JP2021074704A - Device for extracting cosmetic material from crude drug - Google Patents

Abstract

To disclose a device for extracting a cosmetic material from a crude drug.SOLUTION: A device for extracting a cosmetic material from a crude drug described in the application includes a pedestal. A support plate and an extraction box are fixed to an upper end of the pedestal and a driving box is fixed to an upper end of the support plate. A driving space is provided in the driving box, and an extraction space is provided in the extraction box. Extraction of a material is performed in the extraction space and a stirring mechanism which improves extraction efficiency is provided in the extraction space. A crushing mechanism which can crush a crushed object two times is provided in the extraction box. The crushing mechanism includes a lifting space in which a right wall communicates with the extraction space. A lifting block which may move up or down is provided in the lifting space, and a spring space is provided in the lifting block.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of cosmetics production, and particularly relates to an apparatus for extracting cosmetic raw materials from crude drugs.

In the production of many cosmetics, it is necessary to use natural materials. These natural ingredients are basically extracted from plants and fruits, which not only improve the quality and effect of cosmetics, but are also healthy for the skin. In order to extract these natural materials, the existing extraction device mainly crushes the raw materials and further agitates them to extract the components. However, with this, the components cannot be effectively extracted from the crushed rhizomes, and the components cannot be thoroughly extracted from plants and fruits. Bring waste. Further, in some devices, in order to improve the extraction effect when performing stirring extraction, the pulverized product is further crushed by another device, and the pulverization effect is improved, but the efficiency is lowered.

Chinese Patent Application Publication No. 1078679444

The purpose is to improve the extraction efficiency by providing a device for extracting cosmetic raw materials from crude drugs.

The present invention is realized by the following technical solutions.

The device for extracting a cosmetic raw material from a crude drug according to the present application includes a pedestal, a support plate and an extraction box are fixed to the upper end of the pedestal, a drive box is fixed to the upper end of the support plate, and the drive box is fixed. A drive space is provided in the extraction box, an extraction space is provided in the extraction box, and a stirring mechanism is provided in the extraction space for extracting raw materials and increasing the extraction efficiency. ,
The extraction box is further provided with a crushing mechanism capable of crushing the crushed material a second time, and the crushing mechanism includes an elevating space in which the right wall communicates with the extraction space, and the elevating space includes an elevating space. An elevating block that can be elevated is provided, a spring space is provided in the elevating block, a spring plate is slidably connected in the spring space, and the spring plate and the upper wall of the spring space are connected. Is connected by a telescopic spring, a spring rod is fixed to the lower end of the spring plate, and the lower end of the spring rod penetrates the lower wall of the spring space and extends into the elevating space. An elevating spring is fixed to the lower end of the rod, the lower end of the elevating spring is fixedly connected to the lower wall of the elevating space, and a filter plate for pressing the crushed material is provided in the extraction space to perform the filtration. A connecting block is fixed to the left end of the plate, the left end of the connecting block is fixedly connected to the elevating block, and a through space penetrating the filter plate from above and below is provided in the filter plate. Two position limiting blocks are fixed to the upper surface of the filter plate, a rotating shaft is rotatably connected to the lower wall of the driving space, a reel is fixed to the upper end of the rotating shaft, and a rope is attached to the reel. Is wound around the rope, and the lower end of the rope penetrates the lower wall of the drive space and the upper wall of the elevating space and is fixedly connected to the elevating block. A groove is formed, a first torsion spring is fixed to the lower end of the rotating shaft, the lower end of the first torsion spring is fixedly connected to the lower wall of the drive space, and expansion and contraction filtration is performed to the lower end of the connecting block. The net is fixed, and the telescopic filtration net prevents the pulverized material in the extraction space from entering the elevating space.
A power mechanism capable of driving the present invention is further provided in the drive space, a discharge mechanism for discharging a stirred substance is provided on the right wall of the extraction space, and the power mechanism is the stirring mechanism and the push. The components are extracted by driving the crushing mechanism, and the agitated crushed material is crushed many times by the operation of the stirring mechanism and the crushing mechanism, that is, the extraction efficiency and the effect can be improved.

