CN114589802A - Novel refined material distribution system of whole-body ceramic tile of rock plate - Google Patents

Abstract

The invention discloses a refined material distribution system of a novel rock plate whole-body ceramic tile, which comprises a blanking device, a conveying device and a rolling device, wherein the blanking device is used for blanking powder, the conveying device is used for stacking and conveying the powder, and the rolling device is used for a press roller of a distributed blank body; the blanking device is provided with a plurality of hopper stations, and the conveying device is a reciprocating conveying device. The main hopper and the line hopper are of a separated material distribution structure, and reciprocating type conveying devices are adopted to perform reciprocating type material distribution in opposite directions on the line parts. Reciprocating type lines cloth twice not only can realize the straightness perpendicular that hangs down of the inside lines cloth of entire body ceramic tile, and can be better control the cloth position, guarantee the inside lines of entire body and with the ceramic tile surface decorative pattern correspond the effect. The pattern accuracy of the whole ceramic tile is higher, and the whole ceramic tile is more attractive.

Description

Novel refined material distribution system of whole-body ceramic tile of rock plate

Technical Field

The invention relates to a whole ceramic tile, in particular to a novel refined material distribution system of a whole rock plate ceramic tile.

Background

The whole-body brick is a low-water absorption ceramic tile with the surface color and texture of the body and the brick basically consistent. The general brick mainly aims to enable the exposed green bricks to be consistent with the color and the texture of the brick surface after the brick body is subjected to secondary processing such as chamfering and grooving so as to keep the consistency of the overall design and be similar to stone. For the whole body ceramic tile, the mode of 'equipment glass box cloth and blank coloring' can be adopted for processing and production, and the first generation of 'straight line whole body marble ceramic tile' is realized; the rubber covered roller forming lump with line texture can be sleeved with a second generation of non-directional disordered-texture full-through marble tile, so that the simulation degree of the whole-body effect is further |! And secondly, the grating and the template can be adopted to realize the one-to-one corresponding complete set pattern.

In practical production practice, the whole body produced by the above methods has the following defects:

1. the straight grain whole body only adopts a glass box mode, regular and identical thin lines and green body layers with similar colors can be distributed, and grain lines of the green body layers are difficult to show the beauty of different whole body grains;

2. the disordered-grain whole body is randomly distributed by a plurality of rubber rollers to form a lump of powder material, sometimes the effect of coating grains can be achieved, but most of the effect of coating grains is difficult;

3. the nesting bodies can be in one-to-one correspondence (bottom and face texture, color, level effect), but the implementation and conversion of eight different designs by using the grids and the templates is cumbersome.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a refined material distribution system of a novel rock plate whole body ceramic tile, which realizes fine line correspondence by matching hoppers placed at different positions with a reciprocating type conveying device.

The technical scheme adopted by the invention for solving the technical problems is as follows: a refined material distribution system of a novel rock plate whole-body ceramic tile comprises a blanking device, a conveying device and a rolling device, wherein the blanking device is used for blanking powder, the conveying device is used for stacking and conveying the powder, and the rolling device is used for a compression roller of a distributed blank body; the blanking device is provided with a plurality of hopper stations, and the conveying device is a reciprocating conveying device.

As an improvement of the technical scheme, the hopper station comprises a main hopper, a line hopper and a scraping hopper, the main hopper and lines are arranged in the sequence of patterns in the whole tile, the main hopper is arranged on one side of a feeding port of the conveying device, the line hopper is arranged on one side of a discharging port of the conveying device, and the scraping hopper is used for scraping the main hopper and the line hopper.

As a further improvement of the technical scheme, the scraping hopper comprises a main scraping hopper and a line scraping hopper, the main scraping hopper is arranged on one side of the main hopper, and the line scraping hopper is arranged on one side of the line hopper.

As a further improvement of the technical scheme, the number of the main hoppers is five, the five main hoppers are arranged in parallel, the number of the line hoppers is two, and the main scraping hopper and the line scraping hopper are arranged between the main hoppers and the line hoppers.

As a further improvement of the technical scheme, a recovery hopper is further arranged on the hopper station and is arranged on one side of the main hopper.

As a further improvement of the technical scheme, the recovery hopper is further connected with a recovery driving device, one end of the recovery driving device is communicated with the recovery hopper, and the other end of the recovery driving device is connected to the compression roller device.

As a further improvement of the above technical solution, the conveying device includes a cloth conveying structure and a material receiving conveying structure, the cloth conveying device is used for distributing the material powder, the material receiving conveying structure is used for conveying the material powder after the material distribution is completed to the press roller device, the cloth conveying structure includes a main conveying structure and a line conveying structure, and the main conveying structure and the cloth conveying structure have opposite movement directions.

