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Production method of novel ceramic tile

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CN104876586A
CN104876586A CN 201510184891 CN201510184891A CN104876586A CN 104876586 A CN104876586 A CN 104876586A CN 201510184891 CN201510184891 CN 201510184891 CN 201510184891 A CN201510184891 A CN 201510184891A CN 104876586 A CN104876586 A CN 104876586A
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tile
ceramic
ball
novel
milling
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CN 201510184891
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Chinese (zh)
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卢精
邹奇峰
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福罗尼陶瓷有限公司
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Abstract

The invention discloses a production method of a novel ceramic tile. The production method comprises the following steps of: adding all kinds of raw materials of the novel ceramic tile into a ball-milling tank to mix according to a certain ratio; adding water with a certain proportion after mixing all kinds of raw materials of the novel ceramic tile, so that all kinds of raw materials are sufficiently ball-milled in the ball-milling tank; adding nano zinc oxide having the catalytic function into the ball-milling tank after ball-milling, and continuously ball-milling; covering the mixed raw materials on the surface of a green blank of the ceramic tile when a ball-milled nano antibacterial glaze is 350 g/200cc in concentration and 200 mesh in fineness, and printing a metallic inorganic compound on the surface of the ceramic tile; and calcining the ceramic tile at 1120-1230 DEG C after forming the green blank of the ceramic tile so as to obtain an antibacterial anion far-infrared ceramic tile. Due to the production method of the novel ceramic tile disclosed by the invention, the living quality is increased; health threatening of chemical residues and bacteria breeding to human bodies is reduced; the water resource is saved; use of daily chemicals is reduced; pollution to water quality is reduced; and the novel ceramic tile has the far-infrared function and is capable of effectively activating water quality.

Description

一种新型瓷砖的生产方法 A new method for the production of ceramic tiles

技术领域 FIELD

[0001] 本发明涉及一种瓷砖的生产方法,具是一种有抗细菌防霉耐久性能强和具有远红外线照射作用以及可以释放负离子瓷砖的生产方法,属于建筑材料领域。 [0001] The present invention relates to a method of producing a ceramic tile, having an anti-bacterial and mildew durability having strong far-infrared radiation effect, and the production method may release negative ions tile belongs to the field of construction materials.

背景技术 Background technique

[0002] 细菌感染极易极度影响人们的身体健康,甚至危机到生命。 [0002] extremely vulnerable to bacterial infections affect people's health and even life-crisis. 实验证明百分之九十的疾病都是由细菌感染。 Experiments show that ninety percent of diseases are infections caused by bacteria. 然而,细菌作为一类单细胞的微生物,在自然界分布广、种类多,其又与人类生产和生活的关系十分密切。 However, single-celled bacteria as a class of microbes, widely distributed in nature, variety, and its relationship with human production and living very close. 细菌能引起多种疾病,一方面危害人们的身体健康,如在人的皮肤上,口腔中和其他部位受损伤时,细菌感染会引起化脓现象,严重时可发生脓毒败血症;另一方面,微生物能够引起各种工业材料产品分解,变质,腐败,如在工业材料及其制品上污染所造成的损失,可以与水灾、火灾相比。 Bacteria can cause a variety of diseases, on the one hand harm people's health, such as on human skin, in the mouth and other parts of the injured, bacterial infections can cause septic phenomenon can occur in severe sepsis; on the other hand, microorganisms can cause product decomposition of various industrial materials, deterioration loss, corruption, such as pollution in industrial materials and products resulting may be compared with the flood, fire. 因此,抗菌材料及制品的研宄引起人们的关注,抗菌制品的需求将构成巨大的市场。 Therefore, antibacterial materials and products of a Subsidiary cause for concern, the demand for antibacterial products will constitute a huge market.

[0003] 瓷砖作为一种极其常用的建筑材料,如果具有抗菌功能将会是建筑材料领域的一个新的突破。 [0003] tile as an extremely popular building material, if antimicrobial function will be a new breakthrough in the field of construction materials. 而现在市场上只是普通瓷砖功能,在胚体表面喷涂一层普通釉面烧制而成,没有任何功能,甚至可能对环境造成新的污染,亦没有杀菌功能。 And now the market is just plain tile function, the embryo surface coating layer of ordinary glazed baked, no function, and may even cause new pollution to the environment, nor kill bacteria.

