CN114752437A

CN114752437A - Edible oil squeezing method

Info

Publication number: CN114752437A
Application number: CN202210264603.7A
Authority: CN
Inventors: 刘文法
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-07-15

Abstract

The invention relates to the field of edible oil, in particular to an edible oil squeezing method, which comprises the following steps: s1, firstly, removing impurities from the raw materials, and then cleaning; s2, drying the raw materials by using drying equipment; s3, crushing the dried raw materials, and then putting the crushed raw materials into a squeezing device for squeezing to obtain crude oil; s4, filtering and purifying the crude oil to obtain the edible oil. The squeezing device comprises a squeezing barrel for containing crushed raw materials, a transverse plate is fixed at the lower end of the squeezing barrel, a supporting mechanism is connected onto the transverse plate, a conical base is connected to the upper end of the supporting mechanism, a plurality of slit long holes are formed in the circumferential direction of the lower portion of the squeezing barrel, and a pressing mechanism is connected to the upper end of the squeezing barrel; this application can improve the efficiency of producing oil.

Description

Edible oil squeezing method

Technical Field

The invention relates to the field of edible oil, in particular to an edible oil squeezing method.

Background

The edible oil is animal or vegetable oil used in the process of making food, is liquid at normal temperature, is a necessity for human life, provides human body heat energy and essential fatty acid, and can promote absorption of fat-soluble vitamins.

The common edible oil preparation method comprises microwave-assisted method and supercritical CO₂Methods, organic solvent extraction methods, squeezing methods, etc.; the squeezing method has relatively low extraction rate, but is safe and simple, and can maximally retain nutritional ingredients. Along with the improvement of the living standard of people, people pay more and more attention to the health and nutrition of edible oil, but the traditional squeezing method has low squeezing efficiency and influences the oil production efficiency.

Disclosure of Invention

The invention aims to provide an edible oil squeezing method, which improves the oil outlet efficiency.

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

a method for squeezing edible oil, which comprises the following steps:

s1, firstly, removing impurities from the raw materials, and then cleaning;

s2, drying the raw materials by using a drying device;

s3, crushing the dried raw materials, and then putting the crushed raw materials into a squeezing device for squeezing to obtain crude oil;

s4, filtering and purifying the crude oil to obtain the edible oil.

And after drying in the step S2, the water content of the raw material is lower than 2%.

The squeezing device comprises a squeezing barrel for containing crushed raw materials, a transverse plate is fixed at the lower end of the squeezing barrel, a supporting mechanism is connected onto the transverse plate, a conical base is connected to the upper end of the supporting mechanism, a plurality of gap long holes are formed in the circumferential direction of the lower portion of the squeezing barrel, and a pressing mechanism is connected to the upper end of the squeezing barrel.

Drawings

FIG. 1 is a schematic flow diagram of a process for pressing edible oil;

FIG. 2 is a schematic view of the structure of the press apparatus;

FIG. 3 is a partial schematic view of a press apparatus;

FIG. 4 is a schematic view of the press cylinder construction;

FIG. 5 is a schematic view of the hold-down mechanism;

FIG. 6 is a schematic structural view of the stirring frame;

FIG. 7 is a schematic view of a conical base;

FIG. 8 is a schematic view of the structure of the communication socket;

FIG. 9 is a schematic view of the construction of the piston plate;

FIG. 10 is a schematic view of an embodiment for preventing clogging of slot holes and improving flow of crude oil;

FIG. 11 is a schematic view of a power ring configuration;

FIG. 12 is a schematic view of the structure of the carriage;

fig. 13 is a schematic structural view of the rail loop bracket.

In the figure:

a press drum 101; a slit long hole 102; a transverse plate 103; an outer tube 104; a leg 105;

a center frame 201; a rotating ring 202; a stirring frame 203;

a conical base 301; a support spring 302; a screw 303; a slide pipe 304;

a strut 401; a communication socket 402; a communication hole 403; a return spring 404; a switch screw 405; a piston plate 406;

a power ring 501; a vertical shaft 502; a roller 503; a horizontal axis 504;

an insert plate 601; a slide 602; a spring I603; an auxiliary wheel 604;

a vertical fork plate 701; a rail ring frame 702; and a spring II 703.

Detailed Description

As shown in fig. 1:

a method for squeezing edible oil, which comprises the following steps:

s1, firstly, removing impurities from the raw materials, and then cleaning;

s2, drying the raw materials by using drying equipment;

s4, filtering and purifying the crude oil to obtain the edible oil.

