Search

CN-122006874-A - Glabridin nanoscale pulverizer

CN122006874ACN 122006874 ACN122006874 ACN 122006874ACN-122006874-A

Abstract

The invention discloses a nano-scale glabridin pulverizer, which relates to the technical field of glabridin pulverization and comprises a spraying device, a collision grinding device, a protection device and a grinding device. When the high-frequency steering engine drives the second crushing disc to reversely rotate, the grinding main disc and the balls slide rightwards, so that powder passing through the grinding drum is pushed into the second collision drum of the collision-grinding device by the balls, and simultaneously, the two deflection electric push rods on the right side of the bottom of the protection shell can drive the deflection supporting feet to retract upwards, the two deflection electric push rods on the left side of the bottom of the protection shell can drive the deflection supporting feet to extend downwards, the whole protection device is inclined rightwards, and the value range of the inclination angle is 0-5 degrees, so that powder accumulation and blockage are effectively prevented. When the high-frequency steering engine runs continuously, certain vibration and heat can be generated, and the vibration and the heat can be directly transmitted to the milling arc plate of the milling device and the powder on the milling arc plate, so that the viscosity of the powder is reduced, and the fluidity of the powder is improved.

Inventors

  • SUN XIAOYUN
  • ZHAO PANFENG
  • SU LEI

Assignees

  • 西安云致桐生物工程科技有限公司

Dates

Publication Date
20260512
Application Date
20260416

Claims (9)