Further, the stirring mechanism includes a stirring shaft rotatably connected to the upper wall of the driving space, and the stirring shaft downwards the lower wall of the filtering plate, the upper wall of the extraction space, and the penetrating space. It penetrates and extends to the extraction space, and an elevating groove is formed at the lower end of the stirring shaft. Both the left and right walls of the elevating groove communicate with the extraction space, and the elevating groove is inside the elevating groove. Is provided with a slidable ascending block and a connecting spring for supporting the ascending block, and a stirring rod is fixed to both the left and right ends of the ascending block and the lower end of the stirring shaft, and the stirring rod is the said. The pulverized material in the extraction space can be agitated, one end of the stirring rod is fixedly connected to the rising block, penetrates the wall of the hoisting groove and extends to the extraction space, and is the upper end of the stirring shaft. A stirring gear is fixed to the.

Further, the power mechanism includes a drive motor fixed to the upper wall of the drive space, a drive shaft is movably connected to the lower end of the drive motor, and a drive gear is fixed to the upper end of the drive shaft. A rotary gear is connected to the lower end of the drive shaft via a key, the rotary gear meshes with the stirring gear, and a protruding space that opens downward is provided in the rotary gear. A transmission block and a protrusion spring are provided in the protrusion space, the lower end of the transmission block can be located in the storage groove, and the transmission block and the upper wall of the protrusion space are connected by the protrusion spring to form the drive space. Two compression springs are fixed to the lower wall, the upper ends of the two compression springs are in contact with the rotary gear, and the transmission shaft is further rotatably connected to the upper wall of the drive space. A transmission gear is fixed to the upper end of the transmission shaft, the right end of the transmission gear meshes with the drive gear, a cam is fixed to the lower end of the transmission shaft, and the right end is on the left wall of the drive space. A telescopic space that opens toward the side is provided, a driven rod is provided in the telescopic space, the right end of the driven rod is in contact with the cam, and a repositioning spring is further provided in the telescopic space. The driven rod and the left wall of the telescopic space are connected by the repositioning spring, a compression block and a support spring are provided in the drive space, and the lower surface of the compression block comes into contact with the upper end of the rotary gear. The support spring supports the compression block, a narrow rope is fixed to the left end of the driven rod, and the left end of the narrow rope penetrates the left surface of the driven rod and the lower wall of the drive space. It is fixedly connected to the compression block.

Further, the discharge mechanism includes two liquid pipelines, the two liquid pipelines are provided on the right wall of the extraction space and communicate the extraction space with the outside, and on the rear wall of the extraction space. Is provided with a charging space, which communicates the extraction space with the outside, and raw materials can be charged from the charging space, and the right wall of the extraction space is penetrated by two liquid pipelines. An ascending space is provided, and a blocking plate and an ascending spring are provided in the ascending space, the blocking plate can block the liquid pipeline, the ascending spring supports the blocking plate, and the ascending An electromagnet is fixed to the lower wall of the space, the electromagnet can attract or reject each other with the blocking plate, a sensor is fixed to the right wall of the extraction space, and the sensor senses a liquid. The operation of the electromagnet can be controlled by the above, a through hole penetrating the blocking plate is provided in the blocking plate, and a discharge space communicating with the outside is provided below the right wall of the extraction space. An electromagnetic switch that shuts off the discharge space is provided inside, a rotation space that opens upward is provided on the lower wall of the discharge space, and the front and rear walls of the rotation space are rotatable. A filtration obstruction plate whose upper end is located in the discharge space is fixed to the rotation shaft, and the rotation shaft and the rotation space are connected by a second torsion spring, and the blocking plate is connected. A chain is fixed to the lower end of the chain, and the lower end of the chain penetrates the lower wall of the rising space and the upper wall of the discharge space and is fixedly connected to the upper left surface of the filtration obstruction plate.

Further, in the initial state, the repositioning spring is in the compressed state, the telescopic spring and the elevating spring are in the stretched state, the second torsion spring is twisted, and all the other springs are in the natural state. The liquid pipeline above the through hole communicates with the extraction space and the external space.

