CN220590213U - Ceramic mill integrating grinding, curing and sterilizing - Google Patents

Abstract

The utility model belongs to the field of food processing and discloses a grinding, curing and sterilizing integrated ceramic mill, which comprises a fixed mill and a movable mill, wherein the fixed mill and the movable mill are made of silicon carbide, a fixed mill annular groove is formed in the fixed mill, a fixed mill heating tungsten wire is arranged in the fixed mill annular groove, a fixed mill heating tungsten wire connector is arranged on the fixed mill, the fixed mill heating tungsten wire connector is connected with a fixed mill heating tungsten wire, a fixed mill groove is formed in the surface of the fixed mill, the stir-frying of materials and the grinding of the materials can be combined through the device, the process flow of the grinding of the foods is reduced, the cost and the working procedure of pre-frying are reduced, the device can eliminate the waste of food materials, electric power and manpower and the oxidation of the food in the process of pre-frying, and realize the purposes of high-temperature enzyme deactivation and material antibacterial and bacteriostasis in the stir-frying process, so that the device can synchronously finish four processes of grinding, curing, sterilizing and enzyme deactivation at one time.

Description

Ceramic mill integrating grinding, curing and sterilizing

Technical Field

The utility model belongs to the field of food processing, and particularly relates to a grinding, curing and sterilizing integrated ceramic mill.

Background

At present, in the processing of sesame paste cereal powder products, the processing process is usually to fry firstly, grind materials after the fry is finished, sterilize the materials, have complicated process and are easy to break, grind after fry, and easily generate much waste in the process, and in the food grinding process, a grinding head, stone mortar or a grinding machine is usually used for grinding the food.

Conventional stone mills are being eliminated in modern industrialization due to their large weight, slow rotational speed and the ease of slag removal during the grinding process.

At present, the mill of food milling machine commonly used is mostly cast steel, carbide and stainless steel, and metal mill very easily produces chemical reaction with phytic acid in the middle of the cereal, abscisic acid, leads to metal corrosion, in addition, after long-time use, the iron mill produces wearing and tearing easily for can carry trace metal particle in the cereal powder that grinds out in the use, be unfavorable for cereal powder's quality, in addition, high-speed pivoted iron mill can lead to pivoted in-process production iron fillings to fall into cereal powder, simultaneously breeds the germ in mill slot easily in long-term use.

In order to improve the hardness of the grinding disc and reduce slag drop in the grinding process, researchers refer to the cash technology of a ceramic cutter of a precision machine tool to develop and design a silicon carbide engineering ceramic grinding disc, however, common silicon carbide engineering ceramics have a plurality of microcracks on the surface, are easy to crack during high-speed rotation impact, and can cause serious safety accidents after cracked residues are mixed in flour and eaten by people due to high hardness and sharpness.

Moreover, as the hardness of the silicon carbide engineering ceramic is high and is inferior to that of diamond, the sintered millstone also has the problems of difficult carving and high cost in the carving process, although a biscuit is produced by using an isostatic pressing mode at present and is sintered after carving, in the subsequent sintering process, the biscuit is easily cracked due to different stress of various parts outside, a large number of microcracks are generated, and the biscuit is crushed due to the stress problem in the using process.

In addition, in japan, a sintering process using a grinding wheel has been studied, in which a sintering process is performed by mixing a particulate material of silicon carbide with a ceramic binder, but the grinding wheel sintered in this manner has insufficient density and toughness to support its use as a grinding wheel material, is liable to cause breakage during rotation, and has a heat conduction efficiency of between 15-18w·m-1·k-1, which is close to that of stainless steel.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a grinding, curing and sterilizing integrated ceramic mill, so as to solve the problems that scraps are generated by grinding disc abrasion, germs are easy to breed in grinding disc grooves and enzymatic oxidation reaction is generated in the grinding process.