As a further improvement of the above technical solution, the line conveying structure is a line conveying belt assembly, the main conveying structure is a main conveying belt assembly, and a conveying belt of the main conveying belt assembly is located below a belt of the line conveying belt assembly, and the line conveying belt is used for directionally distributing the line powder on the main material powder of the main conveying belt.

As a further improvement of the above technical scheme, a moving transfer conveying structure is further arranged between the distributing conveying structure and the receiving conveying structure, and the moving transfer conveying structure is used for adjusting the thickness of the powder accumulation.

As a further improvement of the above technical solution, the moving transfer structure is a transfer conveyor belt assembly, a belt of the transfer conveyor belt assembly is disposed below the main conveyor belt, and a moving direction of the transfer conveyor belt is opposite to a moving direction of the main conveyor belt.

The invention has the beneficial effects that: the whole ceramic tile production system is provided with a material distribution structure with a main hopper and a line hopper separated from each other, and reciprocating type material distribution in opposite directions is carried out on the line parts by adopting a reciprocating type conveying device. Reciprocating type lines cloth twice not only can realize the straightness perpendicular that hangs down of the inside lines cloth of entire body ceramic tile, and can be better control the cloth position, guarantees the corresponding effect of the inside lines of entire body and ceramic tile surface decorative pattern. The pattern accuracy of the whole ceramic tile is higher, and the whole ceramic tile is more attractive.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a table of parameters for the full body tile experiment of the present invention.

1. A main hopper; 11. a main scraping hopper; 2. a line hopper; 21. scraping a hopper by lines; 3. a recovery hopper; 4. a main transport structure; 5. a line transfer structure; 6. a material receiving and conveying structure; 7. a mobile transfer structure; 8. and recovering the driving device.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive efforts are within the protection scope of the present invention based on the embodiments of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1, a novel fine distributing system of whole body ceramic tile of rock plate, includes unloader, conveyer and roll-in device, unloader is used for the unloading of powder, conveyer is used for piling up and the conveying of powder, roll-in device is used for the compression roller of body behind the cloth. The blanking device is provided with multiple hopper stations, the positions and the quantity of powder materials with corresponding colors in the blanking device are arranged corresponding to designed cloth area diagrams, the cloth design diagram areas are distributed in the belt transmission process of the conveying device through the hopper stations corresponding to the blanking device, and the cloth materials are pressed and molded through the pressing device after being distributed. In order to ensure that the whole body lines in the ceramic tile can not show an inclined state when the materials are distributed in the material distribution conveying process, the conveying device is a reciprocating conveying device, the reciprocating conveying device is matched with the discharging device to be in a material distribution state with two intersecting directions, so that the pattern lines of the ceramic tile can be shown in vertical patterns corresponding to the patterns on the surface of the ceramic tile after the materials are distributed, and the appearance of the whole body ceramic tile is attractive.

Specifically, the hopper station includes main hopper 1, lines hopper 2 and scrapes the hopper, main hopper 1 and lines are arranged according to the decorative pattern order in the whole body ceramic tile, main hopper 1 sets up the one side at the conveyer pan feeding, lines hopper 2 sets up the one side at the conveyer discharge gate, it is used for scraping of main hopper 1 and lines hopper 2 to scrape the hopper. Scrape the hopper including the main hopper 21 of scraping of hopper 11 and lines, the main hopper 11 that scrapes sets up in one side of main hopper 1, the hopper setting is scraped in one side of lines hopper 2 to the lines material.

As an embodiment of the present invention, five main hoppers 1 are provided, five main hoppers 1 are arranged in parallel, two line hoppers 2 are provided, and the main scraping hopper 11 and the line scraping hopper 21 are provided between the main hoppers 1 and the line hoppers 2. The hopper structure mainly has charging box, a plurality of parallel arrangement's unloading sluice gate, servo little belt, and servo little belt sets up in the bottom of unloading sluice gate, can drive the material powder that unloading sluice gate department got off, shifts the material powder to the cloth position on the conveyer. The bore of the discharging gate can be determined according to the diameter of the gate determined by the thickness of the layout lines, the diameter of the gate is 5mm, 9mm, 13mm and the like, the optimal diameter of each discharging gate is set to be 7mm, when each discharging opening of the line hopper 2 is smaller than 7mm, the discharging speed is obviously reduced, the flowability of powder is influenced, the whole material distribution efficiency is reduced, when each discharging opening of the line hopper 2 is larger than 7mm, lines cannot be refined, and the 2-3mm thin lines which are most suitable for the whole appearance on the whole ceramic tile cannot be seen (the detailed experimental data are shown in figure 2). Secondly, main scraper bucket 11 and lines scraper bucket 21, when the powder goes down on the line material transfer belt, because factors such as the rotation impact of belt can become dispersed, so will set up a main scraper bucket 11 and lines scraper bucket 21 respectively at the terminal position of main hopper 1 cloth and the terminal position of lines hopper 2 cloth. The main scraping hopper 11 and the line scraping hopper 21 can collect and concentrate dispersed lines to be less than or equal to 7mm in the distribution process of the main hopper 1 and the line hopper 2 and then refill the dispersed lines into the main material, so that the uniformity and stability of the main hopper 1 and the line hopper 2 in the distribution process can be further ensured, and the overall pattern quality and the attractiveness of the whole ceramic tile are improved.

