阅读说明：本技术 一种芝麻油生产用震荡分油装置及其实施方法 (Oscillation oil separation device for sesame oil production and implementation method thereof ) 是由 王浩 李俊 于 2021-08-06 设计创作，主要内容包括：本发明公开了一种芝麻油生产用震荡分油装置及其实施方法,属于芝麻油分油设备技术领域,包括油缸、左向摆动机构、右向摆动机构和底层震荡机构,所述油缸的左侧固定连接有左向摆动机构,油缸的右侧固定连接有右向摆动机构,所述左向摆动机构和右向摆动机构之间连接有底层震荡机构。通过弧形圆环来设定震荡轨迹,节约驱动能源,有效避免芝麻渣泼洒；设置不同于震荡轨迹运行的震荡板,能够加速芝麻渣底层的油液向上溢出,油液溢出后油液与芝麻渣分层界面水平,无鼓包、无坑洼,利于下一步油液提取操作。(The invention discloses a vibrating oil separating device for sesame oil production and an implementation method thereof, belonging to the technical field of sesame oil separating equipment. The oscillation track is set through the arc-shaped circular ring, so that the driving energy is saved, and sesame residue is effectively prevented from splashing; the vibrating plate different from vibrating track operation is arranged, so that oil on the bottom layer of the sesame residue can be accelerated to overflow upwards, the oil and the sesame residue are layered and interface level after the oil overflows, no bulge or hollow exists, and the oil extraction operation in the next step is facilitated.)

1. The utility model provides a sesame oil production is with shaking oily device of branch, its characterized in that, vibrates mechanism (4) including hydro-cylinder (1), leftward swing mechanism (2), rightward swing mechanism (3) and bottom, the left side fixedly connected with leftward swing mechanism (2) of hydro-cylinder (1), the right side fixedly connected with rightward swing mechanism (3) of hydro-cylinder (1), be connected with bottom between leftward swing mechanism (2) and rightward swing mechanism (3) and vibrate mechanism (4).

2. The oscillating oil separation device for producing sesame oil according to claim 1, wherein the oil cylinder (1) comprises a cylinder body (11), and the edges of the front side and the rear side of the cylinder body (11) are provided with downward bent strip-shaped bulges (12).

3. The vibrating oil separation device for sesame oil production according to claim 1, wherein the left swing mechanism (2) and the right swing mechanism (3) have the same structure, and both comprise an upright column (31), a slide rail assembly (32), a slide block (33) and a driving assembly (34), the slide rail assembly (32) is in an arc shape with two high ends and a low middle part, the two ends of the slide rail assembly are welded with the upright column (31) perpendicular to the ground, the slide block (33) is connected onto the slide rail assembly (32) in a sliding manner, and the driving assembly (34) is fixedly connected onto the slide block assembly (33) through bolts.

4. The oscillating oil separating device for producing sesame oil according to claim 3, wherein the sliding rail assembly (32) is composed of a ring (321) and a rail (322), the outer wall of the ring (321) protrudes outwards to form the rail (322), the end of the sliding block (33) is annular, and the annular part is slidably connected to the ring (321).

5. The oscillating oil separation device for sesame oil production according to claim 3, wherein the driving assembly (34) comprises a gear (341), a rack (342) and a driving motor (343), the outer wall of the sliding rail assembly (32) is fixedly connected with an arc-shaped rack (342) through a bolt, the rack (342) and the gear (341) are engaged with each other, the gear (341) and the driving motor (343) are connected with each other, and the driving motor (343) is mounted on the sliding block (33).

6. The oscillation oil distribution device for producing the sesame oil according to claim 1, wherein the bottom layer oscillation mechanism (4) comprises an oscillation plate (41), a position adjusting frame (42), a pulling rope (43) and a support (44), the support (44) is fixedly connected to the left-hand swing mechanism (2) and the right-hand swing mechanism (3) respectively, the position adjusting frame (42) is slidably connected to one side of the oil cylinder (1), the oscillation plate (41) is fixedly connected to the lower end of the position adjusting frame (42), a plurality of densely distributed through holes are formed in a plate body of the oscillation plate (41), the pulling rope (43) is wound and connected to the upper end of the position adjusting frame (42), and the support (44) is connected to two ends of the pulling rope (43) respectively.

