阅读说明：本技术 一种天然抗氧化护肤水及其制备工艺 (Natural antioxidant skin lotion and preparation process thereof ) 是由 于勇 于 2021-08-17 设计创作，主要内容包括：本发明涉及护肤水制备领域,更具体的说是一种天然抗氧化护肤水及其制备工艺,一种天然抗氧化护肤水制备工艺,该工艺包括以下步骤：步骤一：将需要进行加工的原料放置在天然抗氧化护肤水制备装置的换料机构内；步骤二：挤压机构在提取支架内对换料机构上的原料进行往复挤压；步骤三：换料机构上原料内的液体被挤压出；一种天然抗氧化护肤水,该天然抗氧化护肤水的组分按照重量比例如下：迷迭香叶油12至15份；水解葡糖氨基聚糖6至10份；葡萄籽提取物2.5至5份；茶多酚提取物3至5份；薄荷醇2至3份；去离子水60至70份；芦荟提取液5至10份。(The invention relates to the field of skin care lotion preparation, in particular to natural antioxidant skin care lotion and a preparation process thereof, and the preparation process of the natural antioxidant skin care lotion comprises the following steps: the method comprises the following steps: placing raw materials to be processed in a material changing mechanism of a natural antioxidant skin lotion preparation device; step two: the extrusion mechanism carries out reciprocating extrusion on the raw materials on the material replacing mechanism in the extracting bracket; step three: liquid in the raw materials on the material changing mechanism is extruded out; the natural antioxidant skin care lotion comprises the following components in parts by weight: 12-15 parts of rosemary leaf oil; 6 to 10 parts of hydrolyzed glycosaminoglycans; 2.5 to 5 parts of grape seed extract; 3-5 parts of tea polyphenol extract; 2-3 parts of menthol; 60-70 parts of deionized water; 5 to 10 parts of aloe extract.)

1. A preparation process of natural antioxidant skin lotion is characterized by comprising the following steps: the process comprises the following steps:

the method comprises the following steps: placing raw materials to be processed in a material changing mechanism (10) of a natural antioxidant skin lotion preparation device;

step two: the extrusion mechanism (30) carries out reciprocating extrusion on the raw materials on the material replacing mechanism (10) in the extracting bracket (20);

step three: the liquid in the raw material on the material changing mechanism (10) is extruded.

2. The preparation process of the natural antioxidant skin moisturizer according to claim 1, which is characterized by comprising the following steps of: the natural antioxidant skin care water preparation device comprises an extraction bracket (20), an extrusion mechanism (30) which is connected in the extraction bracket (20) in a sliding manner, and a material changing mechanism (10) which is positioned on the lower side of the extraction bracket (20).

3. The preparation process of the natural antioxidant skin moisturizer according to claim 2, which is characterized by comprising the following steps of: the reloading mechanism (10) is connected to the device support (40) in a sliding mode, and the extracting support (20) and the extruding mechanism (30) are fixedly connected to the device support (40).

4. The preparation process of the natural antioxidant skin moisturizer according to claim 2, which is characterized by comprising the following steps of: the reloading mechanism (10) comprises a reloading support (11), a plurality of feeding supports (13) which are connected to the reloading support (11) in a sliding mode, a feeding tray (14) which is placed on the feeding supports (13), and a compression spring I is fixedly connected between each feeding support (13) and each reloading support (11).

5. The preparation process of the natural antioxidant skin moisturizer according to claim 4, wherein the natural antioxidant skin moisturizer is characterized in that: be provided with a plurality of extrusion grooves (15) on material tray (14), all be provided with a plurality of nail of inserting I (16) in every extrusion groove (15), every nail of inserting I (16) all inclines to set up, every equal sliding connection of nail of inserting I (16) is on material tray (14), fixedly connected with compression spring II between nail of inserting I (16) and material tray (14).

6. The preparation process of the natural antioxidant skin moisturizer according to claim 2, which is characterized by comprising the following steps of: draw support (20) including drawing cavity (21) and fixed connection draw pipeline (22) on drawing cavity (21), be provided with one-way mechanism I (23) in drawing pipeline (22), the bottom of drawing cavity (21) is provided with sealing strip (24).

