CN113880946B

CN113880946B - Yolk supernatant albumen pumping device

Info

Publication number: CN113880946B
Application number: CN202111246777.2A
Authority: CN
Inventors: 姜俊; 郭永超; 关哲
Original assignee: Houde Food Co Ltd
Current assignee: Houde Food Co Ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2023-08-29
Anticipated expiration: 2041-10-27
Also published as: CN113880946A

Abstract

The invention discloses a yolk supernatant albumen pumping device which comprises a plurality of conical barrels, wherein the centers of the lower ends of the conical barrels are provided with electromagnetic valves, and rectangular brackets are arranged at the lower ends of the conical barrels close to an outer ring; the device is characterized in that a first sealing bearing is arranged at the center of the upper surface of the conical cylinder, a bearing support is arranged at the lower end of the conical cylinder, a second sealing bearing is arranged at the upper end of the bearing support, a stirring rod is arranged between the second sealing bearing and the first sealing bearing, a driven wheel is arranged at the upper end of the stirring rod, a clear liquid suction end moving mechanism is arranged at the upper end of the conical cylinder, and a linkage suction mechanism is arranged on the side surface of the conical cylinder. The invention has the beneficial effects that the round hollow box body can be lowered along with the lowering of the liquid level by the action of the clear liquid suction end moving mechanism, and the working efficiency of the supernatant liquid pumping is improved while the product quality is ensured by matching with the working of the vacuum pump; and the plurality of conical pipes are subjected to pumping operation through the action of the linkage pumping mechanism, so that the working efficiency is further improved.

Description

Yolk supernatant albumen pumping device

Technical Field

The invention relates to the technical field of yolk supernatant albumen extraction, in particular to a yolk supernatant albumen extraction device.

Background

The immunoglobulin preparation process includes the steps of extracting egg white, standing and layering, and pumping the upper egg yolk supernatant into a temporary storage tank for processing, wherein the supernatant and precipitate are required to be prevented from producing turbidity in the process of pumping the egg yolk supernatant into the temporary storage tank; the traditional operation mode is that the shaking head pipe is manually rotated, so that the suction end of the shaking head pipe descends along with the descending of the liquid level, and the discharging is stopped when the liquid level descends to an interface;

because of manual operation, the error is larger, and one end of the head shaking tube is easy to be inserted into the sediment; in order to avoid shaking head pipe and (mixing) shaft to take place to interfere when the ejection of compact, shaking head pipe suction end is located clarifying tank one side and carries out the ejection of compact, but when shaking head pipe suction end about to descend to the interface, the supernatant of the one end of keeping away from shaking head pipe suction end can be close to shaking head pipe suction end with faster velocity of flow, will make supernatant and precipitate produce great convection current this moment, easily produce unnecessary mixture, reduce the quality of product, current mode of taking out is not only inefficiency, the cleanliness factor of taking out moreover is lower.

Disclosure of Invention

In order to overcome the defects, the invention provides a yolk supernatant albumen pumping device which solves the problems.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the egg yolk supernatant albumen pumping device comprises a plurality of conical barrels, wherein an electromagnetic valve is arranged at the center of the lower end of each conical barrel, and a rectangular bracket is arranged at the lower end of each conical barrel, which is close to an outer ring; the device comprises a conical cylinder, a first sealing bearing, a bearing support, a second sealing bearing, a stirring rod, a driven wheel, a clear liquid sucking end moving mechanism, a linkage sucking mechanism and a stirring rod, wherein the first sealing bearing is arranged at the center of the upper surface of the conical cylinder;