7. The oscillating oil distribution device for sesame oil production according to claim 6, wherein the position adjusting frame (42) comprises a straight rod (421), a linear sliding rail (422), a moving assembly (423), a cross beam (428), a telescopic cylinder (424), a connecting bracket (425), a sliding chute (426) and a main line roller (427), the sliding chute (426) is formed at the lower end of the straight rod (421), the main line roller (427) is connected to the upper end of the straight rod (421) through a bolt, a pulling rope (43) is fixedly connected to the main line roller (427), the linear sliding rail (422) is fixedly connected to the side wall of the straight rod (421), the cross beam (428) is slidably connected to the linear sliding rail (422), the moving assembly (423) is further connected between the cross beam (428) and the linear sliding rail (422), the telescopic cylinder (424) is connected to both ends of the cross beam (428), and the cylinder rod at the end of the telescopic cylinder (424) is fixedly connected to the connecting bracket (425), the connecting bracket (425) is welded to the oscillation plate (41).

8. The oscillating oil separating device for sesame oil production as claimed in claim 6, wherein the support (44) comprises a secondary line roller (441), a line cylinder (442) and a rotating motor (443), the secondary line roller (441) is installed at one end of the support (44), the line cylinder (442) is installed at the other end of the support, the line cylinder (442) and the rotating motor (443) are connected with each other, and the pulling rope (43) is wound on each of the line cylinder (442) and the secondary line roller (441).

9. The oscillating oil separating device for sesame oil production according to claim 3, wherein a telescopic assembly (5) is arranged between the oil cylinder (1) and the left swing mechanism (2) and between the oil cylinder (1) and the right swing mechanism (3), the telescopic assembly (5) comprises a rod body (51) and a sleeve (52) slidably sleeved outside the rod body (51), the end of the rod body (51) is connected with the sliding block (33) through a universal rotary joint, the end of the sleeve (52) is connected with the oil cylinder (1) through a universal rotary joint, the rod body (51) and the sleeve (52) are sleeved with a spring (53), and the two ends of the spring (53) are fixedly connected with the oil cylinder (1) and the sliding block (33) respectively.

10. An implementation method of the shaking oil separation device for sesame oil production according to any one of claims 1 to 9, comprising the following steps:

s101: starting the moving assembly (423) and the telescopic cylinder (424), adjusting the position of the oscillation plate (41) in the oil cylinder (1), and closing the moving assembly (423) and the telescopic cylinder (424) after the adjustment is finished;

s102: sesame dregs and water are poured into the oil cylinder (1) according to a certain proportion;

s103: starting a rotating motor (443) to drive a bobbin (442) to rotate, further pulling a position adjusting frame (42) to move left and right along the side wall of the oil cylinder (1), and extracting oil on the lower layer of the sesame dregs to the upper layer through bottom layer oscillation;

s104: the driving assembly (34) is started to operate, the sliding block (33) drives the oil cylinder (1) to move along the circular ring (321), and sesame residues and oil are further layered.

Technical Field

The invention relates to the technical field of sesame oil separation equipment, in particular to a vibration oil separation device for sesame oil production and an implementation method thereof.

Background

Sesame oil, also called sesame oil and sesame oil, is a traditional Chinese seasoning vegetable oil, is grease squeezed from sesame and has a strong sesame frying flavor. The sesame oil has pure flavor and long aftertaste, and is an essential good seasoning product in daily life. Whether cold dishes, hot dishes or soup, it can be called a pen for ordering sunny food. The sesame oil is divided into a squeezing method and a water substitution method according to different preparation processes, and the production process of the water substitution method comprises the following steps: sesame → sifting → rinsing → seeds frying → smoke raising → blowing → milling → mixing slurry → stirring oil → shaking oil separation, wherein the shaking oil separation is the separation of the sesame paste after the above treatment and a part of the oil is dispersed in the slurry, which can be separated by shaking (oil heading).