7. The preparation process of the natural antioxidant skin moisturizer according to claim 2, which is characterized by comprising the following steps of: extrusion mechanism (30) are including telescopic machanism I (31) and extrusion roof (32) of fixed connection at telescopic machanism I (31) flexible end, and a plurality of extrusion piece (33) of fixed connection on extrusion roof (32), all be provided with a plurality of liquid holes I (35) on every extrusion piece (33), all be provided with a plurality of liquid holes II (36) on every extrusion piece (33), a plurality of liquid holes II (36) communicate with a plurality of liquid holes I (35) respectively, equal sliding connection has a plurality of nail II (39) of inserting on every extrusion piece (33), every nail II (39) of inserting all inclines to set up, fixedly connected with compression spring III between nail II (39) of inserting and extrusion piece (33).

8. The preparation process of the natural antioxidant skin moisturizer according to claim 3, which is characterized by comprising the following steps of: the device support (40) is provided with a control mechanism (50) for driving the material changing mechanism (10) to intermittently slide.

9. The preparation process of the natural antioxidant skin moisturizer according to claim 8, wherein the natural antioxidant skin moisturizer is characterized in that: fixedly connected with telescopic machanism II (60) is gone up in device support (40), and two telescopic machanisms III (70) of fixedly connected with are gone up in device support (40), and the equal fixedly connected with sensor (80) of the flexible end of two telescopic machanism III (70), and two sensor (80) are connected with telescopic machanism II (60) and extrusion mechanism (30) respectively.

10. The natural antioxidant skin moisturizer prepared by the preparation process of the natural antioxidant skin moisturizer according to claim 1, which is characterized in that: the natural antioxidant skin care lotion comprises the following components in percentage by weight: 12-15 parts of rosemary leaf oil; 6 to 10 parts of hydrolyzed glycosaminoglycans; 2.5 to 5 parts of grape seed extract; 3-5 parts of tea polyphenol extract; 2-3 parts of menthol; 60-70 parts of deionized water; 5 to 10 parts of aloe extract.

Technical Field

The invention relates to the field of skin care lotion preparation, in particular to natural antioxidant skin care lotion and a preparation process thereof.

Background

The plant extract is a substance extracted or processed from all or a part of plants by adopting a proper solvent or method, and can be used in the pharmaceutical industry, the food industry, the daily chemical industry and other industries; in the prior art, a cosmetic plant extract preparation process uses a cosmetic plant extract preparation device, and the cosmetic plant extract preparation device comprises a tank body, a top cover, a bottom cover, a motor assembly, a stirring mechanism and a cleaning mechanism; the cosmetic plant extract preparation device can be divided into a stirring stage and a cleaning stage in the using process, the detachable design of the stirring mechanism and the cleaning mechanism is convenient for switching the cosmetic plant extract preparation device, and the first stirring sheet can be used for horizontally stirring various plant extract solvents in the tank body in the stirring process; the prior art has the disadvantage that the liquid in the plant can not be extracted quickly and effectively.

Disclosure of Invention

The invention aims to provide natural antioxidant skin moisturizer and a preparation process thereof, which can quickly and effectively extract liquid in plants.

The purpose of the invention is realized by the following technical scheme:

a preparation process of natural antioxidant skin lotion comprises the following steps:

the method comprises the following steps: placing raw materials to be processed in a material changing mechanism of a natural antioxidant skin lotion preparation device;

step two: the extrusion mechanism carries out reciprocating extrusion on the raw materials on the material replacing mechanism in the extracting bracket;

step three: the liquid in the raw materials on the material changing mechanism is extruded.

A natural antioxidant skin moisturizer preparation device comprises a refueling mechanism, an extraction support, an extrusion mechanism, a device support, a control mechanism, a telescopic mechanism II, a telescopic mechanism III and a sensor;

the reloading mechanism comprises reloading supports, racks, loading supports, loading trays, extrusion grooves and inserting nails I, the racks are fixedly connected to the reloading supports, a plurality of loading supports are connected to the reloading supports in a sliding mode, compression springs I are fixedly connected between the loading supports and the reloading supports, the loading trays are placed on each loading support, a plurality of extrusion grooves are formed in each loading tray, a plurality of inserting nails I are arranged in each extrusion groove, each inserting nail I is obliquely arranged, each inserting nail I is connected to each loading tray in a sliding mode, a compression spring II is fixedly connected between each inserting nail I and each loading tray, and the reloading supports are connected to the device supports in a sliding mode;