Further, the elasticity of the repositioning spring is stronger than the sum of the elasticity of the support spring and the compression spring, the transmission gear has a longer diameter than the drive gear, and the stirring rod fixedly connected to the ascending block has a stir bar. It is slightly longer than the stirring rod fixedly connected to the stirring shaft, and the distance from the left end of the left stirring rod to the right end of the right stirring rod is slightly shorter than the distance between the left and right walls of the penetrating space. As the filter plate descends, the position limiting block does not come into contact with the stirring rod fixedly connected to the stirring shaft, but comes into contact with the stirring rod fixedly connected to the rising block. The elasticity of the first torsion spring is stronger than the sum of the elasticity of the telescopic spring, the elevating spring, and the connecting spring, and the ascending spring is stronger than the second torsion spring under the extraction space. Both the wall and the lower end of the filter plate tilt to the lower right.

The present invention has the following positive effects: The present invention can extract the components necessary for the production of cosmetics, intermittently stir and pulverize the agitated product, thoroughly extract the required components, and also have efficiency. can give.

In order to explain the present invention in detail and conveniently explain the present invention together with FIGS. 1 to 5 below, each direction described in the present application is defined as follows: FIG. 1 is a front view of the present invention and is described in the present application. Each of the described directions is based on the observation direction in FIG.

FIG. 1 is a schematic configuration of the present invention. FIG. 2 is a schematic top view of the entire cross section of the filter plate in FIG. FIG. 3 is an enlarged schematic diagram of part A in FIG. FIG. 4 is an enlarged schematic diagram of part B in FIG. FIG. 5 is a schematic top view of the overall cross section of the cam in FIG.

With reference to FIGS. 1 to 5, the apparatus for extracting cosmetic raw materials from the crude drug described in the present application includes a pedestal 10, and a support plate 11 and an extraction box 12 are fixed to the upper end of the pedestal 10, and the support plate is used. A drive box 33 is fixed to the upper end of 11, a drive space 34 is provided in the drive box 33, an extraction space 50 is provided in the extraction box 12, and a raw material is provided in the extraction space 50. A stirring mechanism 68 for performing extraction and increasing the extraction efficiency is provided in the extraction space 50.
The extraction box 12 is further provided with a crushing mechanism 67 capable of crushing the crushed material for the second time, and the crushing mechanism 67 includes an elevating space 13 in which the right wall communicates with the extraction space 50. An elevating block 22 that can be raised and lowered is provided in the space 13, a spring space 20 is provided in the elevating block 22, and a spring plate 19 is slidably connected in the spring space 20. The spring plate 19 and the upper wall of the spring space 20 are connected by a telescopic spring 21, a spring rod 18 is fixed to the lower end of the spring plate 19, and the lower end of the spring rod 18 is the lower wall of the spring space 20. The elevating spring 14 is fixed to the lower end of the spring rod 18, and the lower end of the elevating spring 14 is fixed to the lower wall of the elevating space 13. A filtering plate 37 that is connected and presses the crushed material is provided in the extraction space 50, a connecting block 23 is fixed to the left end of the filtering plate 37, and the left end of the connecting block 23 is connected to the elevating block 22. It is fixedly connected, and a through space 35 penetrating the filter plate 37 from the vertical direction is provided in the filter plate 37, and two position limiting blocks 36 are fixed on the upper surface of the filter plate 37. A rotating shaft 62 is rotatably connected to the lower wall of the drive space 34, a reel 60 is fixed to the upper end of the rotating shaft 62, and a rope 24 is wound around the reel 60. The lower end penetrates the lower wall of the drive space 34 and the upper wall of the elevating space 13 and is fixedly connected to the elevating block 22, and a storage groove 54 that opens upward is formed in the reel 60. A first torsion spring 61 is fixed to the lower end of the rotating shaft 62, the lower end of the first torsion spring 61 is fixedly connected to the lower wall of the drive space 34, and the lower end of the connecting block 23 is expanded and contracted. The filter net 15 is fixed, and the pulverized material in the extraction space 50 is stopped from entering the elevating space 13 by the telescopic filter net 15.
A power mechanism 70 capable of driving the present invention is further provided in the drive space 34, and a discharge mechanism 69 for discharging the agitated material is provided on the right wall of the extraction space 50, and the power mechanism 70 is said. The stirring mechanism 68 and the crushing mechanism 67 are driven to extract components, and the agitated crushed material is crushed many times by the operation of the stirring mechanism 68 and the crushing mechanism 67. That is, the extraction efficiency and effect can be improved.