发明内容 SUMMARY

[0004] 针对上述现有技术存在问题,本发明提供一种新型瓷砖的生产方法,通过该方法能够生产出带有抗菌层的瓷砖,该瓷砖为抗菌负离子远红外线照射作用的瓷砖,并且对环境没有污染,安全稳定、养生保健、防止细菌扩散。 [0004] For the above-described prior art problems, the present invention provides a novel method for producing tiles, it can be produced by this method with a tile antibacterial layer, which is an antibacterial anion tile tile far-infrared radiation effect, and the environment no pollution, security and stability, health care, to prevent the spread of germs.

[0005] 为实现上述目的,本发明采用的技术方案是:一种新型瓷砖的生产方法,该生产方法包括如下步骤: [0005] To achieve the above object, the technical solution of the present invention is that: a new method for producing tiles, the production process comprising the steps of:

1)、将新型瓷砖的各种原料按一定配比加入到球磨罐混合; 1), the various raw materials by a certain ratio of the new tile is added to the ball mill mixing tank;

2)、等新型瓷砖各种原料混合后,加入一定比例的水,使各种原料在球磨罐里充分球磨; 2), like the new tile from a mix, adding a certain proportion of water, sufficient to make a variety of raw materials in the ball milling jar;

3)、球磨后,向球磨罐内添加具有催化功能的纳米氧化锌,继续球磨; 3) After milling, nano-zinc oxide having a catalytic function is added to the tank milling, ball milling continued;

4)、当球磨后的纳米抗菌釉浓度为350g/200cc、细度为200目时,将混合的原料覆盖在瓷砖生胚表面,并在砖表面印上金属的无机化合物; 4), when the nano-milled enamel antimicrobial concentration 350g / 200cc, fineness of 200 mesh, the mixed material covering the surface of the tiles in the green embryos, and printed on the inorganic compound of a metal surface of the tile;

5)、瓷砖生胚形成后,将瓷砖以1120度至1230度的温度煅烧成具有抗菌负离子远红外线瓷砖。 5), formed after the green tiles, the tiles at a temperature of 1120 degrees to 1230 degrees calcined to have antibacterial anion far infrared ceramic tile.

[0006] 进一步,所述新型瓷砖的各种原料为:工业氧化锌、工业碳酸钡、钾长石、硅酸锆、氧化销粉、白滑石、尚岭土。 [0006] Further, the novel tile various materials: zinc oxide industry, industrial barium carbonate, potassium feldspar, zirconium silicate, pin powder, white talc, kaolin yet.

[0007] 进一步,所述新型瓷砖的各种原料成为比为:工业氧化锌:3-8 ;工业碳酸钡:15-30 ;钾长石:30-50 ;硅酸锆:20-40 ;氧化铝粉:3_10 ;白滑石:5-15 ;高岭土:5-15 ;纳米氧化梓:2—10。 [0007] Further, various materials become the new tile ratio: Industrial zinc oxide: 3-8; Industrial barium: 15-30; feldspar: 30-50; zirconium silicate: 20-40; oxide aluminum powder: 3_10; white talc: 5-15; kaolin: 5-15; nano Zi: 2-10.

[0008] 进一步,所述一定比例的水为同比例的所述新型瓷砖的各种原料的0.6-1.5倍。 [0008] Further, a proportion of the various raw materials with water as the ratio of 0.6 to 1.5 times the new tiles.

[0009] 进一步,所述纳米氧化锌的直径为20到25纳米。 [0009] Further, the nano zinc oxide is 20 to 25 nanometers in diameter.

[0010] 进一步,所述金属的无机化合物为矾、铬、锰、铁、钴、镍或铜一种或几种。 [0010] Further, an inorganic compound of the metal is vanadium, chromium, manganese, iron, cobalt, nickel or copper, one or several.