the extraction bracket comprises an extraction cavity, an extraction pipeline, a one-way mechanism I and a sealing strip, the extraction cavity is fixedly connected to the device bracket, the extraction pipeline is fixedly connected to the extraction cavity, the one-way mechanism I is arranged in the extraction pipeline, and the sealing strip is arranged at the bottom of the extraction cavity;

the extrusion mechanism comprises a telescopic mechanism I, an extrusion top plate, extrusion blocks, a communicating cavity, a liquid outlet hole I, a liquid outlet hole II, a water inlet pipe, a one-way mechanism II and an insert nail II, the telescopic mechanism I is fixedly connected on the extraction cavity, the extrusion top plate is slidably connected in the extraction cavity, the extrusion top plate is fixedly connected on the telescopic end of the telescopic mechanism I, a plurality of extrusion blocks are fixedly connected on the extrusion top plate, the communicating cavity is arranged on each extrusion block, a plurality of liquid outlet holes I are arranged on each extrusion block, a plurality of liquid outlet holes II are arranged on each extrusion block, the liquid outlet holes II are respectively communicated with the liquid outlet holes I, a plurality of water inlet pipes are fixedly connected on the extrusion top plate, the one-way mechanism II is arranged in each water inlet pipe, the water inlet pipes are respectively communicated with the communicating cavities, a plurality of insert nails II are respectively slidably connected on each extrusion block, and each insert nail II is obliquely arranged, the inclination directions of the plug pins II and the plug pins I are the same, compression springs III are fixedly connected between the plug pins II and the extrusion blocks, and the liquid outlet holes I are communicated with the corresponding communication cavities;

the control mechanism comprises two control shafts, a tooth-missing gear, a control cam I and a control cam II, the two control shafts are in transmission connection, the two control shafts are rotationally connected to the device support, one control shaft is provided with a power mechanism for driving the control shaft to rotate, the power mechanism is preferably a servo motor, the two control shafts are fixedly connected with the tooth-missing gear, the tooth-missing gear is in meshing transmission with a rack, and the two control shafts are respectively and fixedly connected with the control cam I and the control cam II;

fixedly connected with telescopic machanism II on the device support, two telescopic machanism III of fixedly connected with on the device support, the equal fixedly connected with sensor of the flexible end of two telescopic machanism III, two sensors can contact with control cam I and control cam II respectively, and two sensors are connected with telescopic machanism II and telescopic machanism I respectively.

The natural antioxidant skin care lotion comprises the following components in parts by weight: 12-15 parts of rosemary leaf oil; 6 to 10 parts of hydrolyzed glycosaminoglycans; 2.5 to 5 parts of grape seed extract; 3-5 parts of tea polyphenol extract; 2-3 parts of menthol; 60-70 parts of deionized water; 5 to 10 parts of aloe extract.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a preparation process of natural antioxidant skin lotion of the present invention;

FIG. 2 is a schematic structural view of the refueling mechanism of the present invention;

FIG. 3 is a schematic structural view of the refueling mechanism of the present invention;

FIG. 4 is a schematic structural view of the refueling mechanism of the present invention;

FIG. 5 is a schematic view of an extraction scaffold of the present invention;

FIG. 6 is a schematic view of an extraction scaffold of the present invention;

FIG. 7 is a schematic view of the pressing mechanism of the present invention;

FIG. 8 is a schematic view of the pressing mechanism of the present invention;

FIG. 9 is a schematic view of the pressing mechanism of the present invention;

FIG. 10 is a schematic view of the pressing mechanism of the present invention;

FIG. 11 is a schematic view of the pressing mechanism of the present invention;

FIG. 12 is a schematic structural diagram of a natural antioxidant skin lotion preparation device according to the present invention;

FIG. 13 is a schematic structural diagram of a natural antioxidant skin lotion preparation device according to the present invention;

fig. 14 is a schematic structural view of the control mechanism of the present invention.

