CN115193520B

CN115193520B - Method for extracting anti-aging essence raw materials

Info

Publication number: CN115193520B
Application number: CN202210903775.4A
Authority: CN
Inventors: 贾红娟; 张娟珍
Original assignee: Individual
Current assignee: Henan Zhongke Stem Cell Genetic Engineering Co ltd
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2024-03-01
Anticipated expiration: 2042-07-28
Also published as: CN115193520A

Abstract

The invention belongs to the technical field of traditional Chinese medicine cosmetics, and particularly relates to an anti-aging essence raw material extraction method, which comprises a box body, wherein a feeding funnel is arranged on the upper side of the box body, a preliminary grinding group is arranged on the upper side of the inside of the box body, a multiple grinding group is arranged on the lower side of the inside of the box body, a cylinder is arranged on the lower side of the box body, a storage box is arranged on the lower side of the cylinder, a first conical cylinder is arranged in the cylinder, a rotating sleeve is arranged in the first conical cylinder in a sliding manner, and a conical block is fixedly arranged on the upper end of the rotating sleeve. According to the invention, the first conical barrel is used for placing essence solution for standing and layering, and the rotary sleeve and the conical block are used for classifying and storing layering solution; the raw materials are subjected to shaking falling through the preliminary grinding group, so that the raw materials are uniformly shaken to fall, and the raw materials are ground conveniently; the raw materials are ground for multiple times through the multiple grinding groups, so that essence in the raw materials can be soaked and extracted through soaking in the follow-up process.

Description

Method for extracting anti-aging essence raw materials

Technical Field

The invention belongs to the technical field of traditional Chinese medicine cosmetics, and particularly relates to an anti-aging essence raw material extraction method.

Background

The anti-aging essence is one of skin care products, contains precious functional components such as plant extracts, ceramide, squalane and the like, and has the functions of anti-aging, anti-wrinkle, moisturizing, whitening, freckle removing and the like. The anti-aging essence raw material part is extracted from natural plants, and the existing raw material extraction device has different anti-aging essence concentration qualities extracted from raw materials, and some anti-aging essences are insufficient or too thick, so that the absorption effect of a user is affected.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides an anti-aging essence raw material extraction method capable of effectively extracting proper concentration and reasonably utilizing resources, which can be realized by the following technical scheme: the utility model provides an anti-aging essence raw materials draws equipment, includes the box, the box upside is equipped with feed hopper, the inside upside of box is equipped with preliminary grinding group, the inside downside of box is equipped with multiple grinding group, the box downside is equipped with the drum, the drum downside is equipped with the storage box, be equipped with first toper section of thick bamboo in the drum, it rotates the sleeve to slide in the first toper section of thick bamboo, it sets firmly the toper piece to rotate the sleeve upper end, be equipped with the collecting channel in the toper piece, first toper section of thick bamboo one side is equipped with a plurality of filtration pores, first toper section of thick bamboo opposite side is equipped with the through-hole.

The primary grinding group is used for performing primary grinding function while shaking and falling of raw materials; the multiple grinding group is used for grinding the raw materials for multiple times into powder and discharging; the first cone is used for placing essence solution and standing for layering, and the rotating sleeve and the cone blocks are used for classifying and storing layering solution so as to extract proper concentration and reasonably utilize resources.

Preferably, both sides of the conical block are provided with semicircular plates, and a water inlet groove is arranged below the rear sides of the semicircular plates. The water inlet groove is used for allowing solution at the lower side of the conical block to enter, so that the semicircular plate can be extruded and slide out, and the subsequent layering treatment of the solution can be facilitated.

Preferably, a filter plate is arranged between the plurality of filter holes, the filter plate slides in the first conical barrel, and an inlet is arranged on the inclined lower side of the filter plate. Wherein, the initial position of the hole on the filter plate is misplaced with a plurality of filter holes so as to block the plurality of filter holes; the solution is pushed up through the inlet to slide the filter plate so that the holes in the filter plate align with the plurality of filter holes to facilitate outflow of the solution.