The patent for CN202022100395.6 discloses a sesame oil production is with vibrating branch oily device, including supporting the cover seat, compression spring, vibrating motor, the lifter, copper calabash, expanding spring and sliding bottom plate, supporting the cover seat is installed to the support column up end, the inside compression spring that clamps of supporting the cover seat, terminal surface intermediate position is equipped with vibrating motor under the oil distribution tank body, the laminating of loading board up end intermediate position has sliding bottom plate, sliding bottom plate up end left and right sides symmetry has clamped expanding spring, the inside intermediate position interlude of sliding bottom plate has the lifter, lifter annular side downside cover is equipped with copper calabash. This design can replace traditional artifical shock to divide oil, realizes mechanization, automatic branch oil, but this patent has following problem: firstly, vibrate the in-process and adopt multiunit compression spring, expanding spring shakes back, lead to vibrations direction and vibration amplitude can't be controlled, the upper oil viscosity is low after the part of sesame sediment divides oil, and splash in the vibration in-process, whole control operation orbit shakes and then leads to the driving energy loss very big, secondly, vibrate the oil of in-process sesame sediment upper part and easily overflow, and the oil of lower floor leads to it to spill over the degree of difficulty because of piling up of sesame sediment big, only process cylinder vibrates and can't realize high efficiency's wholeization fluid layering, the slag body of layering back oil and sesame sediment interface department piles up the unevenness and forms the rugged face, be unfavorable for further oil extraction.

Disclosure of Invention

The invention aims to provide a vibration oil distribution device for sesame oil production and an implementation method thereof, wherein a vibration track is set through an arc-shaped ring, so that driving energy is saved, and sesame slag is effectively prevented from splashing; the vibrating plate different from vibrating track operation is arranged, so that oil on the bottom layer of sesame residues can be accelerated to overflow upwards, the oil and the sesame residues are layered and interface horizontal after the oil overflows, no bulge or hollow exists, the oil extraction operation in the next step is facilitated, and the problem in the background art is solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a sesame oil production is with shaking oily device of branch, vibrates the mechanism including hydro-cylinder, left swing mechanism, right swing mechanism and bottom, the left side fixedly connected with left swing mechanism of hydro-cylinder, the right side fixedly connected with right swing mechanism of hydro-cylinder, be connected with bottom between left swing mechanism and the right swing mechanism and vibrate the mechanism.

Further, the oil cylinder comprises a cylinder body, and the edges of the front side and the rear side of the cylinder body are respectively provided with a strip-shaped bulge bent downwards.

Further, the structure of leftward swinging mechanism and rightward swinging mechanism is unanimous, and both are including stand, slide rail set spare, slider and drive assembly, slide rail set spare is the arc that the high middle part in both ends is low, and its both ends all weld the stand on a perpendicular to ground, sliding connection has the slider on the slide rail set spare, last through bolt fixedly connected with drive assembly of slide block set spare.

Furthermore, the sliding rail assembly is composed of a circular ring and a track, the outer wall of the circular ring protrudes outwards to form the track, the end part of the sliding block is annular, and the annular part is connected to the circular ring in a sliding mode.

Further, drive assembly includes gear, rack and driving motor, through the curved rack of bolt fixedly connected with on slide rail assembly's the outer wall, rack and gear intermeshing, gear and driving motor interconnect, driving motor installs on the slider.

Further, the bottom vibrates the mechanism and vibrates board, position control frame, tractive rope and support including shaking, support of difference fixedly connected with on leftward swing mechanism and the rightward swing mechanism, one side sliding connection of hydro-cylinder has the position control frame, and the board is shaken to the lower extreme fixedly connected with of position control frame, shakes and offers a plurality of intensive through-holes that distribute on the plate body of board, and the upper end winding of position control frame is connected with tractive rope, and the both ends of tractive rope are connected with a support respectively.

Further, the position adjusting frame comprises a straight rod, a linear slide rail, a moving assembly, a cross beam, a telescopic cylinder, a connecting support, a slide groove and a main line roller, wherein the slide groove is formed in the lower end of the straight rod, the upper end of the straight rod is connected with the main line roller through a bolt, the main line roller is fixedly connected with a traction rope, the linear slide rail is fixedly connected onto the side wall of the straight rod, the cross beam is connected onto the linear slide rail in a sliding mode, the moving assembly is further connected between the cross beam and the linear slide rail, the telescopic cylinder is connected to the two ends of the cross beam, the connecting support is fixedly connected to the cylinder rod at the end of the telescopic cylinder, and the connecting support is welded onto the oscillation plate.