The technical scheme adopted for solving the technical problems of the ceramic mill integrating the functions of grinding, curing and sterilizing is as follows:

the grinding, curing and sterilizing integrated ceramic mill comprises a fixed mill and a movable mill, wherein the fixed mill and the movable mill are made of silicon carbide, a fixed mill annular groove is formed in the fixed mill, a fixed mill heating tungsten wire is arranged in the fixed mill annular groove, a fixed mill heating tungsten wire connector is arranged on the fixed mill, the fixed mill heating tungsten wire connector is connected with the fixed mill heating tungsten wire, a fixed mill groove is formed in the surface of the fixed mill, the surface of the fixed mill is divided into a plurality of fixed mill teeth through the fixed mill groove, the fixed mill groove is in an inverted conical shape on the fixed mill, and a fixed mill opening is formed in the middle of the fixed mill;

the movable millstone is positioned on one side of the fixed millstone, a movable millstone annular groove is formed in the movable millstone, movable millstone heating tungsten wires are arranged in the movable millstone annular groove, movable millstone heating tungsten wire joints are arranged on the movable millstone, the movable millstone heating tungsten wire joints are connected with the movable millstone heating tungsten wires, movable millstone grooves are formed in the movable millstone, the surface of the movable millstone is divided into a plurality of movable millstone teeth through the movable millstone grooves, the movable millstone grooves are in an inverted conical shape on the surface of the movable millstone, and mounting holes are formed in the movable millstone.

Furthermore, the fixed grinding disc teeth and the movable grinding disc teeth are rectangular racks.

Furthermore, trapezoid chamfer angles are formed on the fixed millstone teeth and the movable millstone teeth.

Furthermore, the periphery of the fixed grinding disc is fixedly provided with a fixed grinding disc mounting plate.

Further, the periphery of the movable millstone is fixedly provided with a movable millstone mounting plate.

Further, through holes are respectively formed in the fixed grinding disc mounting plate and the movable grinding disc mounting plate, and temperature sensors are respectively and fixedly arranged in the through holes.

Further, grooves are formed in the fixed grinding disc and the movable grinding disc, corresponding to the through holes, respectively, and the inner walls of the grooves can be in contact fit with contacts of the temperature sensor.

Further, insulating powder is respectively arranged in the annular grooves of the fixed grinding disc and the annular grooves of the movable grinding disc, and the insulating powder is made of silicon nitride powder or aluminum nitride powder.

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

1. according to the grinding, curing and sterilizing integrated ceramic mill, in the device, the fixed mill is fixed on the outer shell, the movable mill is installed on the rotatable working shaft through the installation hole, the fixed mill groove on the fixed mill is opposite to the movable mill groove on the movable mill, when the device is used, materials can be fed from an opening of the fixed mill in a direct feeding and spiral feeding mode, when the movable mill moves at a high speed, a speed gradient is generated on the material on the rotating surface of the movable mill, so that the materials are crushed, dispersed, ground and thinned through strong shearing, friction, impact and high-frequency oscillation, the particle size and thickness of the powder can be controlled through controlling the gap between the fixed mill and the movable mill, meanwhile, in the process, the fixed mill is heated by the fixed mill heating tungsten wire, the movable mill is heated by the movable mill heating tungsten wire, the materials can be fried in the process of grinding, and the materials can be simultaneously subjected to high-temperature enzyme sterilization treatment under the condition of high temperature, the generation of enzymatic oxidation reaction is reduced, and radiation heat generated by the silicon carbide materials can be heated, so that the radiation heat generated on the rotating surface of the movable mill can be subjected to strong shearing, friction, impact and high-frequency oscillation effects can be reduced, and the raw material can be sterilized by the device in advance, and the sterilizing process can be realized in advance, and the food can be sterilized by the sterilizing and the sterilizing process, and the food can be simultaneously, and the food can be sterilized, and the food can be simultaneously and the food is sterilized.

2. According to the grinding, curing and sterilizing integrated ceramic mill, the grinding effect can be improved during grinding through the fixed mill teeth and the movable mill teeth which are in the shape of the rectangular racks, and sharp grinding granularity with high density and no air holes can be formed.