Preferably, the fixed block is fixedly arranged on the upper side inside the storage box, the rotating sleeve slides in the through hole of the fixed block, the internal thread ring is rotationally arranged in the fixed block, the internal thread ring is in threaded contact with the rotating sleeve in a rotating connection mode, a motor is arranged on one side inside the fixed block, a conveying wheel is arranged at the output end of the motor, and the conveying wheel is in conveying connection with the internal thread ring.

Preferably, a plurality of protruding blocks are arranged on the circumferential outer side of the rotating sleeve, and clamping grooves which are in one-to-one correspondence with the protruding blocks are arranged on the first conical cylinder; and a baffle plate is arranged in the through hole in a sliding manner.

Preferably, a first collecting box is arranged below one side of the fixed block and is communicated with the inside of the cylinder, and the first collecting box is positioned below the plurality of filtering holes; a second collecting box is arranged below the fixed block and is positioned below the collecting channel; a third collecting box is arranged below the other side of the fixed block and is positioned below the through hole.

Preferably, the preliminary grinding group comprises a rotating plate, the rotating plate is located inside the box of feed hopper below, rotating plate slope top is equipped with the column, rotating plate slope below is equipped with the cylinder, the column rotates in the box and connects, the cylinder sliding connection in the box, the cylinder below is equipped with two axis of rotation, two axis of rotation circumference outside all overlap and are equipped with oval post, oval post rotation of cylinder below drives the cylinder and slides from top to bottom in the box, the axis of rotation passes through the motor and drives the rotation, drive through the conveyer belt between two axes of rotation and rotate together.

Preferably, the solution box is arranged below the rotating plate, a pressing cavity is arranged on one side of the interior of the solution box, a solution cavity is arranged on the other side of the interior of the solution box, a one-way valve is connected between the solution box and the solution cavity, a T-shaped block is arranged in the pressing cavity in a sliding mode, and the upper end of the T-shaped block extends out of the solution box and is in contact with the rotating plate.

Preferably, the multiple grinding group comprises a second conical cylinder, the second conical cylinder is positioned below the preliminary grinding group, a blanking funnel is arranged on the upper side of the second conical cylinder, a conical rotating cylinder is arranged in the second conical cylinder, an electric cylinder is arranged below the conical rotating cylinder, the output end of the electric cylinder is connected with the conical rotating cylinder, a plurality of filtering holes are formed in the circumferential outer side of the second conical cylinder, a plurality of blocking preventing blocks are arranged in the circumferential outer side of the conical rotating cylinder, and a sliding block is arranged in the circumferential outer side of the conical rotating cylinder in a sliding manner; two guide plates are arranged on two sides of the second conical cylinder, the box body is connected with the inside of the cylinder, and the cylinder is connected with the inside of the storage box.

Preferably, an anti-aging essence raw material extraction method for an anti-aging essence raw material by an anti-aging essence raw material extraction device comprises the following steps:

s1, feeding, wherein a worker puts anti-aging essence raw materials into the box body through the feeding hopper, and the raw materials entering the box body fall to the upper side of the rotating plate.

S2, preliminary grinding, wherein the two elliptic columns are driven to rotate by a motor, the elliptic columns rotate to drive the rotating plate to shake, and raw material shake is moved downwards to a position between the two elliptic columns for preliminary grinding.

S3: soaking, shaking the rotating plate, extruding and spraying the solution in the pressing cavity into a blanking funnel by extruding the T-shaped block, and guiding the solution into a conical rotating cylinder through the blanking funnel; the raw materials after preliminary grinding fall into the blanking funnel, the raw materials are guided to fall into the conical rotating cylinder through the guiding of the blanking funnel, and the solution is mixed with the raw materials for soaking.

S4: multiple grinding, the electric cylinder starts to drive the conical rotating cylinder to rotate, the conical rotating cylinder rotates to move the raw materials and the solution obliquely upwards into the second conical cylinder, and the raw materials are subjected to multiple grinding through the rotation of the conical rotating cylinder and the fixation of the conical rotating cylinder and the second conical cylinder.