the clear liquid suction end moving mechanism comprises a T-shaped slideway arranged on the inner side surface of a conical cylinder, a plurality of T-shaped slideways are arranged, a sliding block is arranged on one side of each T-shaped slideway, the sliding block is in sliding connection with each T-shaped slideway, a round hollow box body is arranged on one side of each sliding block, the round hollow box body is fixedly connected with each sliding block, a threaded through hole is formed in the upper surface of each sliding block, a vertical bearing I is arranged on the inner side surface of the lower end of the conical cylinder, a sealing bearing III is arranged on the upper surface of the conical cylinder at a position close to an outer ring, a threaded shaft meshed with the threaded through hole is arranged between the sealing bearing III and the vertical bearing I, a spur gear I is arranged at the upper end of each threaded shaft, a rotary bearing is arranged on the upper surface of the conical cylinder, a rotary ring is arranged on an inner ring of each rotary bearing, a toothed ring I meshed with the spur gear I is arranged on the inner ring of each rotary ring, and a driven toothed ring II is arranged on the outer ring of each rotary ring; the upper surface of the conical cylinder is provided with rectangular holes I, two rectangular holes I are arranged, an inverted V-shaped feeding hopper is arranged above the rectangular holes I, and the inverted V-shaped feeding hopper is inserted into the rectangular holes I and fixedly connected with the conical cylinder; the center of the circular hollow box body is provided with a rectangular hole II, the lower surface of the circular hollow box body is provided with a circular hole, the upper surface of the circular hollow box body is provided with two connecting pipes I, the upper surface of the conical cylinder is provided with a connecting pipe II, and a corrugated pipe is arranged between the connecting pipe II and the connecting pipe I;

the linkage suction mechanism comprises a connecting plate arranged on the side surface of the upper end of the conical cylinder, a first stepping motor is arranged in the center of the upper surface of the connecting plate, a holding table is arranged at the rotating end of the first stepping motor, a second stepping motor is arranged on the upper surface of the holding table, an output shaft is arranged at the rotating end of the second stepping motor, a first driving wheel is arranged at one end of the output shaft and is in sliding connection with the output shaft, the first driving wheel corresponds to the driven wheel in position, a second driving wheel is arranged at the other end of the output shaft and is in sliding connection with the output shaft, and the second driving wheel corresponds to the driven toothed ring in position; a first -shaped frame is arranged at one end of the upper surface of the containing table, a second -shaped frame is arranged at the other end of the upper surface of the containing table, a transverse rod is arranged on one side surface of the -shaped frame, a first limiting pipe is arranged at one end of the transverse rod, a second limiting pipe is arranged on one side surface of the -shaped frame, a hinging rod is arranged on one side surface of the -shaped frame, a swinging rod is arranged at one end of the hinging rod, the center of the swinging rod is hinged with the hinging rod, a hydraulic rod is arranged at the upper end of the second -shaped frame, and the telescopic end of the hydraulic rod is hinged with the swinging rod; the first pulling rod penetrates through the first limiting pipe, the first shifting fork is arranged at one end of the first pulling rod, the second pulling rod is arranged at the lower end of the second pulling rod, the second pulling rod penetrates through the second limiting pipe, and the second shifting fork is arranged at one end of the second pulling rod.

Further, a conveying pipe is arranged above the -shaped frame II, a rotary sealing valve is arranged at the lower end of the conveying pipe, a Z-shaped pipe is arranged at the lower end of the rotary sealing valve, and the Z-shaped pipe is fixedly connected with the containing table.

Further, a sliding ring is arranged on one side of each of the first shifting fork and the second shifting fork, and the sliding ring is in sliding connection with the output shaft.

And the lower end of the transverse rod is further provided with a fixed bearing, and the inner ring of the fixed bearing is fixedly connected with the output shaft.

Further, a flaring rubber ring is arranged at the lower end of the circular hole.

Furthermore, a toughened glass window is arranged on the side surface of the conical cylinder.

Further, linear motors are arranged on the upper surface of the conical cylinder, two linear motors are arranged, and limiting rings are arranged at telescopic ends of the linear motors.