3. According to the grinding, curing and sterilizing integrated ceramic mill, the trapezoid chamfer is formed, so that fine and smooth pasty microparticles can be formed in the grinding process.

4. According to the grinding, curing and sterilizing integrated ceramic mill, the periphery of the fixed grinding disc can be protected through the fixed grinding disc mounting plate.

5. According to the grinding, curing and sterilizing integrated ceramic mill, the movable millstone can be protected through the movable millstone mounting plate.

6. According to the grinding, curing and sterilizing integrated ceramic mill, the temperature of the fixed mill and the movable mill can be detected through the temperature sensor, and the temperature of the fixed mill and the movable mill can be conveniently adjusted.

7. According to the grinding, curing and sterilizing integrated ceramic mill, the contact area of the temperature sensor contact can be increased through the contact cooperation between the inner wall of the groove and the temperature sensor contact, so that the temperature sensor can detect the temperature more accurately.

8. According to the grinding, curing and sterilizing integrated ceramic mill, the materials of the fixed grinding disc and the movable grinding disc are preferably silicon carbide, and the silicon carbide belongs to semiconductor materials, so that insulating powder is filled in the annular grooves of the fixed grinding disc and the annular grooves of the movable grinding disc respectively, electric leakage can be prevented, and the nitride filler has the characteristics of high heat conductivity, good electric insulation performance, excellent high temperature resistance and excellent dielectric performance, so that silicon nitride powder and aluminum nitride powder are used as insulating powder, and heat transfer can be rapidly carried out on the basis of preventing electric leakage.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is a schematic view of the present utility model assembled with a stationary abrasive disc;

FIG. 2 is a front view of the stationary abrasive disc;

FIG. 3 is a top view of the stationary abrasive disc;

FIG. 4 is a cross-sectional view of the stationary abrasive disc along the heating tungsten wire placement face;

FIG. 5 is a schematic view of the movable millstone assembly of the present utility model;

FIG. 6 is a front view of the movable millstone;

FIG. 7 is a top view of the movable millstone;

FIG. 8 is a cross-sectional view of the movable millstone along the heating tungsten wire placement face;

FIG. 9 is a downward perspective view of the mold;

FIG. 10 is an upward oblique view of the mold;

FIG. 11 is a schematic view of the structure of the upper die;

fig. 12 is a schematic view of the structure of the lower die.

In the figure: 101. an upper die; 102. centering conical surface of the upper die; 110. a fixed grinding disc; 111. a fixed grinding disc groove; 112. fixed millstone teeth; 115. annular groove of fixed millstone; 118. heating tungsten wires by a fixed millstone; 119. heating tungsten wire joints by a fixed millstone; 130. a fixed grinding disc mounting plate; 141. a through hole; 142. a groove; 150. a temperature sensor; 201. a lower die; 202. centering conical surface of the lower die; 210. a movable millstone; 211. a movable grinding disc groove; 212. moving the millstone teeth; 215. a movable millstone annular groove; 216. insulating powder; 218. heating tungsten wires by a movable millstone; 219. a tungsten wire joint is heated by a movable millstone; 230. and the movable millstone mounting plate.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the utility model are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the embodiment provides a grinding, curing and sterilizing integrated ceramic mill, which comprises a fixed mill 110 and a movable mill 210, wherein the fixed mill 110 and the movable mill 210 are made of silicon carbide, a fixed mill annular groove 115 is formed in the fixed mill 110, a fixed mill heating tungsten wire 118 is formed in the fixed mill annular groove 115, a fixed mill heating tungsten wire joint 119 is formed in the fixed mill 110, the fixed mill heating tungsten wire joint 119 is connected with the fixed mill heating tungsten wire 118, a fixed mill groove 111 is formed in the surface of the fixed mill 110, the surface of the fixed mill 110 is divided into a plurality of fixed mill teeth 112 through the fixed mill groove 111, the fixed mill groove 111 is in an inverted cone shape on the fixed mill 110, a fixed mill opening is formed in the middle of the fixed mill 110, and feeding during grinding can be facilitated through the fixed mill opening;