S5: the method comprises the steps of preliminary treatment, standing and layering of solution in a first conical barrel, wherein the bottom layer is raw material particles, the middle layer is solution with higher concentration, the upper layer is solution with lower concentration, a motor is started to drive a rotating sleeve to rotate to move downwards through rotation of an internal thread ring, the rotating sleeve moves downwards to drive a conical block to move downwards, the solution enters into the solution on the upper layer, the solution on the upper layer moves downwards to a second collecting box through a collecting channel, and the upper layer is recovered.

S6: classifying and storing, namely, the conical block moves downwards to extrude the middle layer solution at the lower side of the conical block into the water inlet tank to slide out the semicircular plates at the two sides, the conical block moves downwards to match the two semicircular plates to extrude the solution, the filter plate is extruded upwards in an inclined way to slide, the holes on the filter plate are aligned with the plurality of filter holes, and the solution in the first conical cylinder flows downwards to the first collecting tank for storage through the plurality of filter holes; the filter slides downwards and resets, rotates the sleeve and rotates downwards and drive first toper section of thick bamboo through lug and draw-in groove screens cooperation and rotate, baffle slope upwards moves, and the through-hole is opened, and the raw materials granule in the first toper section of thick bamboo enters into the third collection box through the through-hole and stores.

And S7, mixing, namely taking out the second collecting box and the first collecting box in the storage box to mix the second collecting box and the first collecting box into anti-aging essence with proper concentration so as to be convenient for a user to absorb.

The beneficial effects are that: 1. the first conical barrel is used for placing essence solution for standing and layering, and the rotary sleeve and the conical block are used for classifying and storing layering solution so as to extract proper concentration and reasonably utilize resources.

2. The raw materials are subjected to shaking falling through the preliminary grinding group, so that the raw materials are uniformly shaken to fall, and the raw materials are ground conveniently.

3. The raw materials are ground for multiple times through the multiple grinding groups, so that essence in the raw materials can be soaked and extracted through soaking in the follow-up process.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic view of an isometric structure of the present invention.

Fig. 2 is a schematic top view of the present invention.

FIG. 3 is a schematic cross-sectional view of the structure at A-A in FIG. 2.

Fig. 4 is a partially enlarged structural schematic diagram at C in fig. 3.

Fig. 5 is a schematic view of the structure of fig. 3 at D in a partially enlarged form.

FIG. 6 is a schematic cross-sectional view of the structure at B-B in FIG. 2.

Fig. 7 is a schematic diagram of the structure of the partial enlarged view at E in fig. 6.

Fig. 8 is a schematic view of the structure of the partial enlarged view at F in fig. 6.

Fig. 9 is a partially enlarged view of the structure of fig. 6 at G.

In the figure, a tank 10, a cylinder 11, a filter hole 12, a storage tank 13, a feed hopper 14, a preliminary grinding group 15, a multiple grinding group 16, a first cone-shaped cylinder 17, a rotating sleeve 18, a cone-shaped block 19, a filter hole 20, a filter plate 21, a through hole 22, a baffle plate 23, a water inlet tank 24, a semicircular plate 25, a collecting channel 26, a projection 27, a fixed block 28, a motor 29, a transfer wheel 30, an internally threaded ring 31, a rotating shaft 32, an elliptic column 33, a rotating plate 34, a cylinder 35, a rotating column 36, a second cone-shaped cylinder 37, a cone-shaped rotating cylinder 38, a feed hopper 39, a solution tank 40, a solution chamber 41, a T-shaped block 42, a slider 43, an anti-blocking block 44, an electric cylinder 45, a ring 46, a guide plate 47, a first collecting tank 48, a second collecting tank 49, a third collecting tank 50, an inlet 51, a clamping groove 52, and a pressing chamber 53.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1 to 9, an anti-aging essence raw material extraction apparatus comprises a box 10, a feed hopper 14 is arranged on the upper side of the box 10, a preliminary grinding set 15 is arranged on the upper side inside the box 10, a multiple grinding set 16 is arranged on the lower side inside the box 10, a cylinder 11 is arranged on the lower side of the box 10, a storage box 13 is arranged on the lower side of the cylinder 11, a first conical cylinder 17 is arranged in the cylinder 11, a rotating sleeve 18 is arranged in the first conical cylinder 17 in a sliding manner, a conical block 19 is fixedly arranged on the upper end of the rotating sleeve 18, a collecting channel 26 is arranged in the conical block 19, a plurality of filtering holes 20 are formed in one side of the first conical cylinder 17, and a through hole 22 is formed in the other side of the first conical cylinder 17.