Further, the support includes vice line roller, a line section of thick bamboo and rotating electrical machines, and vice line roller is installed to the one end of support, and a line section of thick bamboo is installed to the other end, and a line section of thick bamboo and rotating electrical machines interconnect all twine the tractive rope on a line section of thick bamboo and the vice line roller.

Furthermore, telescopic assemblies are arranged between the oil cylinder and the left-hand swing mechanism and between the oil cylinder and the right-hand swing mechanism, each telescopic assembly is composed of a rod body and a sleeve which is sleeved outside the rod body in a sliding mode, the end portion of the rod body is connected with a sliding block through a universal rotating joint, the end portion of the sleeve is connected with the oil cylinder through the universal rotating joint, springs are sleeved outside the rod body and the sleeve, and the two ends of each spring are fixedly connected with the oil cylinder and the sliding block respectively.

According to another aspect of the invention, an implementation method of the oscillation oil separation device for sesame oil production is provided, which comprises the following steps:

s101: starting the moving assembly and the telescopic cylinder, adjusting the position of the oscillating plate in the oil cylinder, and closing the moving assembly and the telescopic cylinder after the adjustment is finished;

s102: pouring sesame dregs and water into an oil cylinder according to a certain proportion;

s103: starting a rotating motor to drive a wire drum to rotate, further pulling a position adjusting frame to move left and right along the side wall of an oil cylinder, and extracting oil on the lower layer of the sesame dregs to the upper layer through bottom layer oscillation;

s104: and starting the driving assembly to operate, and driving the oil cylinder to move along the circular ring by the sliding block to further layer the sesame dregs and the oil.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the oscillation oil distribution device for sesame oil production and the implementation method thereof, the oscillation track is set through the arc-shaped circular ring, the oscillation track is made to accord with natural oscillation, the oil cylinder is driven to have the track high point to oscillate back to the track low point by utilizing the gravity of the oil cylinder, the driving energy is saved, and sesame residues are effectively prevented from splashing;

2. according to the oscillation oil distribution device for sesame oil production and the implementation method thereof, the oscillation plate is arranged at the bottom layer of sesame dregs, the oscillation plate is provided with the through hole for exhausting air, and the oscillation plate is moved along the direction different from the oscillation track by utilizing telescopic traction, so that the upward overflow of oil at the bottom layer of the sesame dregs can be accelerated, the layered interface between the oil and the sesame dregs after the oil overflows is horizontal, no bulge or pot hole exists, and the next oil extraction operation is facilitated.

Drawings

Fig. 1 is an overall structure diagram of a shaking oil separation device for sesame oil production in the first embodiment of the present invention;

fig. 2 is a structural view of a right swing mechanism of the oscillation oil distribution device for sesame oil production in the first embodiment of the present invention;

fig. 3 is a structural view of a slide rail assembly of the shaking oil distribution device for sesame oil production in the first embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 according to the present invention.

Fig. 5 is a structural diagram of a bottom layer oscillating mechanism of an oscillating oil separating device for sesame oil production in the first embodiment of the present invention;

fig. 6 is a structural view of a position adjusting frame of a shaking oil separating device for sesame oil production in the first embodiment of the present invention;

fig. 7 is a structural view of a support of the shaking oil distribution device for sesame oil production in the first embodiment of the present invention;

FIG. 8 is a flowchart of an implementation method of the oscillating oil separating device for sesame oil production according to the first embodiment of the present invention;

fig. 9 is a connection diagram of the telescopic assembly of the oscillating oil separating device for sesame oil production in the second embodiment of the present invention;

fig. 10 is a structural diagram of a telescopic assembly of the shaking oil separating device for sesame oil production in the second embodiment of the present invention.