as shown in fig. 5, 6, 7 and 8, the movable millstone 210 is located at one side of the fixed millstone 110, a movable millstone annular groove 215 is arranged in the movable millstone 210, a movable millstone heating tungsten wire 218 is arranged in the movable millstone annular groove 215, a movable millstone heating tungsten wire connector 219 is arranged on the movable millstone 210, the movable millstone heating tungsten wire connector 219 is connected with the movable millstone heating tungsten wire 218, a movable millstone groove 211 is formed in the movable millstone 210, the surface of the movable millstone 210 is divided into a plurality of movable millstone teeth 212 by the movable millstone groove 211, the surface of the movable millstone 210 is in an inverted cone shape, a mounting hole is formed in the movable millstone 210, and the movable millstone can be conveniently mounted on a working shaft by the mounting hole.

In this embodiment, the fixed abrasive disk teeth 112 and the movable abrasive disk teeth 212 are rectangular racks.

In this embodiment, the fixed grinding disc teeth 112 and the movable grinding disc teeth 212 are provided with trapezoid chamfers.

In this embodiment, the fixed grinding disc mounting plate 130 is fixedly mounted on the outer periphery of the fixed grinding disc 110, and specifically, the fixed grinding disc mounting plate 130 is made of stainless steel.

In this embodiment, the movable grinding disc mounting plate 230 is fixedly mounted on the outer periphery of the movable grinding disc 210, and specifically, the movable grinding disc mounting plate 230 is made of stainless steel.

In this embodiment, through holes 141 are respectively formed on the fixed abrasive disc mounting plate 130 and the movable abrasive disc mounting plate 230, and temperature sensors 150 are respectively and fixedly mounted in the through holes 141.

In this embodiment, the fixed grinding disc 110 and the movable grinding disc 210 are provided with grooves 142 corresponding to the through holes 141, respectively, and the inner walls of the grooves 142 can be in contact fit with the contacts of the temperature sensor 150.

In this embodiment, the annular grooves 115 and 215 of the fixed grinding disc and the movable grinding disc are respectively provided with an insulating powder 216, and the insulating powder 216 is made of silicon nitride powder or aluminum nitride powder, preferably silicon nitride powder.

In this embodiment, there is also provided a process for producing any of the above-mentioned pulverizing, aging and sterilizing integrated ceramic mills, including:

the first step: manufacturing a biscuit of the fixed grinding disc 110 and the movable grinding disc 210 in an isostatic pressing mode and a biscuit of a cover plate required for sealing bottoms of the fixed grinding disc 110 and the movable grinding disc 210, wherein the biscuit is made of silicon carbide, and sintering aids with the content of 1.8-3% are uniformly doped in the silicon carbide, wherein the sintering aids are alumina and yttrium oxide micro powder with the diameter of 0.3-0.5 mu m;

and a second step of: using a three-dimensional engraving machine to respectively engrave the shapes of a fixed grinding disc groove 111, a fixed grinding disc annular groove 115, a movable grinding disc groove 211 and a movable grinding disc annular groove 215 on corresponding fixed grinding disc 110 and movable grinding disc 210 biscuit, and reserving the shrinkage between 17% and 20%;

and a third step of: taking out two sets of dies corresponding to the fixed grinding disc 110 and the movable grinding disc 210 respectively, wherein the dies comprise an upper die 101 and a lower die 201, the upper die 101 and the lower die 201 are made of 2100-DEG high-temperature resistant graphite, an upper die centering conical surface 102 is arranged in the middle of the bottom surface of the upper die 101, and a lower die centering conical surface 202 is arranged in the middle of the bottom surface of the lower die 201;

fourth step: carbon paper is paved in the upper die 101 and the lower die 201, and the thickness of the carbon paper is between 0.5 and 0.7 mm;

fifth step: respectively placing the carved biscuit in corresponding moulds;