Still be provided with recovery hopper 3 on the hopper station, recovery hopper 3 sets up in main hopper 1 one side. The recycling hopper 3 is also connected with a recycling driving device 8, one end of the recycling driving device 8 is communicated with the recycling hopper 3, and the other end of the recycling driving device 8 is connected to the compression roller device. After the distributing device finishes distributing, the scope of cloth often can be great, and density is great between the powder, and is comparatively loose, just can produce the density height after the roll-in device rolls in again, the high ceramic tile of hardness, but the compression roller device is when suppressing loose components of a whole that can function independently, produces dropping of powder easily, to these powder, if not handle not only can produce extravagantly, and can exert an influence to whole system equipment. And the setting of retrieving drive arrangement 8 alright through the recovery belt that sets up on it with retrieve hopper 3 and compression roller device intercommunication, the last material powder that produces of compression roller device directly drops on the recovery belt of setting in the compression roller device bottom. The recovery belt moves upwards, and can drive the material powder attached to the belt to the top of the recovery hopper 3, so that the material powder is recovered to the hopper, and then the mechanical energy is used when the main hopper 1 is used for distributing the material, thereby avoiding the waste of the material powder.

Reciprocating type conveyer includes cloth transport structure and receipts material transport structure 6, cloth transport device is used for the cloth of material powder, receive material transport structure 6 and be used for sending the material powder after the cloth is accomplished to compression roller device department, cloth transport structure includes main transport structure 4 and lines transport structure 5, main transport structure 4 and cloth transport structure's motion opposite direction. Still be provided with between cloth conveying structure and the receipts material conveying structure 6 and change conveying structure 7 in the removal, it changes conveying structure 7 in the removal is used for adjusting the accumulational thickness of material powder. The line conveying structure 5 is a line conveying belt assembly, the main conveying structure 4 is a main conveying belt assembly, a conveying belt of the main conveying belt assembly is located below a belt of the line conveying belt assembly, and the line conveying belt is used for directionally distributing line powder on main material powder of the main conveying belt. The moving transfer conveying structure 7 is a transfer conveying belt assembly, a belt of the transfer conveying belt assembly is arranged below the main conveying belt, and the moving direction of the transfer conveying belt is opposite to the moving direction of the main conveying belt. The main conveying belt assembly and the line conveying belt assembly are provided with belt driving structures, belt pulleys and conveying belts in an up-rolling mode, the conveying belts are arranged below the material distributing hopper, and the main material distributing hopper and the line material distributing hopper are respectively provided with extensions, so that the main material distributing hopper, the line material distributing hopper and the scraping hopper can conveniently distribute the material powder on the conveying belts. In addition, the conveying part is also provided with a plurality of sensors, the material vehicle carries out dynamic synchronous material distribution through programming and detection of the sensors according to a design drawing, and the rotation angle of a servo motor of each belt is accurately controlled to control the speed and the movement distance of the belt.

The basic material distribution process: when the system starts, the main conveying belt assembly, the line conveying belt assembly, the transfer conveying belt assembly and the material receiving conveying belt assembly start to operate, after the operation speeds of the main conveying belt assembly, the material distribution is started according to the uploaded design drawing at the hopper station, and when the five main materials are completed on the main material belt in the forward direction and reach the position below the main scraping hopper 11, gaps of lines are reserved in the main materials by the main scraping hopper 11. The line hopper 2 finishes the material distribution on the reverse direction of the line transfer belt, and similarly, after the line scraping hopper 21 collects the lines, the lines are reversely filled into the gaps scraped by the main material, and the full material distribution is finished at the tail end of the main material transfer belt. And finally, the cloth is transferred to a steel belt of a rolling machine by the material receiving and conveying belt assembly to complete the final cloth, and the cloth is rolled and formed along with the movement of the steel belt.

