摘要：【中文】本发明涉及中药领域，具体涉及是一种治疗颈椎病的中药组方及基于中药组方的药枕，通过药枕法将一定的药物装入布袋内作枕头以治疗颈椎疾病借助人头枕部、颈项部与药枕较长时间的接触,使药物缓缓地刺激头部的一定穴位,并通过经络,对人体之气血阴阳、脏腑的生理功能产生一定影响,起到祛风除湿、温经散寒、活血化瘀、养血健脑、安神定志等作用,从而达到防病治病的效果，解决了无法对颈椎病进行良好的预防及保健的问题。 【EN】The invention relates to the field of traditional Chinese medicines, in particular to a traditional Chinese medicine composition for treating cervical spondylosis and a medicine pillow based on the traditional Chinese medicine composition.

摘要：【中文】本发明专利涉及一种中档镁砂电熔镁砂复配制备高热震镁砂原料的技术，其制备过程包括破碎、细磨、混合、压球、干燥、煅烧。首先将MgO含量³95%的中档镁砂粉细磨至200目以下，将MgO含量³97%的电熔镁砂破碎至粒度为0.5‑1mm；将磨好的物料置入混合机中，加入浓度为0.75‑1.25 mol/L的Mg(OH)₂溶胶混合10min；混合后的物料压球，镁砂球直径为40‑80mm；将镁砂球烘干至水分小于1%；将烘干后的镁砂球，置于窑炉中煅烧，即得一种中档镁砂电熔镁砂复配高热震镁砂原料。 【EN】The invention relates to a technology for preparing a high thermal shock magnesite raw material by compounding medium-grade magnesite and fused magnesite, which comprises the steps of crushing, fine grinding, mixing, ball pressing, drying and calcining. First, finely grinding medium magnesite powder with the MgO content of 95% to below 200 meshes, and crushing electric smelting magnesite with the MgO content of 97% to the granularity of 0.5-1 mm; placing the ground material into a mixer, adding Mg (OH) with a concentration of 0.75-1.25 mol/L₂Mixing the sol for 10 min; pressing the mixed materials into balls, wherein the diameter of the magnesia balls is 40-80 mm; drying the magnesia balls until the moisture content is less than 1%; and placing the dried magnesite balls in a kiln for calcining to obtain the medium-grade magnesite fused magnesite compounded high-thermal shock magnesite raw material.

摘要：【中文】本发明专利涉及一种中档镁砂的杂质改性方法，其制备过程包括细磨、混合、压球、干燥和氮化煅烧工序，1）将轻烧氧化镁粉细磨至200目以下，将细磨好的物料置入搅拌机中，分次加入Zr(OH)₂溶胶进行混合；2）混合好的物料放入压球机中压球；3）将成型后的镁砂球置于干燥器中烘干；4）将干燥后的镁砂球，置入1400℃以上的氮气气氛炉中高温煅烧，即得到一种杂质改性中档镁砂。使用本发明所制备的杂质改性中档镁砂原料具有工艺流程简单、成本低、易于推广实施和节能环保的优点。 【EN】The invention relates to an impurity modification method of medium-grade magnesite, which comprises the steps of fine grinding, mixing, ball pressing, drying and nitriding calcination, 1) fine grinding light-burned magnesia powder to below 200 meshes, placing the fine ground material into a stirrer, and adding Zr (OH) in portions₂Mixing the sol; 2) putting the mixed material into a ball press machine to press balls; 3) placing the formed magnesia balls in a dryer for drying; 4) and (3) placing the dried magnesite balls into a nitrogen atmosphere furnace with the temperature of more than 1400 ℃ for high-temperature calcination to obtain impurity modified medium-grade magnesite. The impurity modified medium-grade magnesia raw material prepared by the invention has the advantages of simple process flow, low cost, easy popularization and implementation, energy conservation and environmental protection.

摘要：【中文】本发明专利涉及一种高致密中档烧结镁砂的制备方法，其制备过程包括细磨、混合、压球、一次煅烧、溶胶浸渍、干燥、二次煅烧，首先将轻烧氧化镁粉细磨至200目以下；将细磨好的物料置入搅拌机中，加入Mg(OH)₂溶胶混合10min；混合好的物料放入压球机中压球；将成型后的镁砂球，置于1000~1300℃竖窑中煅烧1~2h；将煅烧后的镁砂球，置于Mg(OH)₂溶胶中真空浸渍，随后至于110℃干燥箱中干燥12h，重复7~10次；将浸渍后的镁砂球置于干燥器中烘干；将干燥后的镁砂球，置入1500℃以上窑炉中煅烧，即得到一种高致密烧结镁砂。本发明所制备的高致密中档烧结镁砂具有工艺流程简单、产品致密度高等优点。 【EN】The invention relates to a preparation method of high-density middle-grade sintered magnesia, which comprises the steps of fine grinding, mixing, ball pressing, primary calcining, sol dipping, drying and secondary calcining, wherein firstly, light-burned magnesia powder is finely ground to be below 200 meshes; placing the finely ground material into a blender, adding Mg (OH)₂Mixing the sol for 10 min; putting the mixed material into a ball press machine to press balls; placing the formed magnesia balls in a shaft kiln at 1000-1300 ℃ to calcine for 1-2 h; placing the calcined magnesite balls in Mg (OH)₂Dipping the sol in vacuum, then drying the sol in a drying oven at 110 ℃ for 12 hours, and repeating the steps for 7-10 times; placing the soaked magnesia balls in a dryer for drying; putting the dried magnesia balls into a kiln with the temperature of more than 1500 DEG CCalcining in a furnace to obtain the high-density sintered magnesia. The high-density medium-grade sintered magnesia prepared by the invention has the advantages of simple process flow, high product density and the like.