Advantageously, the stirring mechanism 68 includes a stirring shaft 17 rotatably connected to the upper wall of the drive space 34, which downwards the lower wall of the filtering plate 37, said extraction space 50. It penetrates the upper wall and the penetrating space 35 and extends to the extraction space 50. An elevating groove 71 is formed at the lower end of the stirring shaft 17, and the elevating groove 71 has both left and right walls. A slidable ascending block 72 and a connecting spring 73 for supporting the ascending block 72 are provided in the elevating groove 71 so as to communicate with the extraction space 50, and the left and right ends of the ascending block 72 and the above. A stirring rod 16 is fixed to the lower end of the stirring shaft 17, the stirring rod 16 can stir the pulverized material in the extraction space 50, and one end of the stirring rod 16 is fixedly connected to the rising block 72. The stirring gear 32 is fixed to the upper end of the stirring shaft 17 so as to penetrate the wall of the lifting groove 71 and extend into the extraction space 50.

Advantageously, the power mechanism 70 includes a drive motor 30 fixed to the upper wall of the drive space 34, and a drive shaft 58 is ubiquitously connected to the lower end of the drive motor 30 so that the drive shaft 58 of the drive shaft 58 can be transmitted. A drive gear 31 is fixed to the upper end, a rotary gear 59 is connected to the lower end of the drive shaft 58 via a key, the rotary gear 59 meshes with the stirring gear 32, and the rotary gear 59 is engaged. A protrusion space 56 that opens downward is provided in the protrusion space 56, a transmission block 55 and a protrusion spring 57 are provided in the protrusion space 56, and the lower end of the transmission block 55 can be located in the storage groove 54. The transmission block 55 and the upper wall of the protrusion space 56 are connected by the protrusion spring 57, two compression springs 74 are fixed to the lower wall of the drive space 34, and the upper ends of the two compression springs 74 are fixed. The transmission shaft 28 is rotatably connected to the upper wall of the drive space 34 in contact with the rotary gear 59, and the transmission gear 27 is fixed to the upper end of the transmission shaft 28. The right end of 27 meshes with the drive gear 31, a cam 26 is fixed to the lower end of the transmission shaft 28, and a telescopic space 65 that opens to the right is provided on the left wall of the drive space 34. A driven rod 66 is provided in the space 65, the right end of the driven rod 66 is in contact with the cam 26, and a repositioning spring 63 is further provided in the telescopic space 65 by the repositioning spring 63. The driven rod 66 and the left wall of the telescopic space 65 are connected, a compression block 29 and a support spring 25 are provided in the drive space 34, and the lower surface of the compression block 29 is the upper end of the rotary gear 59. The support spring 25 supports the compression block 29, a narrow rope 64 is fixed to the left end of the driven rod 66, and the left end of the narrow rope 64 is the left surface of the driven rod 66. It penetrates the lower wall of the drive space 34 and is fixedly connected to the compression block 29.