The beneficial effects of the invention are as follows: the round hollow box body can be lowered along with the lowering of the liquid level by the action of the clear liquid suction end moving mechanism, and the working efficiency of the supernatant liquid pumping is improved while the product quality is ensured by matching with the working of a vacuum pump; and the plurality of conical pipes are subjected to pumping operation through the action of the linkage pumping mechanism, so that the working efficiency is further improved.

Drawings

FIG. 1 is a schematic diagram of a yolk supernatant protein extraction device according to the present invention;

FIG. 2 is a partial schematic view of the movement of the suction end of the clear liquid;

FIG. 3 is an enlarged schematic view showing the movement of the suction end of the clear liquid;

FIG. 4 is a schematic cross-sectional view of a circular hollow box;

FIG. 5 is a schematic diagram of a ganged pumping mechanism;

FIG. 6 is a schematic side view of a V-shaped feed hopper;

FIG. 7 is a schematic cross-sectional view of a cone;

FIG. 8 is a schematic top view of a rectangular aperture I;

FIG. 9 is a schematic cross-sectional view of the output shaft;

in the figure, 1, a conical cylinder; 2. an electromagnetic valve; 3. a rectangular bracket; 4. sealing a first bearing; 5. a bearing support; 6. sealing a second bearing; 7. a stirring rod; 8. driven wheel; 9. a T-shaped slideway; 10. a sliding block; 11. a circular hollow box body; 12. a threaded through hole; 13. a first vertical bearing; 14. sealing a bearing III; 15. a threaded shaft; 16. a spur gear I; 17. a slewing bearing; 18. a rotating ring; 19. a first toothed ring; 20. a driven toothed ring II; 21. rectangular holes I; 22. a V-shaped feed hopper; 23. rectangular holes II; 24. a circular hole; 25. a first connecting pipe; 26. a second connecting pipe; 27. a bellows; 28. a connecting plate; 29. a first stepping motor; 30. a holding table; 31. a step motor II; 32. an output shaft; 33. a first driving wheel; 34. a driving wheel II; 35. form one; 36. form two; 37. a transverse bar; 38. a first limiting pipe; 39. a limiting pipe II; 40. a hinge rod; 41. a swinging rod; 42. a hydraulic rod; 43. pulling the first rod; 44. a shifting fork I; 45. pulling the second rod; 46. a shifting fork II; 47. a material conveying pipe; 48. a rotary seal valve; 49. a Z-shaped tube; 50. a slip ring; 51. fixing a bearing; 52. flaring a rubber ring; 53. tempered glass window; 54. a linear motor; 55. and a limiting ring.

Detailed Description

The invention is specifically described below with reference to the accompanying drawings, as shown in fig. 1-9, the egg yolk supernatant albumen extracting device comprises a plurality of conical barrels 1, wherein the conical barrels 1 are provided with electromagnetic valves 2 at the centers of the lower ends of the conical barrels 1, and rectangular brackets 3 are arranged at the lower ends of the conical barrels 1 close to an outer ring; a first sealing bearing 4 is arranged in the center of the upper surface of the conical cylinder 1, a bearing bracket 5 is arranged at the lower end of the conical cylinder 1, a second sealing bearing 6 is arranged at the upper end of the bearing bracket 5, a stirring rod 7 is arranged between the second sealing bearing 6 and the first sealing bearing 4, a driven wheel 8 is arranged at the upper end of the stirring rod 7, a clear liquid suction end moving mechanism is arranged at the upper end of the conical cylinder 1, and a linkage suction mechanism is arranged on the side surface of the conical cylinder 1;