摘要：【中文】本发明涉及一种水泥回转窑预热带用烧结镁橄榄石质窑衬砖，以8‑5mm烧结镁橄榄石砂、5‑3mm烧结镁橄榄石砂、3‑1mm烧结镁橄榄石砂、1‑0mm烧结镁橄榄石砂、200目烧结镁橄榄石细粉和烧结镁砂细粉为原料，外加纸浆废液为结合剂，经混碾、成型、干燥、烧成制成。本方法以来源广泛、价格低廉、生产方式简单的烧结镁橄榄石砂为主要原料，具有强度大和热震稳定性优良的特点；同时，所制备回转窑预热带窑衬砖具有良好的耐磨性，起到保护窑衬作用，实现与回转窑烧成带同寿命的效果。 【EN】The invention relates to a sintered forsterite kiln lining brick for a preheating zone of a rotary cement kiln, which is prepared by mixing, grinding, forming, drying and firing 8-5mm of sintered forsterite sand, 5-3mm of sintered forsterite sand, 3-1mm of sintered forsterite sand, 1-0mm of sintered forsterite sand, 200-mesh sintered forsterite fine powder and sintered forsterite fine powder which serve as raw materials and pulp waste liquid which serves as a binding agent. The method takes the sintered forsterite sand with wide sources, low price and simple production mode as the main raw material, and has the characteristics of high strength and excellent thermal shock stability; meanwhile, the prepared kiln lining brick of the preheating zone of the rotary kiln has good wear resistance, plays a role in protecting the kiln lining and realizes the effect of having the same service life as the firing zone of the rotary kiln.

摘要：【中文】本发明涉及一种水泥回转窑烧成带用电熔镁橄榄石质耐火砖，属于窑衬耐高温材料领域，粒径5‑3mm电熔镁橄榄石砂、粒径3‑1mm电熔镁橄榄石砂、粒径1‑0mm电熔镁橄榄石砂、粒径200目电熔镁橄榄石砂和烧结镁砂以及外加纸浆废液结合剂，经预混、混合、成型、干燥和烧成制备而成。本发明方法是利用电熔菱镁矿尾矿方式制备，有效缓解菱镁矿尾矿对土地资源占用，利于菱镁矿资源循环再利用；本方法制备的电熔镁橄榄石质耐火砖具高强度、高致密度、良好的耐高温性能的特点，易粘结一层具有一定厚度的窑皮而延长窑衬使用寿命。 【EN】The invention relates to an electrically fused forsterite refractory brick for a cement rotary kiln burning zone, which belongs to the field of kiln lining high-temperature resistant materials and is prepared by premixing, mixing, molding, drying and firing fused forsterite sand with the particle size of 5-3mm, fused forsterite sand with the particle size of 3-1mm, fused forsterite sand with the particle size of 1-0mm, fused forsterite sand with the particle size of 200 meshes, sintered magnesia and an additional paper pulp waste liquid binding agent. The method is prepared by utilizing the electro-fused magnesite tailings, so that the occupation of magnesite tailings on land resources is effectively relieved, and the cyclic reutilization of the magnesite resources is facilitated; the electric melting forsterite refractory brick prepared by the method has the characteristics of high strength, high density and good high temperature resistance, and a layer of kiln coating with a certain thickness is easy to bond so as to prolong the service life of a kiln lining.

摘要：【中文】本发明涉及一种利用菱镁矿尾矿电熔制备电熔镁橄榄石的方法。通过混合、造球、熔融三步工序得到致密的电熔镁橄榄石。本发明方法一方面充分利用了废弃的菱镁矿尾矿资源，利用菱镁矿尾矿中大量的MgO和SiO₂成分制备电熔镁橄榄石，有效减少土地资源的占用，达到节约菱镁矿资源的目的。另一方面，采用电熔方式制备电熔镁橄榄石，生产电熔镁砂致密度高，纯度高，强度大，可作为优良的耐火材料原料被广泛应用。 【EN】The invention relates to a method for preparing electrically fused forsterite by utilizing magnesite tailings through electric melting. The compact fused forsterite is obtained through three procedures of mixing, pelletizing and melting. On one hand, the method fully utilizes the waste magnesite tailing resources and utilizes a large amount of MgO and SiO in the magnesite tailings₂The fused forsterite is prepared from the components, so that the occupation of land resources is effectively reduced, and the aim of saving magnesite resources is fulfilled. On the other hand, the fused forsterite prepared by adopting the electric melting mode has high density, high purity and high strength, and can be widely applied as an excellent refractory material raw material.