sixth step: clamping the die in a sintering furnace, pressurizing, oscillating and heating at the sintering temperature of 1900-2050 DEG to obtain a compact fixed millstone 110 and a compact movable millstone 210;

seventh step: the fixed grinding disc annular groove 115 and the movable grinding disc annular groove 215 are respectively filled with a layer of insulating powder 216, the fixed grinding disc heating tungsten wire 118 is placed in the fixed grinding disc annular groove 115, the movable grinding disc heating tungsten wire 218 is placed in the movable grinding disc annular groove 215, the fixed grinding disc annular groove 115 and the movable grinding disc annular groove 215 are respectively filled with a layer of insulating powder 216, the insulating powder 216 wraps the corresponding fixed grinding disc heating tungsten wire 118 and the corresponding movable grinding disc heating tungsten wire 218 and fills the fixed grinding disc annular groove 115 and the movable grinding disc annular groove 215, the cover plate is respectively buckled with the corresponding fixed grinding disc 110 and the movable grinding disc 210, the sealing bottoms of the fixed grinding disc annular groove 115 and the movable grinding disc annular groove 215 are completed, secondary sintering is carried out under the high-temperature and high-pressure environment, bonding is completed between the cover plate and the corresponding fixed grinding disc 110 and the movable grinding disc 210, and atomic level bonding of the fixed grinding disc 110 and the movable grinding disc 210 and the insulating powder 216 is completed through the technological effect of vacuum thermal diffusion welding.

Eighth step: the corresponding fixed grinding disc 110 and the corresponding movable grinding disc 210 are taken out from the corresponding mould, and the fixed grinding disc 110 and the movable grinding disc 210 are respectively inlaid in the corresponding fixed grinding disc mounting plate 130 and the movable grinding disc mounting plate 230, specifically, the inlaying modes are as follows: after the corresponding fixed grinding disc housing 150 and the corresponding movable grinding disc housing 250 are heated to 180-250 ℃, the upper grinding disc housing 150 and the lower grinding disc housing 250 are heated and expanded, the fixed grinding disc 110 and the movable grinding disc 210 are pneumatically pressed into the corresponding fixed grinding disc housing 150 and the movable grinding disc housing 250, and after cooling, shrinkage allowance of 30-50 wires exists between the fixed grinding disc 110 and the movable grinding disc 210 and the corresponding fixed grinding disc housing 150 and the movable grinding disc housing 250 respectively.

In this example, after the fourth step is completed, the carbon paper is sprayed with a PET or PE polymer organic solution.