Advantageously, the discharge mechanism 69 includes two liquid pipelines 40, the two liquid pipelines 40 being provided on the right wall of the extraction space 50 and communicating the extraction space 50 with the outside. An input space 51 is provided on the rear wall of the extraction space 50, and the input space 51 communicates the extraction space 50 with the outside so that raw materials can be input from the input space 51. A rising space 42 penetrated by the two liquid pipelines 40 is provided on the right wall, a blocking plate 38 and a rising spring 41 are provided in the rising space 42, and the blocking plate 38 is the liquid pipe. The road 40 can be blocked, the rising spring 41 supports the blocking plate 38, an electric magnet 44 is fixed to the lower wall of the rising space 42, and the electric magnet 44 attracts or rejects the blocking plate 38. A sensor 45 is fixed to the right wall of the extraction space 50, and the sensor 45 can control the operation of the electromagnet 44 by sensing a liquid, and the blocking plate 38 contains the blocking. A through hole 39 penetrating the plate 38 is provided, a discharge space 46 communicating with the outside is provided below the right wall of the extraction space 50, and an electromagnetic opening / closing that shuts off the discharge space 46 is provided in the discharge space 46. A vessel 47 is provided, a rotating space 48 that opens upward is provided on the lower wall of the discharge space 46, and the front and rear walls of the rotating space 48 are connected by a rotatable rotating shaft 49, and the rotating space 48 is connected. A filtration obstruction plate 53 whose upper end is located in the discharge space 46 is fixed to the moving shaft 49, and the rotating shaft 49 and the rotating space 48 are connected by a second torsion spring 52, and the blocking plate 38 is connected. A chain 43 is fixed to the lower end of the chain 43, and the lower end of the chain 43 penetrates the lower wall of the rising space 42 and the upper wall of the discharge space 46 and is fixedly connected to the upper left surface of the filtration obstruction plate 53. ing.

Advantageously, in the initial state, the repositioning spring 63 is in a compressed state, the telescopic spring 21 and the elevating spring 14 are in an extended state, the second torsion spring 52 is twisted, and the other springs are All are in a natural state, and the liquid pipeline 40 above the through hole 39 communicates with the extraction space 50 and the external space.

Advantageously, the elasticity of the repositioning spring 63 is stronger than the sum of the elasticity of the support spring 25 and the compression spring 74, and the transmission gear 27 has a diameter longer than that of the drive gear 31 and is fixed to the ascending block 72. The stirring rod 16 connected to the stirring rod 16 is slightly longer than the stirring rod 16 fixedly connected to the stirring shaft 17, and the distance from the left end of the left stirring rod 16 to the right end of the right stirring rod 16 is The position limiting block 36 comes into contact with the stirring rod 16 fixedly connected to the stirring shaft 17 while the filtering plate 37 descends, which is slightly shorter than the distance between the left and right walls of the penetrating space 35. Although not, the stirring rod 16 fixedly connected to the rising block 72 is in contact with the stirring rod 16, and the elasticity of the first torsion spring 61 is the elasticity of the telescopic spring 21, the elevating spring 14, and the connecting spring 73. The rising spring 41 is stronger than the sum of the elasticity, the rising spring 41 is stronger than the second twisting spring 52, and both the lower wall of the extraction space 50 and the lower end of the filtering plate 37 are inclined to the lower right.

The operating procedure of the present invention is as follows.

1. The rudimentarily crushed stirring raw material is put into the extraction space 50 through the input space 51, the extract is put into the extraction space 50 through the upper liquid conduit 40, and then the drive motor 30 is operated. The drive shaft 58 is driven and rotated, and then the drive gear 31 and the rotary gear 59 are interlocked to rotate, and the transmission gear 27 and the transmission shaft 28 are rotated along with the drive gear 31 to interlock the cam 26. The stirring gear 32 and the stirring shaft 17 are rotated along with the rotating gear 59, and the stirring rod 16 is interlocked and rotated, where the stirring raw material in the extraction space 50 is stirred to speed up the extraction operation.

2. If the repositioning spring 63 is no longer restricted while the cam 26 is rotating, the repositioning spring 63 is moved to the right with the driven rod 66 by the repositioning, and the narrow rope 64 is pulled to push the compression block 29. When the transmission block 55 and the upper end of the reel 60 come into contact with each other while the rotary gear 59 is descending, the rotary gear 59 is descending in conjunction with the spiral gear 59, and the rotary gear 59 is detached from the stirring gear 32. 55 enters the protrusion space 56 due to the descent of the rotary gear 59, the protrusion spring 57 is compressed, and when the protrusion space 56 and the storage groove 54 are located on the same vertical line, the protrusion spring 57 is repositioned and the transmission block 55 is moved. The lower end of the transmission block 55 subsequently enters the storage groove 54, where the transmission of the transmission block 55 causes the rotary gear 59 to rotate with the reel 60, loosen the rope 24, and rotate the reel 60. The second torsion spring 52 rotates, the first torsion spring 61 is twisted, and the support spring 25 and the compression spring 74 are compressed by the lowering of the compression block 29 and the rotary gear 59.