  1. 1. The glabridin nanoscale pulverizer comprises a spraying device (1), a collision grinding device (2), a protection device (3) and a grinding device (4), and is characterized in that the spraying device (1) is rotationally connected to the left side of the collision grinding device (2); the impact grinding device (2) is fixedly arranged in the protective device (3) along the horizontal direction, the protective device (3) is placed on the ground, the grinding device (4) is rotationally connected in the protective device (3), the impact grinding device (2) comprises a diverter ring (201), a diverter hole (202), a grinding assembly (206) and a grinding assembly (207), the diverter ring (201) is fixedly arranged at the front end of the grinding assembly (207), the three diverter holes (202) are uniformly distributed on the surface of the diverter ring (201) along the circumferential direction, internal threads on the grinding assembly (206) and external threads on the grinding assembly (207) form a thread pair, when the material spraying device (1) drives a raw material to spray onto the diverter ring (201), the diverter hole (202) on the diverter ring (201) divides the raw material spraying flow into three parts, the three parts are sprayed onto the three areas of the grinding assembly (206) respectively, the raw material is crushed twice after being crushed by the grinding assembly (206), the material spraying device (1) is opened firstly, the diverter ring (201) is manually rotated later, the diversion holes (202) are aligned with different areas of the grinding assembly (206), thereby realizing the alternate use of the different areas of the grinding assembly (206).
  2. 2. The glabridin nanoscale pulverizer as claimed in claim 1, wherein the spraying device (1) comprises a high-pressure spraying pump (101), a collecting hole (102), a collecting tray (103), a spraying horn mouth (104) and a sealing cover (105), the high-pressure spraying pump (101) is fixedly arranged at the lower end of the collecting tray (103), the high-pressure spraying pump (101) is also communicated with the spraying horn mouth (104) through a pipeline, the collecting hole (102) is fixedly arranged at the upper end of the high-pressure spraying pump (101) along the radial direction of the high-pressure spraying pump (101), the collecting tray (103) is inclined leftwards relative to the horizontal plane, an included angle between the lower surface of the collecting tray (103) and the upper surface of the protecting device (3) is 10 degrees, the spraying horn mouth (104) is fixedly arranged at the right side of the sealing cover (105), and the side surface of the sealing cover (105) is rotatably connected to the side surface of the impact grinding device (2).
  3. 3. The glabridin nano-scale pulverizer of claim 2, wherein the collision and grinding device (2) further comprises a first collision and grinding cylinder (203), a guide spiral groove (204), a second collision and grinding cylinder (205), a collision and grinding bracket (208), a discharge cylinder (209) and a discharge plug (210), the second collision and grinding cylinder (205) is fixedly arranged on the right side of the first collision and grinding cylinder (203), the second collision and grinding cylinder (205) is fixedly arranged inside the protection device (3) through bolts, the guide spiral groove (204) is fixedly arranged on the inner wall of the first collision and grinding cylinder (203), the collision and grinding bracket (208) is fixedly arranged on the outer cylindrical surface of the first collision and grinding cylinder (203), the collision and grinding bracket (208) is also in rotary connection with the side face of the sealing cover (105), the discharge cylinder (209) is fixedly arranged at the lower end of the first collision and the discharge plug (210) is inserted inside the discharge cylinder (209) along the radial direction of the first collision and grinding cylinder (203).
  4. 4. A glabridin nano-scale pulverizer as set forth in claim 3, wherein the pulverizing module (206) comprises a pulverizing plate (211), a pulverizing cylinder (212), a first pulverizing shaft (213), a second pulverizing shaft (214), a pulverizing sleeve (215), a conical table (216), a pulverizing main plate (217), a guide slider (218), a limit cylinder (219), a limit cap (220), and balls (221), the pulverizing plate (211) is fixedly mounted on the left end face of the balls (221), the right end of the pulverizing cylinder (212) is rotatably connected to the left end of the pulverizing main plate (217), the outer cylindrical surfaces of the pulverizing cylinders (212) are also rotatably connected to the inside of the pulverizing plate (211), the eight pulverizing cylinders (212) are uniformly distributed in the circumferential direction inside the pulverizing plate (211), the inner space of the pulverizing cylinder (212) is also communicated with the inner space of the limit cylinder (219), the right end of the second pulverizing shaft (214) is fixedly mounted on the left end face of the limit cap (220), the right end of the first pulverizing shaft (213) is rotatably connected to the left end face of the limit cap (220), the outer cylindrical surfaces of the first pulverizing shaft (213) are also rotatably connected to the inner cylindrical surfaces of the pulverizing cylinder (212), respectively, the right end of the grinding sleeve (215) is rotationally connected to the left end of the grinding main disc (217), the inner cylindrical surface of the grinding sleeve (215) is in frictional contact with the outer cylindrical surface of the grinding cylinder (212), the conical table (216) is fixedly arranged at the left end of the grinding plate (211), the grinding main disc (217) is fixedly arranged on the periphery of the ball (221), the guide sliding block (218) is fixedly arranged on the outer side of the grinding sleeve (215) along the radial direction of the grinding sleeve (215), the guide sliding block (218) is further slidably arranged in the guide spiral groove (204), the eight limiting cylinders (219) are fixedly arranged in the grinding main disc (217) along the circumferential direction, the limiting cover (220) is horizontally slidably arranged in the limiting cylinder (219), and the right end of the limiting cover (220) is fixedly connected with the left end of the second collision grinding cylinder (205).
  5. 5. The glabridin nano-scale pulverizer of claim 4, wherein the pulverizing assembly (207) comprises a screw (222), a pulverizing lug (223), a pulverizing groove (224), a discharge groove (225), a first pulverizing disc (226) and a second pulverizing disc (227), wherein the right end of the screw (222) is fixedly arranged at the left end of the first pulverizing disc (226), the external thread on the screw (222) and the internal thread on the ball (221) form a thread pair, the pulverizing lug (223) is fixedly arranged at the periphery of the screw (222), a pulverizing gap is arranged between the pulverizing lug (223) and the inner cylindrical surface of the second impact cylinder (205), the pulverizing groove (224) is fixedly arranged at the periphery of the pulverizing lug (223) and the periphery of the first pulverizing disc (226), the discharge groove (225) is fixedly arranged at the left end face of the second pulverizing disc (227) in the radial direction, the outer cylindrical surface of the first pulverizing disc (226) is rotationally connected to the inner cylindrical surface of the second impact cylinder (205), the second pulverizing disc (227) is fixedly arranged at the right end of the first pulverizing disc (205), and the second impact cylinder (227) is further provided with a pulverizing gap.
  6. 6. The nano-scale glabridin pulverizer of claim 5, wherein the discharge plug (210) comprises a plug body (228) and a fitting concave (229), the plug body (228) is inserted into the discharge cylinder (209), and the fitting concave (229) is fixedly mounted on the upper surface of the plug body (228).
  7. 7. The glabridin nanoscale pulverizer as set forth in claim 6, wherein the protection device (3) comprises a protection shell (301), a protection baffle plate (302), a protection support (303), a high-frequency steering engine (304), an arc-surface recess (305) and a discharge pump (306), the protection baffle plate (302) is fixedly installed inside the protection shell (301), the protection support (303) is fixedly installed on the upper portion of the protection shell (301), a heat conducting metal pipe is arranged inside the protection support (303), the high-frequency steering engine (304) is fixedly installed at the lower end of the protection support (303) in the horizontal direction, the arc-surface recess (305) is fixedly installed at the bottom of the protection shell (301), and the discharge pump (306) is fixedly installed at the lower end of the protection shell (301), and a space between the arc-surface recess (305) and the protection shell (301) is also communicated with the discharge pump (306).
  8. 8. The nano-scale glabridin pulverizer of claim 7, wherein the protecting device (3) further comprises deflection electric push rods (307) and deflection supporting feet (308), the four deflection electric push rods (307) are fixedly arranged at the lower end of the protecting shell (301) respectively, and the four deflection supporting feet (308) are fixedly connected with the output ends of the four deflection electric push rods (307) respectively.
  9. 9. The glabridin nanoscale pulverizer as claimed in claim 8, wherein the grinding device (4) comprises a grinding arc plate (401), a connecting frame (402), a grinding hole (403), a grinding support (404), piezoelectric ceramics (405) and a fan-shaped grinding disc (406), two ends of the grinding arc plate (401) are respectively and rotatably connected to the inner side of the protective shell (301) and the inner side of the protective baffle (302), a vibration gap is arranged between the inner cylindrical surface of the grinding arc plate (401) and the outer cylindrical surface of the high-frequency steering engine (304), the connecting frame (402) is respectively and fixedly connected with the upper end of the grinding arc plate (401) and the side surface of the second pulverizing disc (227), the grinding hole (403) is fixedly arranged at the lower end of the grinding arc plate (401), the upper end of the grinding support (404) is fixedly arranged at the lower end of the grinding arc plate (401), the upper end of the fan-shaped grinding disc (406) is fixedly arranged at the lower end of the grinding support (404), the piezoelectric ceramics (405) is fixedly arranged at the side surface of the fan-shaped grinding disc (406), and a grinding gap is further arranged between the outer cylindrical surface of the fan-shaped grinding disc (406) and the inner cylindrical surface of the grinding disc (305).

