internal surface, screening box internal surface lower extreme both sides are provided with scrapes the dirt subassembly, screening box lower extreme surface is provided with the multiunit supporting leg, the surface is provided with the screening subassembly in the middle of the screening box lower extreme, the screening subassembly includes bottom plate, telescopic link, brace table, selects separately the aperture, selects separately the mesopore, selects separately macropore, first storage vehicle, connects dead slot, second storage vehicle, third storage vehicle, universal wheel, baffle and connecting plate, a brace table has been placed to screening box lower extreme surface, brace table lower extreme surface is provided with the multiunit telescopic link.

Preferably, telescopic link lower extreme surface is provided with the bottom plate, the connecting plate has been placed to brace table one side surface, connecting plate lower extreme surface is provided with the connection dead slot, the multiunit separation aperture has been seted up to connecting plate one end, it has first storage car to select separately aperture lower extreme surface, be provided with the multiunit in the middle of the connecting plate and select separately the mesopore, it has placed the second storage car to select separately mesopore lower extreme surface, the connecting plate other end is provided with the multiunit and selects separately the macropore, it is provided with the third storage car to select separately macropore lower extreme surface, multiunit universal wheel is all installed with third storage car lower extreme surface to first storage car, second storage car, separation macropore one end surface is provided with the baffle.

Preferably, fixed connection between feed inlet and the screening box, can dismantle between screening subassembly and the screening box and be connected, fixed mounting between supporting leg and the screening box, fixed connection between bottom plate and the telescopic link, fixed connection between telescopic link and the brace table.

Preferably, the connection plate is spliced with the support platform, the connection empty slot is fixedly connected with the first storage vehicle, the separation small hole is fixedly mounted with the connection plate, the separation middle hole is fixedly mounted with the connection plate, the separation large hole is fixedly mounted with the connection plate, and the baffle is fixedly connected with the connection plate.

Preferably, the dust scraping assembly comprises a sliding groove, a sliding block and a scraping plate, the sliding groove is formed in two sides of the lower end of the inner surface of the screening box body, the sliding block is arranged on the inner surface of the sliding groove, and one end of the sliding block is connected with the scraping plate.

Preferably, the sliding block is connected with the sliding groove in a sliding mode, and the sliding block is fixedly connected with the scraping plate.

(III) advantageous effects

Compared with the prior art, the utility model provides a multistage screening structure of ceramic tile production possesses following beneficial effect:

1. this multistage screening structure of ceramic tile production through the screening subassembly that sets up, carries out automatically after people sieve out the dust through the screening box and divides into three types according to the particle size, and the people of being convenient for select the material of suitable particle diameter to carry out processes such as follow-up mixture, suppression, uses manpower sparingly.

2. This multistage screening structure of ceramic tile production through what set up scrapes the dirt subassembly, is convenient for in time clear up after screening out dust such as dust, prevents that the dust accumulation from influencing the granule screening in the screening box.

Drawings

Fig. 1 is the utility model relates to a multistage screening structure's of ceramic tile production overall structure schematic diagram.

Figure 2 is the utility model relates to a side view of screening subassembly in multistage screening structure of ceramic tile production.

Figure 3 is the utility model discloses a scrape the side view of dirt subassembly in multistage screening structure of ceramic tile production.

In the figure: 1. screening a box body; 2. a screening component; 3. a dust scraping component; 4. a screen assembly; 5. a feed inlet; 6. supporting legs; 7. a base plate; 8. a telescopic rod; 9. a support table; 10. sorting small holes; 11. sorting the mesopores; 12. sorting the macropores; 13. a first storage vehicle; 14. connecting the empty slots; 15. a second storage vehicle; 16. a third storage vehicle; 17. a universal wheel; 18. a baffle plate; 19. a connecting plate; 20. a chute; 21. a slider; 22. and a scraper.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The embodiment is a multistage screening structure of ceramic tile production.

As shown in fig. 1-3, a multistage screening structure of ceramic tile production, including screening box 1, the feed inlet 5 has been seted up in the middle of screening box 1 upper end, the lower extreme is provided with screening subassembly 4 in the screening box 1 internal surface, screening box 1 internal surface lower extreme both sides are provided with scrapes dirt subassembly 3, screening box 1 lower extreme surface is provided with multiunit supporting leg 6, the surface is provided with screening subassembly 2 in the middle of the screening box 1 lower extreme, screening subassembly 2 includes bottom plate 7, telescopic link 8, brace table 9, select separately aperture 10, select separately mesopore 11, select separately macropore 12, first storage vehicle 13, connect dead slot 14, second storage vehicle 15, third storage vehicle 16, universal wheel 17, baffle 18 and connecting plate 19, brace table 9 has been placed to screening box 1 lower extreme surface, brace table 9 lower extreme surface is provided with multiunit telescopic link 8.