摘要：【中文】本发明涉及手术定位技术领域，特别是涉及一种穿刺针定位系统及方法。所述系统包括：超声单元，包括用于提供病灶处的超声切面的第一探头，所述第一探头上设有用于提供第一探头的坐标信息的多个第一定位装置；穿刺针单元，包括穿刺针，所述穿刺针上设有用于提供穿刺针的坐标信息的多个第二定位装置；处理及显示单元，分别与超声单元、各所述第一定位装置及各所述第二定位装置通信连接。本发明提供的穿刺针定位系统可大大提高经胸壁穿刺的精准度，不仅能有效避免反复穿刺带来的并发症，也大大缩短了手术时穿刺的时间。 【EN】The invention relates to the technical field of surgical positioning, in particular to a puncture needle positioning system and a puncture needle positioning method. The system comprises: the ultrasonic unit comprises a first probe for providing an ultrasonic section at a focus, and the first probe is provided with a plurality of first positioning devices for providing coordinate information of the first probe; the puncture needle unit comprises a puncture needle, and a plurality of second positioning devices used for providing coordinate information of the puncture needle are arranged on the puncture needle; and the processing and display unit is respectively in communication connection with the ultrasonic unit, each first positioning device and each second positioning device. The puncture needle positioning system provided by the invention can greatly improve the precision of puncture through the chest wall, not only can effectively avoid complications caused by repeated puncture, but also greatly shortens the puncture time in the operation.

摘要：【中文】本发明专利涉及一种利用无机结合剂的菱镁矿粉矿造球方法，包括以下步骤：首先称取一定量的菱镁矿粉矿，向称取的菱镁矿粉矿中加入无机镁基结合剂，再经过搅拌混合将物料充分混匀，向充分混匀物料中加水并进行机械搅拌、焖料，启动圆盘造球机，先向圆盘造球机中加入所述焖后物料作为母球料，向母球料加水（喷滴）造母球，当母球形成后，视母球长大情况，向母球打水或者加料促使母球长大，当球团长到合适粒度时，停止打水和加料，球团在球盘内滚压10‑20min，即制得菱镁矿粉矿生球。 【EN】The invention relates to a magnesite powder ore pelletizing method using an inorganic binder, which comprises the following steps: firstly weighing a certain amount of magnesite powder, adding an inorganic magnesium-based binder into the weighed magnesite powder, stirring and mixing the materials to fully mix, adding water into the fully mixed materials, mechanically stirring and stewing the materials, starting a disc pelletizer, firstly adding the stewed materials into the disc pelletizer to serve as a mother ball material, adding water (spraying drops) into the mother ball material to manufacture a mother ball, watering or feeding the mother ball to promote the growth of the mother ball according to the growth condition of the mother ball after the mother ball is formed, stopping watering and feeding when the ball grows to a proper granularity, and rolling the ball in a ball disc for 10-20min to obtain the magnesite powder green ball.

摘要：【中文】本发明涉及一种应用二氧化碳碳化法制备菱镁矿粉矿生球的方法，包括以下步骤：称取一定量的菱镁矿粉矿，向称取的菱镁矿粉矿中加入MgO粉，再经过搅拌混合将物料充分混匀，向充分混匀物料中加水并进行机械搅拌、焖料，启动圆盘造球机并且向圆盘造球机中加入焖后物料作为母球料，向母球料加水造母球，当母球形成后，视母球长大情况，向母球打水或者加料促使母球长大，当球团长到合适粒度时，停止打水和加料，球团在球盘内滚压一段时间。将生球放入竖窑中，利用通气装置通入CO₂。本发明技术具有球团粘结力大、生料球团焙烧强度高、焙烧过程环保的优点。 【EN】The invention relates to a method for preparing magnesite powder ore green pellets by using a carbon dioxide carbonization method, which comprises the following steps: weighing a certain amount of magnesite powder, adding MgO powder into the weighed magnesite powder, fully mixing the materials by stirring and mixing, adding water into the fully mixed materials, mechanically stirring and stewing the materials, starting a disk pelletizer, adding the stewed materials into the disk pelletizer to serve as a mother ball material, adding water into the mother ball material to manufacture a mother ball, watering or feeding the mother ball to promote the growth of the mother ball according to the growth condition of the mother ball after the mother ball is formed, stopping watering and feeding when the ball grows to a proper granularity, and rolling the ball in a ball tray for a period of time. Putting the green pellets into a shaft kiln, and introducing CO by using a ventilation device₂. The technology of the invention has the advantages of large pellet binding power, high green pellet roasting strength and environment-friendly roasting process.