Further, referring to fig. 1 to 9, semicircular plates 25 are provided on both sides of the tapered block 19, and a water inlet groove 24 is provided below the rear side of each semicircular plate 25.

Further, referring to fig. 1 to 9, a filter plate 21 is provided between the plurality of filter holes 20, the filter plate 21 slides in the first cone 17, and an inlet 51 is provided on the inclined lower side of the filter plate 21.

Further, referring to fig. 1 to 9, a fixed block 28 is fixed on the upper side of the inside of the storage box 13, the rotating sleeve 18 slides in a through hole of the fixed block 28, an internal thread ring 31 is rotationally arranged in the fixed block 28, the internal thread ring 31 is in threaded contact with the rotating sleeve 18 in a rotating connection mode, a motor 29 is arranged on one side of the inside of the fixed block 28, a transmission wheel 30 is arranged at the output end of the motor 29, and the transmission wheel 30 is in transmission connection with the internal thread ring 31.

Further, referring to fig. 1 to 9, a plurality of protruding blocks 27 are arranged on the circumferential outer side of the rotating sleeve 18, and the first conical barrel 17 is provided with clamping grooves 52 corresponding to the protruding blocks 27 one by one; a baffle 23 is slidably provided in the through hole 22.

Further, referring to fig. 1 to 9, a first collecting tank 48 is provided below one side of the fixed block 28, the first collecting tank 48 is communicated with the inside of the cylinder 11, and the first collecting tank 48 is located below the plurality of filter holes 20; a second collecting box 49 is arranged below the fixed block 28, and the second collecting box 49 is positioned below the collecting channel 26; a third collection box 50 is provided below the other side of the fixed block 28, the third collection box 50 being located below the through hole 22.

Further, referring to fig. 1 to 9, the preliminary grinding unit 15 includes a rotating plate 34, the rotating plate 34 is located inside the case 10 below the feed hopper 14, a rotating column 36 is disposed above the rotating plate 34 in an inclined manner, a cylinder 35 is disposed below the rotating plate 34 in an inclined manner, the rotating column 36 is rotatably connected in the case 10, the cylinder 35 is slidably connected in the case 10, two rotating shafts 32 are disposed below the cylinder 35, oval columns 33 are respectively sleeved on the outer sides of the two rotating shafts 32 in the circumferential direction, the oval columns 33 below the cylinder 35 are rotated to drive the cylinder 35 to slide up and down in the case 10, the rotating shafts 32 are driven to rotate by a motor, and the two rotating shafts 32 are driven to rotate together by a conveyor belt.

Further, referring to fig. 1-9, a solution tank 40 is arranged below the rotating plate 34, a pressing cavity 53 is arranged on one side of the interior of the solution tank 40, a solution cavity 41 is arranged on the other side of the interior of the solution tank 40, a one-way valve is connected between the solution tank 40 and the solution cavity 41, a T-shaped block 42 is arranged in the pressing cavity 53 in a sliding manner, and the upper end of the T-shaped block 42 extends out of the solution tank 40 to contact with the rotating plate 34.