In the figure: 1. an oil cylinder; 11. a cylinder body; 12. a strip-shaped bulge; 2. a left swing mechanism; 3. a right swing mechanism; 31. a column; 32. a slide rail assembly; 321. a circular ring; 322. a track; 33. a slider; 34. a drive assembly; 341. a gear; 342. a rack; 343. a drive motor; 4. a bottom layer oscillation mechanism; 41. a vibrating plate; 42. a position adjusting bracket; 421. a straight rod; 422. a linear slide rail; 423. a moving assembly; 424. a telescopic cylinder; 425. connecting a bracket; 426. a chute; 427. a main line roller; 428. a cross beam; 43. pulling the rope; 44. a support; 441. a secondary wire roller; 442. a bobbin; 443. a rotating electric machine; 5. a telescoping assembly; 51. a rod body; 52. a sleeve; 53. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, an oscillating oil separating device for sesame oil production comprises an oil cylinder 1, a left oscillating mechanism 2, a right oscillating mechanism 3 and a bottom oscillating mechanism 4, wherein the left side of the oil cylinder 1 is fixedly connected with the left oscillating mechanism 2, the right side of the oil cylinder 1 is fixedly connected with the right oscillating mechanism 3, and the bottom oscillating mechanism 4 is connected between the left oscillating mechanism 2 and the right oscillating mechanism 3; the oil cylinder 1 comprises a cylinder body 11, the edges of the front side and the rear side of the cylinder body 11 are respectively provided with a strip-shaped bulge 12 bent downwards, and the sliding groove 426 is connected to the strip-shaped bulge 12 in a sliding mode.

Referring to fig. 2, the structure of the left swing mechanism 2 is consistent with that of the right swing mechanism 3, both the left swing mechanism 2 and the right swing mechanism 3 comprise an upright column 31, a slide rail assembly 32, a slide block 33 and a driving assembly 34, the slide rail assembly 32 is arc-shaped with two high ends and a low middle part, the two ends of the slide rail assembly are welded with the upright column 31 vertical to the ground, the slide rail assembly 32 is connected with the slide block 33 in a sliding manner, the driving assembly 34 is fixedly connected onto the slide block assembly 33 through bolts, an oscillation track is set through an arc-shaped ring 321, the oscillation track conforms to natural oscillation, the gravity of the oil cylinder 1 can be used for driving the oil cylinder 1 to have the high point of the track 322 to oscillate back to the low point of the track 322, driving energy is saved, and sesame slag is effectively prevented from being splashed.

Referring to fig. 3, the sliding track assembly 32 is composed of a ring 321 and a track 322, the outer wall of the ring 321 protrudes outwards to form the track 322, the end of the sliding block 33 is ring-shaped, and the ring-shaped part is slidably connected to the ring 321.

Referring to fig. 4, the driving assembly 34 includes a gear 341, a rack 342, and a driving motor 343, the outer wall of the sliding rail assembly 32 is fixedly connected with the arc-shaped rack 342 through a bolt, the rack 342 is engaged with the gear 341, the gear 341 is connected with the driving motor 343, and the driving motor 343 is mounted on the slider 33.

Referring to fig. 5, the bottom layer oscillating mechanism 4 includes an oscillating plate 41, a position adjusting frame 42, a pulling rope 43 and a support 44, the left oscillating mechanism 2 and the right oscillating mechanism 3 are respectively and fixedly connected with a support 44, one side of the oil cylinder 1 is slidably connected with the position adjusting frame 42, the lower end of the position adjusting frame 42 is fixedly connected with the oscillating plate 41, a plurality of through holes are formed in the plate body of the oscillating plate 41 and densely distributed, the through holes are used for removing bubbles generated in the oscillating process and preventing the bubbles from being enriched on the lower surface of the plate body of the oscillating plate 41, the upper end of the position adjusting frame 42 is connected with the pulling rope 43 in a winding manner, two ends of the pulling rope 43 are respectively connected with a support 44, the position adjusting frame 42 is slidably connected with protruding strips on two sides of the oil cylinder 1, the oscillating plate 41 is arranged on the bottom layer of the sesame dregs, the oscillating plate 41 has through holes for exhausting air, and is moved in a direction different from the oscillating track by using telescopic pulling, not only can accelerate the oil on the bottom layer of the sesame residues to overflow upwards, but also can accelerate the oil and sesame residues to have layered interface level after the oil overflows, and is free of bulge and hollow, thereby being beneficial to the next oil extraction operation.