the clear liquid suction end moving mechanism comprises a T-shaped slideway 9 arranged on the inner side surface of a conical cylinder 1, a plurality of T-shaped slideways 9 are arranged, a sliding block 10 is arranged on one side of each T-shaped slideway 9, the sliding block 10 is in sliding connection with each T-shaped slideway 9, a round hollow box 11 is arranged on one side of each sliding block 10, the round hollow box 11 is fixedly connected with the sliding block 10, a threaded through hole 12 is formed in the upper surface of each sliding block 10, a vertical bearing I13 is arranged on the inner side surface of the lower end of the conical cylinder 1, a sealing bearing III 14 is arranged on the upper surface of the conical cylinder 1, a threaded shaft 15 meshed with the threaded through hole 12 is arranged between the sealing bearing III 14 and the vertical bearing I13, a spur gear I16 is arranged on the upper end of the threaded shaft 15, a rotary bearing 17 is arranged on the upper surface of the conical cylinder 1, a rotary ring 18 is arranged on the inner ring of the rotary bearing 17, a toothed ring I19 meshed with the spur gear I16 is arranged on the inner ring of the rotary ring 18, and a driven ring II 20 is arranged on the outer ring of the rotary ring 18; the upper surface of the conical cylinder 1 is provided with rectangular holes I21, two rectangular holes I21 are arranged, an inverted V-shaped feeding hopper 22 is arranged above the rectangular holes I21, and the inverted V-shaped feeding hopper 22 is inserted into the rectangular holes I21 and fixedly connected with the conical cylinder 1; a second rectangular hole 23 is formed in the center of the circular hollow box body 11, a circular hole 24 is formed in the lower surface of the circular hollow box body 11, a first connecting pipe 25 is arranged on the upper surface of the circular hollow box body 11, two connecting pipes 25 are arranged, a second connecting pipe 26 is arranged on the upper surface of the conical cylinder 1, and a corrugated pipe 27 is arranged between the second connecting pipe 26 and the first connecting pipe 25;

the linkage suction mechanism comprises a connecting plate 28 arranged on the side surface of the upper end of the conical cylinder 1, a first stepping motor 29 is arranged in the center of the upper surface of the connecting plate 28, a containing table 30 is arranged at the rotating end of the first stepping motor 29, a second stepping motor 31 is arranged on the upper surface of the containing table 30, an output shaft 32 is arranged at the rotating end of the second stepping motor 31, a first driving wheel 33 is arranged at one end of the output shaft 32, the first driving wheel 33 is in sliding connection with the output shaft 32, the first driving wheel 33 corresponds to the position of the driven wheel 8, a second driving wheel 34 is arranged at the other end of the output shaft 32, the second driving wheel 34 is in sliding connection with the output shaft 32, and the second driving wheel 34 corresponds to the position of the driven toothed ring 20; a first frame 35 is arranged at one end of the upper surface of the containing table 30, a second frame 36 is arranged at the other end of the upper surface of the containing table 30, a transverse rod 37 is arranged at the side surface of the first frame 35, a first limiting pipe 38 is arranged at one end of the transverse rod 37, a second limiting pipe 39 is arranged at the side surface of the first frame 35, a hinging rod 40 is arranged at the side surface of the first frame 35, a swinging rod 41 is arranged at one end of the hinging rod 40, the center of the swinging rod 41 is hinged with the hinging rod 40, a hydraulic rod 42 is arranged at the upper end of the second frame 36, and the telescopic end of the hydraulic rod 42 is hinged with the swinging rod 41; the upper end of the swinging rod 41 is provided with a first pulling rod 43, the first pulling rod 43 passes through the first limiting pipe 38, one end of the first pulling rod 43 is provided with a first shifting fork 44, the lower end of the swinging rod 41 is provided with a second pulling rod 45, the second pulling rod 45 passes through the second limiting pipe 39, and one end of the second pulling rod 45 is provided with a second shifting fork 46.

A conveying pipe 47 is arranged above the -shaped frame II 36, a rotary sealing valve 48 is arranged at the lower end of the conveying pipe 47, a Z-shaped pipe 49 is arranged at the lower end of the rotary sealing valve 48, and the Z-shaped pipe 49 is fixedly connected with the containing table 30.

A sliding ring 50 is arranged on one side of each of the first shifting fork 44 and the second shifting fork 46, and the sliding ring 50 is in sliding connection with the output shaft 32.