[0011] 本发明的有益效果是:该方法制造而成的瓷砖具有抗菌负离子远红外线照射作用,使瓷砖表面常具有效保持光洁,并产生抗细菌病毒作用,释放远红外线约6-14微米之间的光波,瓷砖的抗病毒性使血流顺畅,人体温暖而减少神经痛,肌肉疼痛或关节痛,同时改善手足冰冷等症状,可帮助伤口愈合,促进睡眠,提升新陈代谢,清理体内毒素,增强免疫系统,神经系统的调整,促进人体健康等症状。 [0011] Advantageous effects of the present invention is: a method for producing the antibacterial anion formed by tiles having far-infrared radiation effect, so that the tile surface has often effective to keep clean, and bacteria produce anti-viral effect, far infrared release of about 6-14 microns between light waves, antiviral tiles so that blood smooth, the body warm and reduce nerve pain, muscle pain or joint pain while improving cold hands and feet and other symptoms, can help wound healing, promote sleep, enhance metabolism, clear toxins from the body, enhance the immune system, the nervous system adjustment, the promotion of human health and other symptoms. 负离子释放在空气里,可以去除异味和甲醛等味道,加强人体细胞的新陈代谢及增进免疫,促进深沉睡眠及良好消化。 The release of negative ions in the air, you can remove the odor and taste of formaldehyde, enhance the metabolism of human cells and boost the immune system, promote deep sleep and good digestion. 负离子也保护身心,护卫日常生活中电磁波带来的不良影响。 Negative ions also protect the physical and mental, guarding the adverse effects of electromagnetic waves caused by daily life.

[0012] 该方法生产的瓷砖具有防止细菌,病毒附着滋生的抗菌作用,以及经由瓷砖表面的远红外线照射功能,常效活化所通过物质的份子特性,而得以提升该物质的功能,达到保健作用。 [0012] The process for producing tiles have to prevent bacterial, viral attachment breeding antibacterial effect, and the elements characteristic via the far-infrared radiation function, often effective activation tile surface through which the substance, but to enhance the function of the substance, health care product, .

[0013] 该瓷砖可避免或大幅减少使用日用化学洗洁精产品,将是瓷砖领域一大革命性提升;并可大大降低瓷砖清洗的劳动强度。 [0013] The tiles may be avoided or significantly reduce the use of detergent household chemical products, would be a great revolutionary art tile lift; can greatly reduce labor intensity of the tile cleaners. 提高生活质量,减少化学品残留及细菌滋生,对人体健康威胁。 Improve the quality of life, reduce chemical residues and bacteria to human health threat. 节约水资源,降低日用化学品使用,减少对水质污染。 Save water, reduce the use of chemicals to use, reduce water pollution. 产品具有远红外功能,可有效活化水质。 Products with far-infrared function, can effectively activate water quality.

附图说明 BRIEF DESCRIPTION

[0014] 图1为本发明结构示意图; [0014] Figure 1 is a schematic structural diagram of the invention;

图中:1,基层;2,抗菌层;3,纳米氧化锌。 In FIG: 1, a base layer; 2, antibacterial layer; 3, nano-zinc oxide.

具体实施方式 detailed description

[0015] 下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述。 [0015] The present invention in conjunction with the following drawings in the embodiments, the technical solutions in the embodiments of the present invention will be clearly and completely described. 显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。 Obviously, the described embodiments are merely part of embodiments of the present invention rather than all embodiments. 基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。 Based on the embodiments of the present invention, all other embodiments of ordinary skill in the art without any creative effort shall fall within the scope of the present invention.

[0016] 一种新型瓷砖的生产方法,该生产方法包括如下步骤: [0016] A novel method for producing tiles, the production process comprising the steps of:

1)、将新型瓷砖的各种原料按一定配比加入到球磨罐混合; 1), the various raw materials by a certain ratio of the new tile is added to the ball mill mixing tank;

2)、等新型瓷砖各种原料混合后,加入一定比例的水,使各种原料在球磨罐里充分球磨; 2), like the new tile from a mix, adding a certain proportion of water, sufficient to make a variety of raw materials in the ball milling jar;

3)、球磨后,向球磨罐内添加具有催化功能的纳米氧化锌,继续球磨; 3) After milling, nano-zinc oxide having a catalytic function is added to the tank milling, ball milling continued;

4)、当球磨后的纳米抗菌釉浓度为350g/200cc、细度为200目时,将混合的原料覆盖在瓷砖生胚表面,并在砖表面印上金属的无机化合物; 4), when the nano-milled enamel antimicrobial concentration 350g / 200cc, fineness of 200 mesh, the mixed material covering the surface of the tiles in the green embryos, and printed on the inorganic compound of a metal surface of the tile;

5)、瓷砖生胚形成后,将瓷砖以1120度至1230度的温度煅烧成具有抗菌负离子远红外线瓷砖。 5), formed after the green tiles, the tiles at a temperature of 1120 degrees to 1230 degrees calcined to have antibacterial anion far infrared ceramic tile.