3. When the rope 24 becomes loose, the elevating spring 14 and the telescopic spring 21 begin to reposition, and the elevating block 22 is lowered to lower the connecting block 23 and the filtration plate 37, and the stirring shaft 17 stops rotating. , The stirring rod 16 can just pass through the through space 35 when the filter plate 37 descends, most of the stirring raw material is pressed under the filter plate 37 by the lowering of the filter plate 37, and the position limiting block 36 becomes the ascending block 72. When the stir bar 16 is fixedly connected, the position limiting block 36 descends with the stir bar 16, and when the telescopic spring 21 and the elevating spring 14 are completely repositioned, the filter plate 37 descends to the lower limit position. Then, the drive motor 30 drives the drive shaft 58 to rotate forward and reverse within a short time, thereby rotating the rotary gear 59 and the reel 60 in the forward and reverse directions, and the rope 24 interlocks to tighten and loosen. Repeatedly, the elevating block 22 is constantly moved up and down by the cooperation of the elevating spring 14 and the telescopic spring 21, and the filter plate 37 is moved up and down within a short time to press the stirring raw material under the filtration plate 37, that is, to stir. The raw material can be further crushed and the extraction effect can be improved.

4. When the drive motor 30 rotates in the original direction and the drive gear 31 and the transmission gear 27 rotate to rotate the transmission shaft 28 and the cam 26, and the cam 26 pushes the driven rod 66 back into the telescopic space 65. , The repositioning spring 63 is compressed, and the narrow rope 64 is loosened. By repositioning the support spring 25 and the compression spring 74, the compression block 29 and the rotary gear 59 are raised and repositioned, and the transmission block 55 is interlocked. Then, the rotary gear 59 meshes with the stirring gear 32 again to rotate with the stirring gear 32, and the stirring shaft 17 and the stirring rod 16 rotate again to stir the stirring raw material. First, when the rotary gear 59 is raised and the transmission block 55 is separated from the storage groove 54 and the rotary gear 59 is not yet meshed with the stirring gear 32, the transmission block 55 and the storage groove 54 are separated from each other, so that the reel 60 is Not driven by the rotary gear 59, the first torsional spring 61 is repositioned here, and by rotating and repositioning the rotating shaft 62, the reel 60 is rotated and repositioned, and the rope 24 is subsequently tightened. The elevating block 22 is raised with the elevating block 22, and then the connecting block 23 and the filter plate 37 are interlocked and raised, and the elevating spring 14 and the telescopic spring 21 are pulled. When the ascending block 72 and the stirring rod 16 fixedly connected to the ascending block 72 are raised and repositioned, and the rotary gear 59 and the stirring gear 32 are re-engaged, the crushing mechanism 67 is repositioned.

5. At the time of extraction, the sensor 45 operates to detect the amount of liquid in the extraction space 50, the electromagnetic switch 47 operates to communicate the extraction space 50 with the outside, and the stirring shaft 17 continues to the drive motor 30. Driven and rotated, the mixture in the extraction space 50 is rotated, the liquid is sent to the outside via the filtration obstruction plate 53 and the discharge space 46 to be collected, and the residue of the agitator is left in the extraction space 50. When the sensor 45 detects that the amount of liquid in the extraction space 50 reaches the minimum value, the sensor 45 controls and operates the electric magnet 44, and the electric magnet 44 pulls the blocking plate 38 to lower the blocking plate 38. Then, the upper liquid pipeline 40 is blocked by the blocking plate 38, the through hole 39 is communicated with the lower liquid pipeline 40, water is put into the extraction space 50 through the lower liquid pipeline 40, and the blocking plate 38 is used. The ascending spring 41 is compressed, the chain 43 is loosened, and the second torsion spring 52 is repositioned here, and the rotating shaft 49 and the filtering obstruction plate 53 are rotated to extract the discharge space 46 from the outside. It communicates with the space 50, where the remaining slag is expelled from the discharge space 46 with water, i.e. the material in the extraction space 50 is collected, then the sensor 45 shuts down, the electromagnet 44 shuts down, and the rising spring. 41 is repositioned and the blocking plate 38 is repositioned, so that the through hole 39 is communicated with the upper liquid pipeline 40 again, the chain 43 is tightened again, the filtration obstruction plate 53 is subsequently repositioned, and the rotation shaft 49 is moved. It is rotated and repositioned, where the second torsion spring 52 is twisted again.