In the device, the silicon carbide material is the biological inert material with the fastest heat conduction rate worldwide at present, the heat conduction rate is 8 times of that of stainless steel, the characteristics of no chemical reaction with food are utilized by utilizing the biological inert characteristics of the silicon carbide material, so that the food is safer, meanwhile, the silicon carbide is a natural low-temperature infrared material which has the self infrared function, has the functions of resisting and inhibiting bacteria, improving the flavor of the food and improving the oxidation resistance of the food, the material is more inert relative to the metal material, can not react with phytic acid and abscisic acid in the food, avoids the corrosion to the millstone, during the production of the product, the biscuit is manufactured by using an isostatic pressing mode, the biscuit is put into a die after being engraved, the upper die 101 and the lower die 201 of the die are used for centering the conical surface 102 and the lower die centering the conical surface 202, the automatic centering is completed during buckling, then the die is clamped in a sintering furnace for firing, during the firing process, high-frequency vibration and front pressure are carried out on the die at the high temperature of 1900-2050 ℃, the oscillating hot-pressing sintering process is adopted for sintering the silicon carbide millstone, in particular, the oscillating hot-pressing sintering process is the existing mature process, so that the repeated description is omitted, the standard size millstone can be obtained after the biscuit is contracted in the sintering process by reserving 17-20 percent of contraction amount, after the sintering is completed, a layer of insulating powder 216 is filled into the fixed millstone annular groove 115 and the movable millstone annular groove 215 respectively after the minor processing is carried out on the millstone, the fixed millstone heating tungsten wire 118 is put into the fixed millstone annular groove 115, the movable millstone heating tungsten wire 218 is put into the movable millstone annular groove 215, respectively filling a layer of insulating powder 216 into the annular grooves 115 and 215 of the fixed millstone, buckling a cover plate corresponding to the biscuit, sealing the bottom of the fixed millstone 110 and the movable millstone 210, then performing secondary sintering to finish bonding between the cover plate and the corresponding fixed millstone 110 and movable millstone 210, and simultaneously finishing the bonding between the fixed millstone 110 and the movable millstone 210 and the insulating millstone 210 by the technological effect of vacuum thermal diffusion weldingThe atomic level combination of the edge powder 216 is that carbon paper with the thickness of 0.5-0.7mm is arranged between the mould and the ceramic millstone in the firing process, PET or PE macromolecule organic solution is sprayed on the carbon paper, the mould and the millstone can be separated in the sintering process through the carbon paper, and when cracks are generated in the sintering process of the carbon paper, the cracks on the carbon paper can be repaired through the PET or PE macromolecule organic solution, the functions of separating the mould and the millstone are played, the theoretical density of the millstone produced by the method can reach 3.18 g per cubic centimeter, and the fracture toughness of the millstone can exceed 6Mpa m ^1/2 Compared with the current common pressure of 4Mpa m ^1/2 The left and right silicon carbide ceramic materials are greatly lifted, so that the produced grinding disc is not easy to crack, the heat conductivity coefficient of the produced grinding disc can reach 140W/m.K, which is 8 times that of stainless steel, the fixed grinding disc 110 is fixed on an outer shell through a fixed grinding disc mounting plate 130, the movable grinding disc 210 is mounted on a rotatable working shaft through a mounting hole, a fixed grinding disc groove 111 on the fixed grinding disc 110 is opposite to a movable grinding disc groove 211 on the movable grinding disc 210, when in use, materials can be fed from a fixed grinding disc opening in a direct feeding and spiral feeding mode, when the movable grinding disc 210 moves at a high speed, a speed gradient can be generated on the material on the rotating surface of the movable grinding disc 210, and a trapezoid chamfer is formed on the fixed grinding disc teeth 112 and the movable grinding disc teeth 212 through fixed grinding disc teeth 112 and movable grinding disc teeth 212 which are rectangular racks, the materials are crushed, dispersed, ground and thinned under the strong actions of shearing, friction, impact and high-frequency oscillation, the granularity and the thickness of the powder can be controlled by controlling the gap between the fixed grinding disc 110 and the movable grinding disc 210, meanwhile, in the process, the fixed grinding disc heating tungsten wire 118 heats the fixed grinding disc 110 under the condition of no electric leakage through the heat conduction of the insulating powder 216, the movable grinding disc heating tungsten wire 218 heats the movable grinding disc 210 under the condition of no electric leakage through the heat conduction of the insulating powder 216, the temperature of the fixed grinding disc 110 and the movable grinding disc 210 is monitored through the temperature sensor 150, the heating temperature of the fixed grinding disc heating tungsten wire 118 and the movable grinding disc heating tungsten wire 218 is conveniently regulated, and the superconductivity between the silicon carbide of the semiconductor material and the silicon nitride or the aluminum nitride of the insulator material is utilized to avoidUnder the prerequisite of electric leakage, can realize quick intensification's effect, the heat loss that has reduced the heating in-process caused, the effect of energy-conservation has been played, make this device fry the material at the in-process of crocus, simultaneously can carry out high temperature enzyme-killing treatment under the circumstances of high temperature, reduce enzymatic oxidation reaction's production, and, the radiant heat energy that heats the carborundum material and produce, can play the effect of air conduction heating sterilization, through this device, utilize the natural high heat conduction speed of carborundum material, can combine together the fry of material with the crocus, heat in the twinkling of an eye at the in-process of crocus in the twinkling of an eye and cure, reduce the technological process of food crocus, reduce the cost and the process of fry in advance, waste has been reduced, reduce the contract of food fission and reaction time, and this device can eliminate the oxidation of taking place of food material, electric power, the waste and the antibacterial bacteriostasis of food in advance, make this device can once only accomplish in step synchronization, ripening, lazy four processes of crocus, and the consumer's of the material can purchase, and the device has been paid attention to the consumer in the consumer has paid attention to the health care to the people, and has been paid to the consumer, and the processing device has been paid to the health care to the consumer has been paid to the consumer, and has been paid to the consumer has been processed to the device has been reduced, and has been processed.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the utility model referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the utility model. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Other technical features besides those described in the specification are known to those skilled in the art, and are not described herein in detail to highlight the innovative features of the present utility model.