In the figure: a material changing mechanism 10; a refueling rack 11; a rack 12; a feeding support 13; a loading tray 14; an extrusion groove 15; the plug pins I16; extracting the stent 20; an extraction chamber 21; an extraction duct 22; a one-way mechanism I23; a sealing strip 24; an extrusion mechanism 30; a telescoping mechanism I31; a squeeze board 32; the extrusion block 33; a communication chamber 34; a liquid outlet I35; a liquid outlet II 36; a water inlet pipe 37; a one-way mechanism II 38; inserting a nail II 39; a device holder 40; a control mechanism 50; a control shaft 51; a missing-tooth gear 52; a control cam I53; a control cam II 54; a telescoping mechanism II 60; a telescoping mechanism III 70; a sensor 80.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A preparation process of natural antioxidant skin lotion comprises the following steps:

the method comprises the following steps: placing the raw materials to be processed in a material changing mechanism 10 of the natural antioxidant skin lotion preparation device;

step two: the extrusion mechanism 30 performs reciprocating extrusion on the raw materials on the material changing mechanism 10 in the extraction bracket 20;

step three: the liquid in the stock material on the mechanism 10 is squeezed out.

The natural antioxidant skin care lotion comprises the following components in parts by weight: 12-15 parts of rosemary leaf oil; 6 to 10 parts of hydrolyzed glycosaminoglycans; 2.5 to 5 parts of grape seed extract; 3-5 parts of tea polyphenol extract; 2-3 parts of menthol; 60-70 parts of deionized water; 5 to 10 parts of aloe extract.

In order to solve the technical problem of how to quickly and effectively extract the liquid in the plant, the structure and the function of a natural antioxidant skin lotion preparation device are explained in detail below, and the natural antioxidant skin lotion preparation device comprises a material changing mechanism 10, an extraction bracket 20, an extrusion mechanism 30, a device bracket 40, a control mechanism 50, a telescopic mechanism II 60, a telescopic mechanism III 70 and a sensor 80;

when the device is used, a raw material to be processed is placed on the material changing mechanism 10, the control mechanism 50 drives the material changing mechanism 10 to slide intermittently on the device support 40, meanwhile, after the control mechanism 50 drives the material changing mechanism 10 to move to a specified position, the control mechanism 50 controls the telescopic mechanism II 60 to move, the telescopic mechanism II 60 pushes the material changing mechanism 10 to move upwards, the material changing mechanism 10 moves into the extraction support 20, the control mechanism 50 controls the extrusion mechanism 30 to move in a reciprocating mode, the extrusion mechanism 30 performs reciprocating extrusion on the raw material in the material changing mechanism 10, and a dissolving liquid is repeatedly introduced into the raw material to enable the liquid in the raw material to flow out;

the structure and the function of the refueling mechanism 10 are explained in detail below, the refueling mechanism 10 comprises a refueling support 11, a rack 12, feeding supports 13, feeding trays 14, extrusion grooves 15 and plug pins I16, the rack 12 is fixedly connected to the refueling support 11, the plurality of feeding supports 13 are slidably connected to the refueling support 11, a compression spring I is fixedly connected between the feeding supports 13 and the refueling support 11, each feeding support 13 is provided with a feeding tray 14, each feeding tray 14 is provided with a plurality of extrusion grooves 15, a plurality of plug pins I16 are arranged in each extrusion groove 15, each plug pin I16 is obliquely arranged, each plug pin I16 is slidably connected to the feeding tray 14, a compression spring II is fixedly connected between each plug pin I16 and the feeding tray 14, and the refueling support 11 is slidably connected to a device support 40;

as shown in fig. 2 to 4, a raw material to be processed is placed in the extrusion groove 15, after the control mechanism 50 drives the feeding tray 14 to move to the lower end of the extraction cavity 21, the telescopic mechanism ii 60 is started, the telescopic mechanism ii 60 may be a hydraulic cylinder or an electric push rod, the telescopic end of the telescopic mechanism ii 60 pushes the feeding tray 14 to move upwards, so that the feeding tray 14 slides into the extraction cavity 21, the extrusion mechanism 30 is started, and the extrusion mechanism 30 reciprocates up and down to extrude and extract the raw material in the feeding tray 14;

furthermore, a plurality of inserting pins I16 are arranged in each extrusion groove 15, as shown in fig. 4, each inserting pin I16 is obliquely arranged, a compression spring II is fixedly connected between each inserting pin I16 and the material tray 14, after the raw material is placed in the extrusion groove 15, each inserting pin I16 can be slightly inserted into the raw material under the action of gravity, and meanwhile, when the extrusion mechanism 30 extrudes the material loading tray 14, a plurality of inserting pins II 39 on the extrusion mechanism 30 are also inserted into the raw material, when the inserting pins I16 and the inserting pins II 39 are separated, the inserting pins I16 and the inserting pins II 39 can tear the raw material and tear the raw material along the fiber direction of the raw material, and further when the extrusion mechanism 30 is far away from injecting the dissolving liquid between the extrusion mechanism 30 and the material loading tray 14, the dissolving liquid is more contacted with the interior of the raw material, so that the extraction rate of the raw material is further improved;