According to the above method, an engineer in the field can make various modifications according to the working situation within the scope of the present invention.

Claims (6)

A support plate and an extraction box are fixed to the upper end of the pedestal including a pedestal, a drive box is fixed to the upper end of the support plate, a drive space is provided in the drive box, and the extraction box is provided. An extraction space is provided in the extraction space, and a stirring mechanism for extracting raw materials in the extraction space and increasing the extraction efficiency is provided in the extraction space.
The extraction box is further provided with a crushing mechanism capable of crushing the crushed material a second time, and the crushing mechanism includes an elevating space in which the right wall communicates with the extraction space, and the elevating space includes an elevating space. An elevating block that can be elevated is provided, a spring space is provided in the elevating block, a spring plate is slidably connected in the spring space, and the spring plate and the upper wall of the spring space are connected. Is connected by a telescopic spring, a spring rod is fixed to the lower end of the spring plate, and the lower end of the spring rod penetrates the lower wall of the spring space and extends into the elevating space. An elevating spring is fixed to the lower end of the rod, the lower end of the elevating spring is fixedly connected to the lower wall of the elevating space, and a filter plate for pressing the crushed material is provided in the extraction space to perform the filtration. A connecting block is fixed to the left end of the plate, the left end of the connecting block is fixedly connected to the elevating block, and a through space penetrating the filter plate from above and below is provided in the filter plate. Two position limiting blocks are fixed to the upper surface of the filter plate, a rotating shaft is rotatably connected to the lower wall of the driving space, a reel is fixed to the upper end of the rotating shaft, and a rope is attached to the reel. Is wound around the rope, and the lower end of the rope penetrates the lower wall of the drive space and the upper wall of the elevating space and is fixedly connected to the elevating block. A groove is formed, a first torsion spring is fixed to the lower end of the rotating shaft, the lower end of the first torsion spring is fixedly connected to the lower wall of the drive space, and expansion and contraction filtration is performed to the lower end of the connecting block. The net is fixed, and the telescopic filtration net prevents the pulverized material in the extraction space from entering the elevating space.
A power mechanism capable of driving the present invention is further provided in the drive space, a discharge mechanism for discharging a stirred substance is provided on the right wall of the extraction space, and the power mechanism is the stirring mechanism and the push. The components are extracted by driving the crushing mechanism, and the agitated crushed material is crushed many times by the operation of the stirring mechanism and the crushing mechanism, that is, the extraction efficiency and the effect can be improved. A device that extracts cosmetic raw materials from raw medicines. The stirring mechanism includes a stirring shaft rotatably connected to the upper wall of the driving space, and the stirring shaft penetrates downward through the lower wall of the filtering plate, the upper wall of the extraction space, and the penetrating space. An elevating groove is formed at the lower end of the stirring shaft, and the left and right walls of the elevating groove communicate with the extraction space. A movable ascending block and a connecting spring for supporting the ascending block are provided, and a stirring rod is fixed to both the left and right ends of the ascending block and the lower end of the stirring shaft, and the stirring rod is the extraction space. One end of the stirring rod is fixedly connected to the rising block and extends through the wall of the hoisting groove to the extraction space, and is located at the upper end of the stirring shaft. The device for extracting a cosmetic raw material from the crude drug according to claim 1, wherein the stirring gear is fixed. The power mechanism includes a drive motor fixed to the upper wall of the drive space, a drive shaft is movably connected to the lower end of the drive motor, and a drive gear is fixed to the upper end of the drive shaft to drive the drive. A rotary gear is connected to the lower end of the shaft via a key, the rotary gear meshes with the stirring gear, and a protrusion space that opens downward is provided in the rotary gear, and the protrusion space is provided. A transmission block and a protrusion spring are provided inside, the lower end of the transmission block can be located in the storage groove, and the transmission block and the upper wall of the protrusion space are connected by the protrusion spring to be under the drive space. Two