[0017] 所述新型瓷砖的各种原料为:工业氧化锌、工业碳酸钡、钾长石、硅酸锆、氧化铝粉、白滑石、高岭土和纳米氧化锌。 The [0017] new tile as raw materials: zinc oxide industrial, industrial barium carbonate, potassium feldspar, zirconium silicate, alumina powder, white talc, kaolin, and nano zinc oxide.

[0018] 所述新型瓷砖的各种原料成为比为:工业氧化锌:3-8 ;工业碳酸钡:15-30 ;钾长石:30-50 ;硅酸锆:20-40 ;氧化铝粉:3-10 ;白滑石:5_15 ;高岭土:5_15 ;纳米氧化锌:2-10o [0018] The novel tile various materials ratio becomes: Industrial ZnO: 3-8; Industrial barium: 15-30; feldspar: 30-50; zirconium silicate: 20-40; alumina powder : 3-10; white talc: 5_15; kaolin: 5_15; nano-zinc oxide: 2-10o

[0019] 所述一定比例的水为同比例的所述新型瓷砖的各种原料的0.6-1.5倍。 The [0019] a proportion of 0.6 to 1.5 times of water of the various raw materials with the ratio of the new tiles.

[0020] 所述纳米氧化锌的直径为20到25纳米。 [0020] The nano zinc oxide is 20 to 25 nanometers in diameter.

[0021] 所述金属的无机化合物为矾、铬、锰、铁、钴、镍或铜一种或几种。 [0021] The inorganic metal compound is vanadium, chromium, manganese, iron, cobalt, nickel or copper, one or several.

[0022] 实施例一 [0022] Example a

釉面砖功能砖釉料配方:工业氧化锌:3-8 ;工业碳酸钡:15-30 ;钾长石:30-50 ;硅酸锆:20-40 ;氧化铝粉:3-10 ;白滑石:5-15 ;高岭土:5_15 ;纳米氧化锌:2_10。 Function glazed tile glaze recipes: Industrial zinc oxide: 3-8; Industrial barium: 15-30; feldspar: 30-50; zirconium silicate: 20-40; alumina powder: 3-10; White Talc : 5-15; kaolin: 5_15; nano-zinc oxide: 2_10. 一起加入球磨罐混合后,再加入相当于0.6-1.5倍同比例的水充分球磨。 After the ball mill pot was added with mixing, then add the equivalent of 0.6 to 1.5 times the ratio of water with a ball mill sufficiently.

[0023] 过3小时后再添加产品平均粒径:24nm纳米氧化锌(纳米氧化锌与二氧化钛又同为半导体材料,具有催化功能;不同的是二氧化钛对紫外光依赖。)等进球磨至釉料研磨溶度为350g/200cc左右,细度为200目的纳米抗菌釉。 [0023] Product was added after 3 hours had an average particle diameter: 24nm nano zinc oxide (. Nano zinc oxide and titanium dioxide with a semiconductor material having a catalytic function; except that the titanium dioxide to ultraviolet light dependent) to the ground like goal glaze polishing a solubility of about 350g / 200cc, fineness of 200 mesh antibacterial nano enamel. (添加公式:纳米氧化锌*釉料比重*百分比/氧化锌固含量)。 (Add formulas: nano zinc oxide glaze * gravity * Percentage / zinc oxide solid content).

[0024] 据以所完成的釉料在实际试用时,即可披覆在瓷砖生胚或素胚的表面,并在砖表面上的釉料印上金属的无机化合物如钒、铬、锰、铁、钴、镍、和铜都是常用颜料等。 [0024] According to glaze completed when the actual trial, the tiles can be coated on the surface of the green pigment or embryos, and on the upper surface of the tile glaze printing inorganic metal compounds such as vanadium, chromium, manganese, iron, cobalt, nickel, copper and the like are commonly used pigment. 整片瓷砖以1120度-1230度的温度烧结成具有抗菌负离子远红外线瓷砖。 Tile whole sheet at a temperature of 1120 ° -1230 ° antibacterial anion sintered far infrared ceramic tile. 纳米抗菌釉的特性常效保持该陶瓷制品表面的光洁,美观,并产生防止细菌,病毒附着滋生的抗菌作用,以及经由瓷砖表面的远红外线照射功能,常效活化所通过物质的份子特性,而得以提升该物质的功能,达到保健作用。 Antibacterial nano glaze characteristics often effective holding of the ceramic article surface is smooth and beautiful, and generates prevent elements characteristic of bacterial, viral attachment breeding antibacterial effect, and far-infrared radiation function through the tile surface, often effective activation by the substance, and to enhance the function of the substance of health care product.