Further, referring to fig. 1-9, the multiple grinding set 16 includes a second conical cylinder 37, the second conical cylinder 37 is located below the preliminary grinding set 15, a blanking funnel 39 is disposed on the upper side of the second conical cylinder 37, a conical rotating cylinder 38 is disposed in the second conical cylinder 37, an electric cylinder 45 is disposed below the conical rotating cylinder 38, an output end of the electric cylinder 45 is connected with the conical rotating cylinder 38, a plurality of filtering holes 12 are disposed on the peripheral outer side of the second conical cylinder 37, a plurality of blocking preventing blocks 44 are disposed on the peripheral outer side of the conical rotating cylinder 38, and a sliding block 43 is slidably disposed on the peripheral outer side of the conical rotating cylinder 38; two guide plates 47 are arranged on two sides of the second conical cylinder 37, the box body 10 is connected with the inside of the cylinder 11, and the cylinder 11 is connected with the inside of the storage box 13.

Further, referring to fig. 1 to 9, an anti-aging essence raw material extraction method for an anti-aging essence raw material by an anti-aging essence raw material extraction apparatus includes the steps of:

and S1, feeding, wherein a worker puts anti-aging essence raw materials into the box body 10 through the feeding hopper 14, and the raw materials enter the box body 10 and fall to the upper side of the rotating plate 34.

S2, preliminary grinding, wherein the two rotating shafts 32 are driven to rotate by a motor, the rotating shafts 32 are driven to rotate by an oval column 33, the oval column 33 is driven to rotate by the rotation of the oval column 35 to move up and down in the box 10, the column 35 is driven to move up and down to shake a rotating plate 34 around a rotating column 36, the shaking of the rotating plate 34 moves the raw material on the rotating plate 34 obliquely downwards between the two oval columns 33, and the raw material is subjected to preliminary grinding by the rotation of the two oval columns 33.

S3: soaking, namely, shaking the rotating plate 34, extruding and spraying the solution in the pressing cavity 53 into the blanking funnel 39 through extrusion of the T-shaped block 42, and guiding the solution into the conical rotating cylinder 38 through the blanking funnel 39; the raw materials after preliminary grinding fall into a blanking funnel 39, the raw materials are guided to fall into a conical rotating cylinder 38 through the guiding of the blanking funnel 39, and the solution is mixed with the raw materials for soaking.

S4: multiple grinding, the electric cylinder 45 starts to drive the conical rotating cylinder 38 to rotate, the conical rotating cylinder 38 rotates to enable raw materials and solution in the conical rotating cylinder 38 to move upwards to the second conical cylinder 37 in an inclined mode through the inclined surface of the conical rotating cylinder 38, the solution filters and falls into the first conical cylinder 17 through a plurality of filter holes 12 on the second conical cylinder 37, the raw materials move into the second conical cylinder 37, the conical rotating cylinder 38 rotates to drive the sliding block 43 to move upwards on the conical rotating cylinder 38 in an inclined mode to match with the second conical cylinder 37 to fix the raw materials in the second conical cylinder 37, the raw materials ground into small particles fall into the first conical cylinder 17 through the filter holes 12, and the conical rotating cylinder 38 rotates to drive the anti-blocking block 44 to slide out to dredge the filter holes 12, so that the filter holes 12 are prevented from being blocked.

S5: the solution in the first conical cylinder 17 is placed still for layering, the bottom layer is raw material particles, the middle layer is solution with higher concentration, the upper layer is solution with lower concentration, a plurality of filter holes 20 are staggered with the upper holes of the filter plates 21, the filter holes 20 are blocked by the filter plates 21, and the through holes 22 are blocked by the baffle plates 23; the motor 29 starts to drive the transmission wheel 30 to rotate, the transmission wheel 30 rotates to drive the internal thread ring 31 to rotate, the internal thread ring 31 rotates to drive the rotating sleeve 18 to rotate to move downwards, the rotating sleeve 18 moves downwards to drive the conical block 19 to move downwards, the conical block 19 moves downwards to squeeze the solution at the lower side of the conical block 19 into the water inlet groove 24, the concentration of the solution at the upper layer is lower, the two semicircular plates 25 cannot be pushed out, the conical block 19 continues to move downwards into the solution at the upper layer, the upper layer solution moves downwards into the second collecting box 49 through the collecting channel 26, and the upper layer solution is recovered.