compression springs are fixed to the wall, the upper ends of the two compression springs are in contact with the rotary gear, and a transmission shaft is further rotatably connected to the upper wall of the drive space. A transmission gear is fixed to the upper end of the transmission shaft, the right end of the transmission gear meshes with the drive gear, a cam is fixed to the lower end of the transmission shaft, and to the right on the left wall of the drive space. An opening telescopic space is provided, a driven rod is provided in the telescopic space, the right end of the driven rod is in contact with the cam, and a repositioning spring is further provided in the telescopic space. The driven rod and the left wall of the telescopic space are connected by a repositioning spring, a compression block and a support spring are provided in the drive space, and the lower surface of the compression block comes into contact with the upper end of the rotary gear. The support spring supports the compression block, a narrow rope is fixed to the left end of the driven rod, and the left end of the narrow rope penetrates the left surface of the driven rod and the lower wall of the drive space. The device for extracting a cosmetic raw material from a crude drug according to claim 2, wherein the compression block is fixedly connected to the compression block. The discharge mechanism includes two liquid pipelines, the two liquid pipelines are provided on the right wall of the extraction space and communicate the extraction space with the outside, and are charged into the rear wall of the extraction space. A space is provided, and the input space communicates the extraction space with the outside, raw materials can be input from the input space, and an ascending space penetrated by two liquid pipelines on the right wall of the extraction space. Is provided, a blocking plate and an ascending spring are provided in the ascending space, the blocking plate can block the liquid pipeline, and the ascending spring supports the blocking plate, and the ascending space An electromagnet is fixed to the lower wall, and the electromagnet can attract or reject each other with the blocking plate, a sensor is fixed to the right wall of the extraction space, and the sensor senses a liquid to detect the liquid. The operation of the electromagnet can be controlled, a through hole penetrating the blocking plate is provided in the blocking plate, and a discharge space communicating with the outside is provided below the right wall of the extraction space in the discharge space. Is provided with an electromagnetic switch that shuts off the discharge space, a rotation space that opens upward is provided on the lower wall of the discharge space, and the front and rear walls of the rotation space are provided by a rotatable rotation shaft. A filtration obstruction plate whose upper end is located in the discharge space is fixed to the rotation shaft, and the rotation shaft and the rotation space are connected by a second torsion spring, and the lower end of the blocking plate is connected. The chain is fixed, and the lower end of the chain penetrates the lower wall of the rising space and the upper wall of the discharge space and is fixedly connected to the upper left surface of the filtration obstruction plate. An apparatus for extracting a cosmetic raw material from the crude drug according to claim 1. In the initial state, the repositioning spring is in the compressed state, the telescopic spring and the elevating spring are in the stretched state, the second torsion spring is twisted, all the other springs are in the natural state, and the through hole. The apparatus for extracting a cosmetic raw material from a crude drug according to claim 4, wherein the upper liquid conduit communicates with the extraction space and an external space. The elasticity of the repositioning spring is stronger than the sum of the elasticity of the support spring and the compression spring, the transmission gear has a longer diameter than the drive gear, and the stirring rod fixedly connected to the rising block is the stirring rod. It is slightly longer than the stirring rod fixedly connected to the shaft, and the distance from the left end of the left stirring rod to the right end of the right stirring rod is slightly shorter than the distance between the left and right walls of the penetrating space. While the filter plate is descending, the position limiting block does not come into contact with the stirring rod fixedly connected to the stirring shaft, but comes into contact with the stirring rod fixedly connected to the rising block. The elasticity of the first torsion spring is stronger than the sum of the elasticity of the telescopic spring, the elevating spring, and the connecting spring, and the ascending spring is stronger than the second torsion spring, and the lower wall of the extraction space. The device for extracting a cosmetic raw material from the crude drug according to claim 4, wherein both lower ends of the filter plate are inclined to the lower right.

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