[0025] 实施例二 [0025] Second Embodiment

将纳米氧化锌按6%的固含量添加到砖胚的胚体里,并根据砖的温度来调节砖的配方比例。 The solids content of 6% by nano zinc oxide is added to the embryos in embryo bricks, tiles and the proportion of the formulation is adjusted according to the temperature of the brick.

[0026] 烧制成陶瓷胚体里的原料配方:长石:30-50 ;瓷石:20-40 ;石英:3_10 ;粘土:20-30 ;滑石:1-5 ; [0026] The fired into a ceramic body in the raw material formulation: feldspar: 30-50; chinastone: 20-40; Shi Ying: 3_10; clay: 20-30; Talc: 1-5;

①高岭石类:例如球土、沉淀型高岭土等;②伊利石类:例如瓷石、瓷砂及其风化产物;③蒙脱石类:例如膨润土;④叶蜡石类:有些资料把叶蜡石归入硬质粘土类,特别是絹云母型、地开石型、高岭石型叶蜡石磨细后一定的可塑性。 ① kaolinite group: for example, ball clay, kaolin and other precipitation; ② illite group: for example, porcelain stone, sand and porcelain weathering products; ③ montmorillonite: such as bentonite; ④ pyrophyllite categories: some of the information the leaf wax classified stone hard clay, sericite particular type, dickite type, after a certain plasticity ground pyrophyllite type kaolinite.

[0027] 常用的熔剂和矿化剂有:①钾钠系统:钾长石、钠长石、钾钠长石、瓷石、瓷砂等;②钙镁系统:透辉石、透闪石、镁质粘土(或称滑石粘土)、滑石等;③复合系统:纳米氧化锌材料等。 [0027] Frequently flux and mineralization agents are: ① System potassium sodium: potassium feldspar, sodium feldspar, potassium sodium feldspar, porcelain stone, porcelain sand; ② calcium and magnesium system: diopside, tremolite, attaclay (or talc clay), talc and the like; ③ composite system: nano zinc oxide material.

[0028] 制造工艺程序分析: [0028] The fabrication sequence analysis:

1、原料:化学成分、烧后白度、供应是否充足、矿藏是否稳定、运输是否方便、均化、破碎、除铁。 1. Starting materials: the chemical composition, whiteness after firing, the adequacy of the supply, is stable deposits, are convenient transportation, homogenizing, crushing, in addition to iron.

[0029] 2、配料:原料水分、配料准确性。 [0029] 2. Ingredients: raw water, the accuracy of dosing.

[0030] 3、球磨:浆料细度、水分、粘度。 [0030] 3, ball: the fineness of the slurry, the water viscosity.

[0031] 4、过筛除铁:有机物、过粗物、游离铁质。 [0031] 4, sieved iron: organics were too thick, free iron.

[0032] 5、喷雾干燥:粉料水份、粉料级配、粉料结构。 [0032] 5, spray-drying: moisture powder, powder size distribution, the powder structure.

[0033] 6、贮料:水分均化、有机物发酵,保证压制砖坯的质量。 [0033] 6, hopper: water homogenization, fermentation of organic matter, to ensure the quality of the pressed tile.

[0034] 7、压制:压机压力、模具结构、冲压次数、布料均匀程度。 [0034] 7, pressing: pressure of the press, the mold structure, the number of stamping, the uniformity of the fabric.

[0035] 8、干燥:排除水分、防止炸裂、保证干燥坯体的强度。 [0035] 8. Drying: exclusion of moisture, to prevent the burst, to ensure the strength of dried green body.

[0036] 9、印花:固定图案、设计渗花釉的配方。 [0036] 9, printing: fixed pattern, design infiltration glaze formulation.

[0037] 10、淋助渗剂:确保渗透深度。 [0037] 10, penetration aids leaching: ensure penetration depth.

[0038] 11、烧成:通过一系列物理和化学反应,使砖坯在高温下形成液相,最后形成玻璃相、晶相、气相,合理的配方和合理的烧成制度是保证形成致密坚硬的瓷质砖的基础。 [0038] 11, firing: a series of physical and chemical reactions, so that the brick form a liquid phase at a high temperature, and finally form a glass phase, a crystalline phase, gas phase, sensible and rational formula firing system is to ensure formation of a dense hard porcelain tile foundation.