Description

Glabridin nanoscale pulverizer Technical Field The invention relates to the technical field of glabridin crushing, in particular to a glabridin nanoscale crusher. Background Glabridin is a natural flavonoid extracted from the root of glabra licorice, and is recognized as a highly effective skin whitening ingredient. The main action mechanism is that the anti-inflammatory agent can effectively inhibit tyrosinase activity, block melanin generation from the source, have excellent anti-inflammatory and antioxidant capabilities, and can reduce pigmentation after skin inflammation and resist free radical damage. However, the composition has two key challenges in application, namely extremely low water solubility, difficulty in stable existence in a formula, and difficulty in effective penetration of skin cuticle caused by a larger molecular structure and lipophilicity, and low bioavailability, so that in order to solve the bottlenecks, the modern preparation technology usually adopts nanoscale crushing processing, and the nanocrystallization technology not only greatly improves the skin absorption rate and action strength of glabridin, but also enhances the chemical stability of glabridin during product storage, ensures the full play of whitening and skin care effects, ensures uniformity and reliability of product quality, and is a key strategy for improving the modern application value of traditional plant active ingredients. In the prior art, in order to ensure the crushing effect, corresponding crushing gaps are left with smaller gaps, the propelling speed of powder is difficult to ensure when the powder is ground in the horizontal direction, the powder is easy to block, the powder falling speed is too high when the powder is ground in the vertical direction, the crushing effect cannot be ensured, and meanwhile, the prior glabridin crusher cannot utilize the waste heat of a motor to a certain extent in the operation process, so that the glabridin nano-scale crusher capable of increasing the crushing step and the crushing effect and preventing the powder from blocking and effectively utilizing the heat energy of the motor is needed to solve the defects of the prior glabridin nano-scale crusher. Disclosure of Invention The invention aims to provide a glabridin nanoscale pulverizer, which aims to solve the technical problems in the prior art such as how to increase the pulverizing steps and pulverizing effects, how to prevent powder from blocking, how to effectively utilize heat energy of a motor and the like. The technical scheme includes that the glabridin nanoscale pulverizer comprises a material spraying device, a collision grinding device, a protection device and a grinding device, wherein the material spraying device is rotatably connected to the left side of the collision grinding device, the collision grinding device is fixedly arranged in the protection device along the horizontal direction, the protection device is placed on the ground, the grinding device is rotatably connected to the inside of the protection device, the collision grinding device comprises a diverter ring, a diversion hole, a grinding assembly and a grinding assembly, the diverter ring is fixedly arranged at the front end of the grinding assembly, three diversion holes are uniformly distributed on the surface of the diverter ring along the circumferential direction, internal threads on the grinding assembly and external threads on the grinding assembly form thread pairs, when the material spraying device drives raw materials to spray the diverter ring, the diversion holes on the diverter ring divide the raw materials into three parts, the raw materials are sprayed to three parts of grinding assembly respectively, the raw materials can reach the grinding assembly for secondary grinding after being ground through the grinding assembly, the diverter ring is opened, and then the diverter ring is manually rotated, so that the diverter ring is aligned to different areas of the grinding assembly, and the use of different areas of the assembly is achieved. The high-pressure jet pump is fixedly arranged at the lower end of the collecting disc, the high-pressure jet pump is also communicated with the jet horn through a pipeline, the collecting hole is fixedly arranged at the upper end of the high-pressure jet pump along the radial direction of the high-pressure jet pump, the collecting disc is inclined leftwards relative to the horizontal plane, the included angle between the lower surface of the collecting disc and the upper surface of the protection device is 10 degrees, the jet horn is fixedly arranged at the right side of the sealing cover, and the side surface of the sealing cover is rotationally connected to the side surface of the impact grinding device. Further, the collision grinding device also comprises a first collision grinding cylinder, a guide spiral groove, a second collision grinding cylinder, a collision grinding bracket, a dis