S6: classified storage, wherein the conical block 19 moves downwards to squeeze the middle layer solution at the lower side of the conical block 19 into the water inlet groove 24, the solution entering the water inlet groove 24 slides out the semicircular plates 25 at two sides, and the two sliding semicircular plates 25 are contacted with two sides of the first conical cylinder 17; the conical block 19 moves downwards to match with the two semicircular plates 25 to squeeze the solution, the solution is squeezed into the inlet 51 to obliquely upwards squeeze and slide the filter plate 21, the holes on the filter plate 21 are aligned with the plurality of filter holes 20, and the solution in the first conical cylinder 17 flows downwards to the first collecting box 48 through the plurality of filter holes 20 for storage; after the solution in the first conical barrel 17 is completely flowed, the filter plate 21 does not have extrusion force and slides downwards to reset, the filter plate 21 blocks the plurality of filter holes 20, the rotating sleeve 18 moves downwards to extrude raw material particles firstly, then four lugs 27 move into the clamping groove 52, the rotating sleeve 18 rotates to drive the first conical barrel 17 to rotate through the clamping fit of the lugs 27 and the clamping groove 52, the first conical barrel 17 rotates to drive the baffle plate 23 to tilt upwards in the first conical barrel 17, the through hole 22 is opened, the opening at one side of the first collecting box 48 is closed, the raw material particles in the first conical barrel 17 rotate out of the first conical barrel 17 through the through hole 22 and enter the cylinder 11, only one side of the third collecting box 50 in the cylinder 11 and the storing box 13 is opened, and the raw material particles enter the third collecting box 50 for storage.

And S7, mixing, namely taking out the second collecting box 49 and the first collecting box 48 in the storage box 13 to mix the anti-aging essence into proper concentration so as to be convenient for a user to absorb.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The utility model provides an anti-aging essence raw material extraction equipment, includes box (10), its characterized in that, box (10) upside is equipped with feed hopper (14), box (10) inside upside is equipped with preliminary grinding group (15), box (10) inside downside is equipped with multiple grinding group (16), box (10) downside is equipped with drum (11), drum (11) downside is equipped with storage box (13), be equipped with first toper section of thick bamboo (17) in drum (11), be equipped with rotating sleeve (18) in the first toper section of thick bamboo (17) sliding, rotating sleeve (18) upper end is equipped with toper piece (19), be equipped with in toper piece (19) and collect passageway (26), first toper section of thick bamboo (17) one side is equipped with a plurality of filtration pore (20), first toper section of thick bamboo (17) opposite side is equipped with through-hole (22);

both sides of the conical block (19) are provided with semicircular plates (25), and a water inlet groove (24) is arranged below the rear sides of the semicircular plates (25);

a filter plate (21) is arranged among the plurality of filter holes (20), the filter plate (21) slides in the first conical cylinder (17), and an inlet (51) is arranged on the inclined lower side of the filter plate (21);

the upper side of the inside of the storage box (13) is fixedly provided with a fixed block (28), the rotating sleeve (18) slides in a through hole of the fixed block (28), the fixed block (28) is rotationally provided with an internal thread ring (31), the internal thread ring (31) is in threaded contact with the rotating sleeve (18) in a rotating connection manner, one side of the inside of the fixed block (28) is provided with a motor (29), the output end of the motor (29) is provided with a transmission wheel (30), and the transmission wheel (30) is in transmission connection with the internal thread ring (31);

a plurality of protruding blocks (27) are arranged on the circumferential outer side of the rotary sleeve (18), and clamping grooves (52) which are in one-to-one correspondence with the protruding blocks (27) are formed in the first conical cylinder (17);

a baffle (23) is arranged in the through hole (22) in a sliding way;

a first collecting box (48) is arranged below one side of the fixed block (28), the first collecting box (48) is communicated with the inside of the cylinder (11), and the first collecting box (48) is positioned below the plurality of filtering holes (20); a second collecting box (49) is arranged below the fixed block (28), and the second collecting box (49) is positioned below the collecting channel (26);

a third collecting box (50) is arranged below the other side of the fixed block (28), and the third collecting box (50) is positioned below the through hole (22).