[0039] 从而达到可不吸水且耐高温耐腐蚀。 [0039] The water-absorbing and may not achieve high temperature corrosion resistance. 再经过抛光机抛光打磨掉表面,一片永远功能不消弱的抗菌远红外抛光瓷砖。 Then after polishing machine polishing off the surface, a feature not always weaken antibacterial far-infrared polished tiles. 可以产生防止细菌,病毒附着滋生的抗菌作用,以及经由瓷砖表面的远红外线照射功能,常效活化所通过物质的份子特性,而得以提升该物质的功能,达到保健作用。 It may be generated to prevent bacteria, viral attachment breeding antibacterial effect, and far-infrared radiation function through the tile surface, often effective elements activated by the properties of the material, and to improve the function of the substance, health care product.

[0040] 将纳米氧化锌按30%的固含量分散成液体再和固态蜡水(主要成份是二氧化硅及硅油)混合均化15分钟左右成抗菌蜡水。 [0040] The nano zinc oxide by a solid content of 30% and then dispersed into a liquid and solid wax (main ingredient is a silicone oil and silica) were mixed homogenized for about 15 minutes to antibacterial wax. 再加入超洁亮机器中可按常规操作打入抛光砖表面,填充抛光砖表面的毛孔,亦可起到防污抗菌,并产生防止细菌,病毒附着滋生的作用。 Pure Bright added according to conventional operating machine into the polished surface, polished surface of the pores is filled, can also play an antifouling antibacterial and generates prevent bacteria, viral attachment breeding effect.

[0041] 如图1所示,一种多功能釉面瓷砖,由基层I和抗菌层2组成,抗菌层2中含有触媒纳米氧化锌3。 [0041] 1, a multifunctional glazed tiles, a base layer I and layer 2 consisting of an antimicrobial, antibacterial nano-zinc oxide catalyst layer 2 contained 3. 所述纳米氧化锌3平均粒径为24nm。 The average particle diameter of nano zinc oxide 3 24nm.

[0042] 该瓷砖经过产品质量监督检验所验证,瓷砖法向全发射率0.87 ;该瓷砖抗菌性能(大肠杆菌、金黄色葡萄球菌)符合JC/T897-2002《抗菌陶瓷抗菌性能》的标准要求。 [0042] The tiles are product quality supervision, inspection and verification, full tile normal emissivity of 0.87; the tile antibacterial properties (Escherichia coli, Staphylococcus aureus) in line with JC / T897-2002 standards "antibacterial ceramic antibacterial properties," the.

[0043] 对于本领域技术人员而言,显然本发明不限于上述示范性实施例的细节,而且在不背离本发明的精神或基本特征的情况下,能够以其它的具体形式实现本发明。 In the case [0043] to those skilled in the art, that the invention is not limited to the details of the above-described exemplary embodiment, but without departing from the spirit or essential characteristics of the present invention, the present invention can be realized in other specific forms. 因此,无论从哪一点来看,均应将实施例看作是示范性的,而且是非限制性的,本发明的范围由所附权利要求而不是上述说明限定,因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。 Therefore, no matter from what point of view, the embodiments should be considered exemplary, and not limiting, the scope of the invention being indicated by the appended claims rather than by the foregoing description, the appended claims are therefore intended to All changes which come within the meaning and range of equivalents thereof are within the present invention include. 不应将权利要求中的任何附图标记视为限制所涉及的权利要求。 In the claims should not be considered as any reference numerals as claimed in claim limitations involved.

[0044] 以上所述,仅为本发明的较佳实施例,并不用以限制本发明,凡是依据本发明的技术实质对以上实施例所作的任何细微修改、等同替换和改进,均应包含在本发明技术方案的保护范围之内。 [0044] The above are only preferred embodiments of the present invention is not intended to limit the present invention, all the techniques of this invention according to the spirit of any slight modification made to the above embodiments, equivalent alterations and modifications can be made in within the scope of the technical solution of the present invention.