Referring to fig. 6, the position adjusting frame 42 includes a straight bar 421, a linear sliding rail 422, a moving assembly 423, a cross beam 428, a telescopic cylinder 424, a connecting bracket 425, a sliding groove 426 and a main line roller 427, the lower end of the straight bar 421 is provided with the sliding groove 426, the upper end of the straight bar 421 is connected with the main line roller 427 through a bolt, the main line roller 427 is fixedly connected with a pulling rope 43, the side wall of the straight bar 421 is fixedly connected with the linear sliding rail 422, the linear sliding rail 422 is slidably connected with the cross beam 428, the moving assembly 423 is further connected between the cross beam 428 and the linear sliding rail 422, both ends of the cross beam 428 are connected with the telescopic cylinder 424, the cylinder rod at the end of the telescopic cylinder 424 is fixedly connected with the connecting bracket 425, and the connecting bracket 425 is welded on the oscillation plate 41; the moving assembly 423 is consistent with the driving assembly 34 in structure, and the moving assembly 423 also includes a gear 341, a rack 342, and a driving motor 343, wherein the rack 342 of the moving assembly 423 is linearly and fixedly connected to the linear slide 422, the driving motor 343 of the moving assembly 423 is mounted on the cross beam 428, and the cross beam 428 slides along the linear slide 422.

Referring to fig. 7, the support 44 includes a sub-line roller 441, a line cylinder 442 and a rotary motor 443, the sub-line roller 441 is installed at one end of the support 44, the line cylinder 442 is installed at the other end of the support 44, the line cylinder 442 and the rotary motor 443 are connected to each other, and the pulling rope 43 is wound around both the line cylinder 442 and the sub-line roller 441.

Referring to fig. 8, in order to better show the flow of the implementation method of the oscillation oil separation device for producing sesame oil, the embodiment now provides an implementation method of the oscillation oil separation device for producing sesame oil, which includes the following steps:

s101: starting the moving assembly 423 and the telescopic cylinder 424, adjusting the position of the oscillation plate 41 in the oil cylinder 1, and closing the moving assembly 423 and the telescopic cylinder 424 after the adjustment is finished;

s102: pouring sesame dregs and water into the oil cylinder 1 according to a certain proportion;

s103: starting the rotating motor 443 to drive the bobbin 442 to rotate, further pulling the position adjusting frame 42 to move left and right along the side wall of the oil cylinder 1, and extracting oil in the lower layer of the sesame dregs to the upper layer through bottom layer oscillation;

s104: the driving assembly 34 is started to operate, the sliding block 33 drives the oil cylinder 1 to move along the circular ring 321, and sesame dregs and oil are further layered.

Example two

Referring to fig. 9 to 10, the difference between the first embodiment and the second embodiment is only that a telescopic assembly 5 is added in the present embodiment, the telescopic assembly 5 is added to enable the oil cylinder 1 to perform multiple small-amplitude aftershocks after a single large oscillation by using the elasticity of a spring 53, so as to save driving energy and improve the oil residue layering effect, the telescopic assemblies 5 are respectively disposed between the oil cylinder 1 and the left-direction swing mechanism 2, and between the oil cylinder 1 and the right-direction swing mechanism 3, the telescopic assembly 5 is composed of a rod body 51 and a sleeve 52 slidably sleeved outside the rod body 51, the end of the rod body 51 is connected with a slider 33 through a universal rotary joint, the end of the sleeve 52 is connected with the oil cylinder 1 through a universal rotary joint, the spring 53 is sleeved outside the rod body 51 and the sleeve 52, and two ends of the spring 53 are respectively and fixedly connected with the oil cylinder 1 and the slider 33.

In summary, the following steps: according to the oscillation oil distribution device for sesame oil production and the implementation method thereof, the oscillation track is set through the arc-shaped ring 321, the oscillation track is made to accord with natural oscillation, the oil cylinder 1 can be driven to have the high point of the track 322 to oscillate back to the low point of the track 322 by utilizing the self gravity of the oil cylinder 1, the driving energy is saved, and sesame slag is effectively prevented from splashing; the vibrating plate 41 is arranged at the bottom layer of the sesame residue, the vibrating plate 41 is provided with a through hole for exhausting, and the vibrating plate 41 is moved in the direction different from the vibrating track by utilizing telescopic traction, so that the upward overflow of oil at the bottom layer of the sesame residue can be accelerated, the oil and the sesame residue are layered and interface level after the oil overflows, no bulge or hollow exists, and the oil extraction operation in the next step is facilitated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.