2. The anti-aging essence raw material extraction apparatus according to claim 1, wherein the preliminary grinding unit (15) comprises a rotating plate (34), the rotating plate (34) is located inside a box body (10) below the feeding funnel (14), a rotating column (36) is arranged above the rotating plate (34), a cylinder (35) is arranged below the rotating plate (34), the rotating column (36) is rotationally connected in the box body (10), the cylinder (35) is slidingly connected in the box body (10), two rotating shafts (32) are arranged below the cylinder (35), oval columns (33) are sleeved on the outer sides of the two rotating shafts (32), the oval columns (33) below the cylinder (35) are rotationally driven to vertically slide in the box body (10), and the rotating shafts (32) are driven to rotate by a motor, and are driven to rotate together by a conveyor belt.

3. The anti-aging essence raw material extraction device according to claim 2, wherein a solution tank (40) is arranged below the rotating plate (34), a pressing cavity (53) is arranged on one side of the interior of the solution tank (40), a solution cavity (41) is arranged on the other side of the interior of the solution tank (40), a one-way valve is connected between the solution tank (40) and the solution cavity (41), a T-shaped block (42) is arranged in the pressing cavity (53) in a sliding manner, and the upper end of the T-shaped block (42) extends out of the solution tank (40) to be in contact with the rotating plate (34);

the multiple grinding group (16) comprises a second conical barrel (37), the second conical barrel (37) is positioned below the preliminary grinding group (15), a blanking funnel (39) is arranged on the upper side of the second conical barrel (37), a conical rotating barrel (38) is arranged in the second conical barrel (37), an electric cylinder (45) is arranged below the conical rotating barrel (38), the output end of the electric cylinder (45) is connected with the conical rotating barrel (38), a plurality of filtering holes (12) are formed in the peripheral outer side of the second conical barrel (37), a plurality of anti-blocking blocks (44) are arranged in the peripheral outer side of the conical rotating barrel (38), and a sliding block (43) is arranged in the peripheral outer side of the conical rotating barrel (38) in a sliding mode;

two guide plates (47) are arranged on two sides of the second conical cylinder (37), the box body (10) is connected with the inside of the cylinder (11), and the cylinder (11) is connected with the inside of the storage box (13).

4. An anti-aging essence raw material extraction apparatus according to claim 3, characterized by comprising the steps of:

s1: feeding, wherein an operator puts anti-aging essence raw materials into the box body (10) through the feeding hopper (14), and the raw materials entering the box body (10) fall to the upper side of the rotating plate (34);

s2: preliminary grinding, namely, the raw material is moved downwards in a shaking way to be between two elliptic columns (33) for preliminary grinding;

s3: the solution in the pressing cavity (53) is guided into the conical rotating cylinder (38) through the blanking funnel (39), and the solution is mixed with the raw materials for soaking;

s4: multiple grinding, namely, multiple grinding is carried out on the raw materials through rotating the conical rotating cylinder (38) and fixing the conical rotating cylinder by matching with the second conical cylinder (37);

s5: the method comprises the steps of preliminary treatment, standing and layering of a solution in a first conical cylinder (17), wherein a bottom layer is a raw material particle, a middle layer is a solution with higher concentration, an upper layer is a solution with lower concentration, a rotating sleeve (18) moves downwards to drive a conical block (19) to move downwards, the solution enters the solution on the upper layer, the solution on the upper layer moves downwards into a second collecting box (49) through a collecting channel (26), and after the recovery of the solution on the upper layer is completed;

s6: sorting and storing, wherein the holes on the filter plate (21) are aligned with the plurality of filter holes (20), and the solution in the first conical barrel (17) flows downwards to the first collecting box (48) for storage through the plurality of filter holes (20); the through hole (22) is opened, and raw material particles in the first conical cylinder (17) enter the third collecting box (50) through the through hole (22) for storage;

s7: and mixing, namely taking out the second collecting box (49) and the first collecting box (48) in the storage box (13) to mix into anti-aging essence with proper concentration so as to be convenient for a user to absorb.