As can be seen from fig. 2, in the distributing process, the thickness of the cloth is affected by the speed of the belt in addition to the feeding speed of the hopper, and in the embodiment, the speed of the main conveyor belt is taken as reference and is set as X, the speed of the line conveyor belt is also taken as X, the speed of the transfer belt is 0.1X, and the speed of the receiving belt is also taken as 0.1X. Firstly, because the speed of the main conveying belt and the line conveying belt is very high, the powder is elongated and thinned at the speed of X, the whole thickness is about 3.2 +/-0.2 mm, the process is a process of amplifying the details in the figure, particularly, the lines start to be decorated layer action parts like the lines, then the lines enter the transfer belt rotating reversely at the speed of only 0.1X to form reverse accumulation and extrusion, finally, the rolling thickness of 32 +/-2 mm is met, the diameter of the discharge opening is 7mm, the width of the formed powder is far larger than the described 2-3mm, but the elongated and amplified lines are also extruded, so that the fine lines of 2-3mm can be formed.

In addition, the process of the change of each belt direction is that the vertical process is realized by the lines, when powder enters the transfer belt, because the powder moves along with the forward direction of the main material transfer belt, a certain impact force is generated rightwards, and the transfer belt is reverse tension, the direction formed by the lines is inclined upwards towards the right by taking the belt as the bottom, then the direction is changed into the forward direction again after the material receiving belt, at the moment, the direction of the lines is inclined upwards towards the left by taking the belt as the bottom, the speed relation between the steel belt of the roller press and the speed of the material receiving belt is well adjusted, when the powder is excessive to the steel belt of the roller press from the material receiving belt, the powder can be exactly vertically accumulated on the steel belt of the roller press, and the natural vertical of the lines is realized.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a novel distribution system that becomes more meticulous of slabstone full body ceramic tile which characterized in that: the blanking device is used for blanking powder, the conveying device is used for stacking and conveying the powder, and the rolling device is used for a compression roller of a distributed blank body; the blanking device is provided with a plurality of hopper stations, and the conveying device is a reciprocating conveying device.

2. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 1, wherein: the hopper station includes main hopper, lines hopper and scrapes the hopper, main hopper and lines are arranged according to the decorative pattern order in the whole body ceramic tile, the main hopper sets up the one side at the conveyer pan feeding, the lines hopper sets up the one side at the conveyer discharge gate, it is used for the scraping of main hopper and lines hopper to scrape the hopper.

3. The system for refined distribution of the novel whole-body ceramic tile of the rock plate as claimed in claim 2, characterized in that: scrape the hopper and scrape the hopper including main hopper and the lines of scraping, the main hopper of scraping sets up the one side at the main hopper, the lines are expected to scrape the hopper and are set up the one side at the lines hopper.

4. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 3, wherein: the main hopper is provided with five, and five main hoppers set up side by side, the lines hopper is equipped with two, the main hopper of scraping is scraped with the lines and is scraped the hopper setting between main hopper and lines hopper.

5. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 2, wherein: the recycling hopper is further arranged on the hopper station and arranged on one side of the main hopper.

6. A novel fine material distribution system for a whole body ceramic tile of a rock plate as claimed in claim 5, characterized in that: the recycling hopper is also connected with a recycling driving device, one end of the recycling driving device is communicated with the recycling hopper, and the other end of the recycling driving device is connected to the compression roller device.

7. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 1, wherein: the conveying device comprises a cloth conveying structure and a material receiving conveying structure, the cloth conveying device is used for distributing material powder, the material receiving conveying structure is used for conveying the material powder after the material distribution is completed to the compression roller device, the cloth conveying structure comprises a main conveying structure and a line conveying structure, and the main conveying structure and the cloth conveying structure are opposite in movement direction.

8. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 7, wherein: the improved line conveying structure is characterized in that the line conveying structure is a line conveying belt assembly, the main conveying structure is a main conveying belt assembly, a conveying belt of the main conveying belt assembly is located below a belt of the line transmission belt assembly, and the line conveying belt is used for distributing line powder in a direction on main material powder of the main conveying belt.

9. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 8, wherein: and a moving transfer conveying structure is also arranged between the distributing conveying structure and the receiving conveying structure and used for adjusting the thickness of the powder accumulation.

10. The system for the refined distribution of the whole body ceramic tile of the novel rock plate as claimed in claim 9, wherein: the mobile transfer structure is a transfer conveyor belt assembly, a belt of the transfer conveyor belt assembly is arranged below the main conveyor belt, and the moving direction of the transfer conveyor belt is opposite to that of the main conveyor belt.

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