The lower end of the transverse rod 37 is provided with a fixed bearing 51, and the inner ring of the fixed bearing 51 is fixedly connected with the output shaft 32.

A flared rubber ring 52 is mounted to the lower end of the circular bore 24.

A tempered glass window 53 is installed on the side surface of the conical barrel 1.

The upper surface of the conical cylinder 1 is provided with two linear motors 54, and the telescopic ends of the linear motors 54 are provided with limiting rings 55.

In this embodiment, the electrical appliance of the apparatus is controlled by an external controller, in order to maximally save the extraction time, when the number of the conical drums 1 is three, the included angle between the Z-shaped tube 49 and the transverse rod 37 is 120 degrees, when the number of the conical drums 1 is four, the included angle between the Z-shaped tube 49 and the transverse rod 37 is 90 degrees, and so on, to fill the supernatant into the other conical drum 1 while extracting the yolk supernatant; before use, a vacuum pump is required to be manually installed on one side of the conical cylinder 1 and connected with the second connecting pipe 26 to provide power for pumping out supernatant, and the vacuum pump belongs to the prior art, and is obvious to those skilled in the art, so the vacuum pump is not described in detail;

as shown in fig. 1, when the output end of the Z-shaped tube 49 is aligned with the inverted V-shaped feeding hopper, the driving wheel 33 above the other conical barrel 1 is aligned with the driven wheel 8, the driving wheel two is aligned with the driven toothed ring two 20, the corresponding equipment is controlled to enable the supernatant to be discharged into the inverted V-shaped feeding hopper 22 through the conveying pipe 47, the rotary sealing valve 48 and the Z-shaped tube 49, the supernatant can be injected into the conical barrel 1 through the diversion and conveying of the inverted V-shaped feeding hopper 22, (at the moment, the lower end of the inverted V-shaped feeding hopper 22 protrudes downwards out of the rectangular hole two 23, as shown in fig. 4), after a certain amount of supernatant is injected, the controller controls the hydraulic rod 42 to stretch, the swinging rod 41 rotates by taking the hinging point of the swinging rod 41 and the hinging rod 40 as the circle center, the swinging rod 41 drives the pulling rod 43 to move leftwards, the pulling rod two 45 to move rightwards, the pulling rod one 44 is driven by the pulling rod 43 to enable the driving wheel 33 to be meshed with the driven wheel 8, and at the moment, the driving wheel two 34 and the driven toothed ring two 20 are in a separated state; the controller controls the step motor II 31 to rotate, the step motor II 31 drives the driving wheel I33 to drive the driven wheel 8 to rotate, the driven wheel 8 drives the stirring rod 7 to stir the supernatant in the conical barrel 1, after stirring for a certain time, the stirring rod 7 stops rotating, the stopping position of the stirring rod 7 is overlapped with the position of the rectangular hole II 23, the circular hollow box 11 is convenient to move downwards, and static precipitation is started;