Claims (6)

1.一种新型瓷砖的生产方法,其特征在于:该生产方法包括如下步骤: 1)、将新型瓷砖的各种原料按一定配比加入到球磨罐混合; 2)、等新型瓷砖各种原料混合后,加入一定比例的水,使各种原料在球磨罐里充分球磨; 3)、球磨后,向球磨罐内添加具有催化功能的纳米氧化锌,继续球磨; 4)、当球磨后的纳米抗菌釉浓度为350g/200cc、细度为200目时,将混合的原料覆盖在瓷砖生胚表面,并在砖表面印上金属的无机化合物; 5)、瓷砖生胚形成后,将瓷砖以1120度至1230度的温度煅烧成具有抗菌负离子远红外线瓷砖。 1. A novel method for producing ceramic tiles, characterized in that: the production process comprises the following steps: 1) the raw materials by a certain ratio of the new tile is added to the ball mill mixing tank; 2), and other raw materials new tiles after mixing, adding a certain proportion of water, sufficient to make a variety of raw materials in the ball milling jar; 3), milled, nano-zinc oxide having a catalytic function is added to the tank milling, ball milling continued; 4), when the nano-milling antibacterial glazed concentration of 350g / 200cc, fineness of 200 mesh, the mixed material covering the embryo surface tile green, and printed on an inorganic compound of a metal in the surface of the tile; after 5), tile the green form, the tiles to 1120 to a temperature of 1230 degrees calcined to have antibacterial anion far infrared ceramic tile.
2.根据权利要求1所述的一种新型瓷砖的生产方法,其特征在于,所述新型瓷砖的各种原料为:工业氧化锌、工业碳酸钡、钾长石、硅酸锆、氧化铝粉、白滑石、高岭土。 The novel method of producing a tile according to claim 1, wherein said new tiles various materials: zinc oxide industry, industrial barium carbonate, potassium feldspar, zirconium silicate, alumina powder , white talc, kaolin.
3.根据权利要求2所述的一种新型瓷砖的生产方法,其特征在于,所述新型瓷砖的各种原料成为比为:工业氧化锌:3-8 ;工业碳酸钡:15-30 ;钾长石:30-50 ;硅酸锆:20-40 ;氧化铝粉:3-10 ;白滑石:5-15 ;高岭土:5-15 ;纳米氧化锌:2_10。 3. A novel method for producing said tiles according to claim 2, characterized in that the various raw materials has become a new tile ratio: Industrial zinc oxide: 3-8; Industrial barium: 15-30; Potassium feldspar: 30-50; zirconium silicate: 20-40; alumina powder: 3-10; white talc: 5-15; kaolin: 5-15; nano zinc oxide: 2_10.
4.根据权利要求1或3所述的一种新型瓷砖的生产方法,其特征在于:所述一定比例的水为同比例的所述新型瓷砖的各种原料的0.6-1.5倍。 The method of producing a novel or tiles according to claim 13, characterized in that: the water as a proportion of the various raw materials with the ratio of 0.6 to 1.5 times of the new tiles.
5.根据权利要求4所述的一种新型瓷砖的生产方法,其特征在于:所述纳米氧化锌的直径为20到25纳米。 5. A method of producing a new tile as claimed in claim 4, wherein: said nano zinc oxide is 20 to 25 nanometers in diameter.
6.根据权利要求1或5所述的一种新型瓷砖的生产方法,其特征在于:所述金属的无机化合物为矾、铬、锰、铁、钴、镍或铜一种或几种。 The novel method of producing a ceramic tile 1 or claim 5, wherein: the inorganic compound of the metal is vanadium, chromium, manganese, iron, cobalt, nickel or copper, one or several.
CN 201510184891 2015-04-20 2015-04-20 Production method of novel ceramic tile CN104876586A (en)

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Publication number Priority date Publication date Assignee Title
CN105344021A (en) * 2015-11-07 2016-02-24 德化均能手造陶瓷有限公司 Optical wafer for activating blood and dredging collaterals

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CN101008286A (en) * 2006-01-25 2007-08-01 魏英洲 Flooring Board with health care function
CN101157542A (en) * 2007-09-27 2008-04-09 乾 何 Production technique for ceramic title having semitransparent reflecting decorative surface
CN103664193A (en) * 2013-12-16 2014-03-26 酉阳县四达机械厂 Ceramic tile production process

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101008286A (en) * 2006-01-25 2007-08-01 魏英洲 Flooring Board with health care function
CN101157542A (en) * 2007-09-27 2008-04-09 乾 何 Production technique for ceramic title having semitransparent reflecting decorative surface
CN103664193A (en) * 2013-12-16 2014-03-26 酉阳县四达机械厂 Ceramic tile production process

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105344021A (en) * 2015-11-07 2016-02-24 德化均能手造陶瓷有限公司 Optical wafer for activating blood and dredging collaterals

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