Claims (8)

1. The utility model provides an integrated ceramic mill that disinfects is cured to crocus, including deciding mill (110) and movable mill (210), its characterized in that, the material of deciding mill (110) and movable mill (210) be carborundum, decide mill (110) inside and be equipped with and decide mill ring channel (115), decide mill ring channel (115) in be equipped with and decide mill heating tungsten filament (118), decide mill heating tungsten filament joint (119) on mill (110), decide mill heating tungsten filament joint (119) and decide mill heating tungsten filament (118) and be connected, decide mill groove (111) are offered on the surface of mill (110), through deciding mill groove (111), separate the surface of deciding mill (110) into a plurality of and decide mill tooth (112), decide mill groove (111) and be the taper on deciding mill (110), decide mill opening in the middle part of mill (110);

the movable millstone (210) is positioned on one side of the fixed millstone (110), a movable millstone annular groove (215) is formed in the movable millstone (210), a movable millstone heating tungsten wire (218) is arranged in the movable millstone annular groove (215), a movable millstone heating tungsten wire connector (219) is arranged on the movable millstone (210), the movable millstone heating tungsten wire connector (219) is connected with the movable millstone heating tungsten wire (218), a movable millstone groove (211) is formed in the movable millstone (210), the surface of the movable millstone (210) is divided into a plurality of movable millstone teeth (212) through the movable millstone groove (211), the surface of the movable millstone (210) is in an inverted cone shape, and a mounting hole is formed in the movable millstone (210).

2. The integrated ceramic mill for pulverizing, curing and sterilizing according to claim 1, wherein the fixed mill teeth (112) and the movable mill teeth (212) are rectangular racks.

3. The integrated ceramic mill for grinding, curing and sterilizing according to claim 1, wherein trapezoid chamfers are arranged on the fixed mill teeth (112) and the movable mill teeth (212).

4. The ceramic mill with integrated functions of grinding, curing and sterilizing according to claim 1, wherein a fixed grinding disc mounting plate (130) is fixedly mounted on the periphery of the fixed grinding disc (110).

5. The ceramic mill with integrated functions of pulverizing, aging and sterilizing according to claim 4, wherein a movable mill mounting plate (230) is fixedly installed on the periphery of the movable mill (210).

6. The ceramic mill with integrated functions of grinding, curing and sterilizing according to claim 5, wherein the fixed grinding disc mounting plate (130) and the movable grinding disc mounting plate (230) are respectively provided with a through hole (141), and the through holes (141) are respectively fixedly provided with a temperature sensor (150).

7. The integrated ceramic mill for grinding, curing and sterilizing according to claim 6, wherein the fixed grinding disc (110) and the movable grinding disc (210) are respectively provided with a groove (142) corresponding to the through holes (141), and the inner wall of the groove (142) can be in contact fit with the contact of the temperature sensor (150).

8. The integrated ceramic mill for grinding, curing and sterilizing according to claim 1, wherein the annular grooves (115) of the fixed grinding disc and the annular grooves (215) of the movable grinding disc are respectively provided with insulating powder (216), and the insulating powder (216) is made of silicon nitride powder or aluminum nitride powder.