the method comprises the steps that three conical barrels 1 are empty at the beginning, a stepping motor I29 is required to rotate for 120 degrees, supernatant injection is carried out on the next conical barrel 1 until the three conical barrels 1 are filled with supernatant, a hydraulic rod 42 is required to be timely and telescopically matched in the injection process, after the supernatant in the conical barrels 1 is qualified, a controller controls the stepping motor I29 to rotate, an output shaft 32 swings to the position above the conical barrels 1 to be pumped out, the controller controls the hydraulic rod 42 to shorten, the hydraulic rod 42 drives a swinging rod 41 to rotate clockwise, the swinging rod 41 rotates to drive a pulling rod II 45 to move, the pulling rod II 45 drives a shifting fork II 46 to shift a driving wheel II 34, the driving wheel II 34 is meshed with a driven toothed ring II 20, the driving wheel II 33 is separated from a driven wheel 8, the controller controls the stepping motor II 31 to rotate, the driving wheel II 34 drives the driven toothed ring II 20 to drive a rotating ring 18 to drive a straight gear I16 to rotate, the rotating threaded shaft 15 to rotate, the threaded shaft 15 is meshed with a threaded through the threaded shaft 15, a sliding block 10 is driven to move down to a circular liquid level 11 through a threaded through a threaded through hole 12, and the sliding block 10 is driven down to be continuously moved down from the circular liquid level 11 to the circular liquid level 11, and the circular liquid level can be continuously moved down along with the circular liquid level 11 is continuously down through a circular liquid level control box 11, and the circular liquid level can be continuously observed when the circular liquid level is in a vacuum pump is in contact with the vacuum pump is in a round shape and the round glass tank is in a round shape and a round shape can be in a round shape and a can be in a can be used to be placed; when the round hollow box 11 approaches to the precipitation interface, the pumping speed of supernatant liquid on the upper layer after precipitation can be slowed down by manual control;

after the extraction is finished, the second stepping motor 31 is reversed to indirectly drive the circular hollow box 11 to reset, sediment at the lower end of the conical barrel 1 can be taken out by opening the electromagnetic valve 2, and the first stepping motor 29 is required to rotate anticlockwise for 120 degrees at the moment, so that the Z-shaped pipe 49 is moved to the position above the conical barrel 1 which is just extracted, and the preparation for filling the supernatant is carried out; the transverse rod 37 moves to the position above the conical cylinder 1 to be extracted, and is ready for extraction; when the first stepping motor 29 rotates, the swinging rod 41 needs to keep a vertical state, so that the driven wheel and the first driving wheel 33 are in a separated state, and the driven toothed ring two 20 and the second driving wheel 34 are in a separated state; the problem of wireless self-switching electricity of the second stepping motor 31 can be solved through the action of the electric slip ring.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims

1. The egg yolk supernatant albumen pumping device comprises a plurality of conical barrels (1), wherein the conical barrels (1) are provided with electromagnetic valves (2) at the centers of the lower ends of the conical barrels (1), and rectangular supports (3) are arranged at the lower ends of the conical barrels (1) close to an outer ring; the device is characterized in that a first sealing bearing (4) is arranged at the center of the upper surface of the conical cylinder (1), a bearing bracket (5) is arranged at the lower end of the conical cylinder (1), a second sealing bearing (6) is arranged at the upper end of the bearing bracket (5), a stirring rod (7) is arranged between the second sealing bearing (6) and the first sealing bearing (4), and a driven wheel (8) is arranged at the upper end of the stirring rod (7), and the device is characterized in that a clear liquid suction end moving mechanism is arranged at the upper end of the conical cylinder (1), and a linkage suction mechanism is arranged on the side surface of the conical cylinder (1);

the clear liquid suction end moving mechanism comprises a plurality of T-shaped slide ways (9) which are arranged on the inner side surface of a conical barrel (1), wherein a sliding block (10) is arranged on one side of each T-shaped slide way (9), each sliding block (10) is in sliding connection with each T-shaped slide way (9), a circular hollow box body (11) is arranged on one side of each sliding block (10), each circular hollow box body (11) is fixedly connected with each sliding block (10), a threaded through hole (12) is formed in the upper surface of each sliding block (10), a vertical bearing I (13) is arranged on the inner side surface of the lower end of each conical barrel (1), a sealing bearing III (14) is arranged at a position, close to an outer ring, of the upper surface of each conical barrel (1), a threaded shaft (15) meshed with each threaded through hole (12) is arranged between each sealing bearing III (14) and each vertical bearing I (13), a straight gear I (16) is arranged at the upper end of each threaded shaft (15), a rotary bearing (17) is arranged on the upper surface of each conical barrel (1), an inner ring (18) is arranged, a rotary ring (18) is arranged, a driven ring (18) is arranged, and a driven ring (20) is arranged on each straight gear I (16); the upper surface of the conical cylinder (1) is provided with rectangular holes I (21), two rectangular holes I (21) are arranged, an inverted V-shaped feed hopper (22) is arranged above the rectangular holes I (21), and the inverted V-shaped feed hopper (22) is inserted into the rectangular holes I (21) and fixedly connected with the conical cylinder (1); a rectangular hole II (23) is formed in the center of the circular hollow box body (11), a circular hole (24) is formed in the lower surface of the circular hollow box body (11), a first connecting pipe (25) is arranged on the upper surface of the circular hollow box body (11), two connecting pipes I (25) are arranged, a second connecting pipe (26) is arranged on the upper surface of the conical cylinder (1), and a corrugated pipe (27) is arranged between the second connecting pipe (26) and the first connecting pipe (25);