the structure and function of the extraction bracket 20 will be described in detail, the extraction bracket 20 includes an extraction cavity 21, an extraction pipe 22, a one-way mechanism i 23 and a sealing strip 24, the extraction cavity 21 is fixedly connected to the device bracket 40, the extraction pipe 22 is fixedly connected to the extraction cavity 21, the one-way mechanism i 23 is arranged in the extraction pipe 22, and the sealing strip 24 is arranged at the bottom of the extraction cavity 21;

as shown in fig. 5 and 6, the one-way mechanism i 23 arranged in the extraction pipe 22 ensures that the liquid can only flow out of the extraction cavity 21 and cannot flow into the extraction cavity 21 from the extraction pipe 22, and when the feeding support 13 moves upwards, the sealing strip 24 seals the side of the feeding support 13 to ensure that the liquid cannot flow out of the side of the feeding support 13, and the sealing strip 24 can be arranged according to the conventional means of those skilled in the art, and does not need to be arranged in the shape shown in fig. 5 as long as the requirement is met;

the structure and function of the extruding mechanism 30 will be explained in detail below, the extruding mechanism 30 includes a telescoping mechanism I31, an extruding top plate 32, an extruding block 33, a communicating cavity 34, a liquid outlet hole I35, a liquid outlet hole II 36, a water inlet pipe 37, a one-way mechanism II 38 and a nail II 39, the telescoping mechanism I31 is fixedly connected to the extracting cavity 21, the extruding top plate 32 is slidably connected to the extracting cavity 21, the telescoping end of the telescoping mechanism I31 is fixedly connected to the extruding top plate 32, the extruding top plate 32 is fixedly connected to a plurality of extruding blocks 33, each extruding block 33 is provided with the communicating cavity 34, each extruding block 33 is provided with a plurality of liquid outlet holes I35, each extruding block 33 is provided with a plurality of liquid outlet holes II 36, the plurality of liquid outlet holes II 36 are respectively communicated with the plurality of liquid outlet holes I35, the extruding top plate 32 is fixedly connected to a plurality of water inlet pipes 37, each water inlet pipe 37 is provided with the one-way mechanism II 38, the plurality of water inlet pipes 37 are respectively communicated with the plurality of communicating cavities 34, a plurality of inserting nails II 39 are slidably connected to each extrusion block 33, each inserting nail II 39 is obliquely arranged, the oblique directions of the inserting nail II 39 and the inserting nail I16 are the same, a compression spring III is fixedly connected between the inserting nail II 39 and the extrusion block 33, and the plurality of liquid outlet holes I35 are respectively communicated with the corresponding communicating cavities 34;