The outer surface of the lower end of a telescopic rod 8 is provided with a bottom plate 7, a connecting plate 19 is placed on the outer surface of one side of a support platform 9, a connecting empty groove 14 is formed in the outer surface of the lower end of the connecting plate 19, multiple groups of separation small holes 10 are formed in one end of the connecting plate 19, first storage vehicles 13 are placed on the outer surface of the lower end of the separation small holes 10, multiple groups of separation middle holes 11 are formed in the middle of the connecting plate 19, second storage vehicles 15 are placed on the outer surface of the lower end of the separation middle holes 11, multiple groups of separation large holes 12 are formed in the other end of the connecting plate 19, multiple groups of separation large holes 12 are formed in the outer surface of the lower end of each separation large hole 12, third storage vehicles 16 are arranged on the outer surface of the lower ends of the separation large holes 12, multiple groups of universal wheels 17 are arranged on the outer surfaces of the lower ends of the separation large holes 12, separation large holes 12 and the screening boxes 1, screening assemblies 4 and the screening boxes 1 are detachably connected, supporting legs 6 and the screening boxes 1, fixed and the connecting plates 7 and 8, fixed are connected, fixed and the telescopic rods 8 and the connecting plate 8, the connecting plate 8 and the connecting plate 19, the connecting plate 19 and the connecting plate 21 and 20 are connected, the sliding blocks 21 are arranged on the inner surface of the sliding grooves 21, and 20, the sliding blocks 21 are arranged on the sliding grooves 21, and 20 are arranged on the sliding blocks 21, and 20.

It should be noted that, the utility model relates to a multistage screening structure of ceramic tile production, when screening, feed through feed inlet 5, screen through screening subassembly 4, make the dust, the dust falls into screening box 1 internal surface upper end, and it can go on dirt to have seted up the round hole in the middle of the screening box 1 internal surface, slide in spout 20 through making slider 21, gliding while drives scraper blade 22 and carries out striking off screening box 1 internal surface upper end, make the dust enter into the round hole and fall out, after that through supporting bench 9 and telescopic link 8 and bottom plate 7 remove screening box 1 one side lower extreme, adjust supporting bench 9 and screening box 1 suitable position through telescopic link 8, after that make connecting plate 19 splice supporting bench 9 one side with being connected dead slot 14, after that first electric telescopic handle contracts, make the deflector break away from the guide bar of screen cloth, the screen cloth takes place slope downwardly rotating, make the material on the screen cloth can landing to connecting plate 19 surface, the granule is through selecting separately aperture 10, mesopore selection 11 carries out autofilter with selection macropore 12, and carry out a certain gradient with 19, can be convenient for the granule whereabouts, after that the granule falls into corresponding first storage car 13, pull out after-by-pull out the manpower sparingly, and use the car 13, and use the storage car is saved.

It is noted that, herein, relational terms such as first and second (first, second, and the like) and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a multistage screening structure of ceramic tile production, includes screening box (1), its characterized in that: feed inlet (5) have been seted up in the middle of screening box (1) upper end, the lower extreme is provided with screening subassembly (4) in screening box (1) internal surface, screening box (1) internal surface lower extreme both sides are provided with scrapes dirt subassembly (3), screening box (1) lower extreme surface is provided with multiunit supporting leg (6), the surface is provided with screening subassembly (2) in the middle of screening box (1) lower extreme, screening subassembly (2) include bottom plate (7), telescopic link (8), brace table (9), select separately aperture (10), select separately mesopore (11), select separately macropore (12), first storage car (13), connect dead slot (14), second storage car (15), third storage car (16), universal wheel (17), baffle (18) and connecting plate (19), a brace table (9) has been placed to screening box (1) lower extreme surface, brace table (9) lower extreme surface is provided with multiunit telescopic link (8).

2. A multistage screening arrangement for ceramic tile production according to claim 1, characterized in that: the utility model discloses a storage vehicle, including telescopic link (8), brace table (9), connecting plate (19) have been placed to support table (8) lower extreme surface, connecting plate (19) lower extreme surface is provided with connects dead slot (14), multiunit separation aperture (10) have been seted up to connecting plate (19) one end, first storage vehicle (13) have been placed to separation aperture (10) lower extreme surface, be provided with multiunit separation mesopore (11) in the middle of connecting plate (19), second storage vehicle (15) have been placed to separation mesopore (11) lower extreme surface, connecting plate (19) other end is provided with multiunit separation macropore (12), separation macropore (12) lower extreme surface is provided with third storage vehicle (16), multiunit universal wheel (17) are all installed with third storage vehicle (16) lower extreme surface in first storage vehicle (13), second storage vehicle (15), separation macropore (12) one end surface is provided with baffle (18).

3. A multistage screening arrangement for ceramic tile production according to claim 2, characterized in that: fixed connection between feed inlet (5) and the screening box (1), can dismantle between screening subassembly (4) and the screening box (1) and be connected, fixed mounting between supporting leg (6) and the screening box (1), fixed connection between bottom plate (7) and telescopic link (8), fixed connection between telescopic link (8) and brace table (9).

4. A multistage screening arrangement for ceramic tile production according to claim 3, characterized in that: splice between connecting plate (19) and brace table (9), be connected fixed connection between dead slot (14) and first storage vehicle (13), fixed mounting between separation aperture (10) and connecting plate (19), fixed mounting between separation mesopore (11) and connecting plate (19), fixed mounting between separation macropore (12) and connecting plate (19), fixed connection between baffle (18) and connecting plate (19).

5. A multistage screening arrangement for ceramic tile production according to claim 1, characterized in that: scrape dirt subassembly (3) and include spout (20), slider (21) and scraper blade (22), screening box (1) internal surface lower extreme both sides are provided with spout (20), spout (20) internal surface is provided with slider (21), slider (21) one end is connected with scraper blade (22).

6. A multistage screening arrangement for ceramic tile production according to claim 5, characterized in that: the sliding block (21) is in sliding connection with the sliding groove (20), and the sliding block (21) is fixedly connected with the scraping plate (22).

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