the linkage suction mechanism comprises a connecting plate (28) arranged on the side surface of the upper end of the conical cylinder (1), a first stepping motor (29) is arranged in the center of the upper surface of the connecting plate (28), a containing table (30) is arranged at the rotating end of the first stepping motor (29), a second stepping motor (31) is arranged on the upper surface of the containing table (30), an output shaft (32) is arranged at the rotating end of the second stepping motor (31), a first driving wheel (33) is arranged at one end of the output shaft (32), the first driving wheel (33) is in sliding connection with the output shaft (32), the first driving wheel (33) corresponds to the position of the driven wheel (8), a second driving wheel (34) is arranged at the other end of the output shaft (32), the second driving wheel (34) is in sliding connection with the output shaft (32), and the second driving wheel (34) corresponds to the position of the driven toothed ring (20); a -shaped first frame (35) is arranged at one end of the upper surface of the containing table (30), a -shaped second frame (36) is arranged at the other end of the upper surface of the containing table (30), a transverse rod (37) is arranged on the side surface of the -shaped first frame (35), a limiting pipe I (38) is arranged at one end of the transverse rod (37), a limiting pipe II (39) is arranged on the side surface of the -shaped first frame (35), a hinging rod (40) is arranged on the side surface of the -shaped first frame (35), a swinging rod (41) is arranged at one end of the hinging rod (40), the center of the swinging rod (41) is hinged with the hinging rod (40), a hydraulic rod (42) is arranged at the upper end of the -shaped second frame (36), and the telescopic end of the hydraulic rod (42) is hinged with the swinging rod (41); the upper end of the swinging rod (41) is provided with a first pulling rod (43), the first pulling rod (43) penetrates through the first limiting pipe (38), one end of the first pulling rod (43) is provided with a first shifting fork (44), the lower end of the swinging rod (41) is provided with a second pulling rod (45), the second pulling rod (45) penetrates through the second limiting pipe (39), and one end of the second pulling rod (45) is provided with a second shifting fork (46);

a conveying pipe (47) is arranged above the -shaped frame II (36), a rotary sealing valve (48) is arranged at the lower end of the conveying pipe (47), a Z-shaped pipe (49) is arranged at the lower end of the rotary sealing valve (48), and the Z-shaped pipe (49) is fixedly connected with the containing table (30);

a sliding ring (50) is arranged on one side of each of the first shifting fork (44) and the second shifting fork (46), and the sliding ring (50) is in sliding connection with the output shaft (32);

the lower end of the transverse rod (37) is provided with a fixed bearing (51), and the inner ring of the fixed bearing (51) is fixedly connected with the output shaft (32);

a toughened glass window (53) is arranged on the side surface of the conical barrel (1).

2. Egg yolk supernatant albumen extracting device according to claim 1, wherein a flaring rubber ring (52) is arranged at the lower end of the circular hole (24).

3. The egg yolk supernatant albumen drawing device according to claim 1, wherein the upper surface of the conical barrel (1) is provided with two linear motors (54), and the telescopic ends of the linear motors (54) are provided with limiting rings (55).