as shown in fig. 7 to 11, after the feeding support 13 slides into the extraction cavity 21, the telescoping mechanism i 31 is started, the telescoping mechanism i 31 may be a hydraulic cylinder or an electric push rod, the telescoping end of the telescoping mechanism i 31 reciprocates, and when the telescoping end of the telescoping mechanism i 31 moves downward, the telescoping end of the telescoping mechanism i 31 drives the extrusion top plate 32 to move downward, the extrusion top plate 32 drives the extrusion blocks 33 to move downward, the extrusion blocks 33 are respectively inserted into the extrusion grooves 15, the extrusion blocks 33 respectively drive the insertion pins ii 39 to move downward, the extrusion blocks 33 respectively extrude the raw materials in the extrusion grooves 15, the liquid in the raw materials is preliminarily extruded into the liquid outlet holes ii 36, the liquid outlet holes i 35 and the communication cavities 34, when the extrusion blocks 33 are far away from the extrusion grooves 15, the surface of the raw materials is preliminarily extruded and damaged, therefore, the raw materials are not hard any more, the plurality of plug pins II 39 and the plurality of plug pins I16 are inserted into the raw materials under the action of the compression springs III and II, when the plurality of extrusion blocks 33 are further away, the raw materials are torn by the plurality of plug pins II 39 and the plurality of plug pins I16, meanwhile, when the plurality of extrusion blocks 33 move upwards, a pipeline of a dissolving solution is connected to the plurality of water inlet pipes 37 in advance, when the extrusion top plate 32 moves upwards, the pressure between the extrusion top plate 32 and the feeding support 13 is increased, the one-way mechanism II 38 is opened, the one-way mechanism II 38 controls the dissolving solution to only flow into the communication cavity 34 from the outside, the dissolving solution is gradually introduced into the communication cavity 34, the dissolving solution is gradually introduced into the plurality of liquid outlet holes I35 and the plurality of liquid outlet holes II 36, the dissolving solution is in full contact with the torn raw materials, the torn part of the raw materials is impacted when the solution enters, the extracting solution in the raw materials is fully dissolved, when the telescopic end of the telescopic mechanism I31 moves downwards again, the extrusion block 33 extrudes the raw materials, liquid between the extrusion top plate 32 and the feeding support 13 is extruded out from the extraction pipeline 22, extraction of the raw material liquid is completed, the telescopic end of the telescopic mechanism I31 reciprocates for multiple times, the raw materials are repeatedly torn, and extracts in the raw materials are all extracted by repeated impact of the dissolving liquid;

the structure and function of the control mechanism 50 will be described in detail below, the control mechanism 50 includes two control shafts 51, two gear-lacking gears 52, a control cam i 53 and a control cam ii 54, the two control shafts 51 are in transmission connection, the two control shafts 51 are both rotatably connected to the device bracket 40, one of the control shafts 51 is provided with a power mechanism which drives the control shaft to rotate, the power mechanism is preferably a servo motor, the two control shafts 51 are both fixedly connected with the gear-lacking gears 52, the gear-lacking gears 52 are in meshing transmission with the rack 12, and the two control shafts 51 are respectively and fixedly connected with the control cam i 53 and the control cam ii 54;

in order to further control the cyclic motion of the device, a control mechanism 50 is arranged, a power mechanism is started, an output shaft of the power mechanism drives two control shafts 51 to rotate, the two control shafts 51 drive a gear with missing teeth 52 to rotate, the gear with missing teeth 52 drives a rack 12 to move, so that the rack 12 drives the material changing mechanism 10 to slide on the device support 40, and meanwhile, after the gear with missing teeth 52 and the rack 12 are disengaged, a control cam I53 and a control cam II 54 are sequentially contacted with two sensors 80, and a telescopic mechanism II 60 and an extrusion mechanism 30 are controlled to move;

the following is a detailed description of the structures and functions of the telescopic mechanisms III 70 and the sensors 80, wherein a telescopic mechanism II 60 is fixedly connected to the device support 40, two telescopic mechanisms III 70 are fixedly connected to the device support 40, the telescopic ends of the two telescopic mechanisms III 70 are fixedly connected with the sensors 80, the two sensors 80 can be respectively contacted with the control cam I53 and the control cam II 54, and the two sensors 80 are respectively connected with the telescopic mechanisms II 60 and the telescopic mechanisms I31;

the sensor 80 can be a contact sensor or a pressing sensor, as shown in fig. 14, the radian of the control cam i 53 is larger than that of the control cam ii 54, the control cam i 53 is firstly contacted with the sensor 80, the sensor 80 is connected with the telescopic mechanism ii 60 by a technical means which is customary to those skilled in the art, namely, after the material changing mechanism 10 moves to a specified position, the telescopic mechanism ii 60 pushes the feeding support 13 to move upwards, so that the feeding support 13 enters the extraction cavity 21, the telescopic end of the telescopic mechanism ii 60 extends all the time in a period that the control cam i 53 presses the sensor 80, then the control cam ii 54 is contacted with another sensor 80, the sensor 80 is connected with the telescopic mechanism i 31 by a technical means which is customary to those skilled in the art, namely, after the feeding support 13 moves to a specified position, the sensor 80 controls the telescopic end of the telescopic mechanism i 31 to reciprocate, the raw material extraction is completed, so that the control mechanism 50 controls the material changing mechanism 10, the extrusion mechanism 30 and the telescopic mechanism II 60 to move in a matched mode, and the processing of the raw materials in the plurality of feeding supports 13 on the material changing mechanism 10 is completed.