Through smashing the raw materials earlier, the cooperation squeezes the use of device, improves the efficiency of producing oil.

As shown in fig. 2-4:

the squeezing device comprises a squeezing cylinder 101, a slit long hole 102, a transverse plate 103 and a conical base 301; the press cylinder 101 is used for containing crushed raw materials, the transverse plate 103 is fixed at the lower end of the press cylinder 101, the supporting mechanism is connected to the transverse plate 103, the conical base 301 is connected at the upper end of the supporting mechanism, the slot holes 102 are circumferentially arranged at the lower part of the press cylinder 101, and the pressing mechanism is connected at the upper end of the press cylinder 101.

When in use, crushed raw materials are added into the press cylinder 101, the press cylinder 101 blocks the lower end through the conical base 301, so that the crushed raw materials stay in the press cylinder 101, the pressing mechanism is controlled to extrude the raw materials in the press cylinder 101, so that crude oil is obtained, and the crude oil flows out of the press cylinder 101 through the slotted hole 102;

the conical base 301 guides the crude oil at the pressed position to the slot 102 through the conical arrangement of the upper end surface thereof, and the crude oil flows out of the press cylinder 101.

As shown in fig. 7:

the supporting mechanism comprises a supporting spring 302 and a screw 303; the screw rod 303 is in threaded connection with the transverse plate 103, the supporting spring 302 is fixed at the upper end of the screw rod 303, and the upper end of the supporting spring 302 tightly pushes against the conical base 301.

When the pressing mechanism presses the raw material in the press cylinder 101, the pressed raw material presses the conical base 301 to move downwards, and then presses the supporting spring 302, when the pressure on the raw material is large enough, the raw material is pressed out to form crude oil, at the moment, the slot holes 102 are in contact with the raw material, and the crude oil flows out of the press cylinder 101 through the slot holes 102;

through rotating screw 303, the level of adjusting screw 303 changes the initial height of conical base 301 then to when squeezing the raw materials, in order to make the oil of squeezing out flow out by slot hole 102 smoothly, will adjust the dynamics of pushing down, thereby reach through rotating screw 303, adjust the dynamics of squeezing, make the device adapt to squeezing of different raw materials.

As shown in fig. 5-6:

the pressing mechanism comprises a center frame 201, a rotating ring 202 and a stirring frame 203; the center frame 201 is connected with the upper end of the press cylinder 101 in a sliding way, the rotating ring 202 rotates on the center frame 201, and the stirring frame 203 slides on the rotating ring 202.

A cross frame is arranged at the upper end of the squeezing cylinder 101, a first telescopic rod is arranged between the cross frame and the center frame 201, and when the squeezing is performed, the center frame 201 is controlled to descend, so that the rotating ring 202 is driven to descend into the squeezing cylinder 101 at the same time, and the squeezing of the raw materials is formed;

the second telescopic rod is arranged between the rotating ring 202 and the stirring frame 203, when the rotating ring 202 descends to a position not in contact with the raw material, the stirring frame 203 is controlled to descend, namely the lower end of the rotating ring 202 extends out, meanwhile, a motor arranged on the center frame 201 is started to transmit the stirring frame 203, the stirring frame 203 drives the rotating ring 202 to rotate on the center frame 201, so that circumferential stirring on the raw material is formed, when the center frame 201 gradually contacts with the raw material, the stirring frame 203 is gradually lifted until extrusion is performed, so that stirring of the raw material in the squeezing cylinder 101 is formed, the raw material is uniformly distributed, and the phenomenon that the raw material is unevenly distributed and the squeezing effect of the raw material is affected is avoided.

As shown in fig. 3-4, 9:

the press apparatus further comprises an outer tube 104, legs 105 and a piston plate 406; the outer tube 104 is fixed to the outside of the press cylinder 101, the piston plate 406 slides inside the outer tube 104, and the four legs 105 are each fixed to the lower end of the outer tube 104.

When squeezing, the piston plate 406 is pulled down at the same time, so that the suction of the plurality of slit long holes 102 is formed, and the outflow efficiency of the crude oil is improved;

meanwhile, the flowing crude oil is collected through the piston plate 406;

by the arrangement of the legs 105, support for the device is formed.

As shown in fig. 7-9:

the squeezing device also comprises a sliding pipe 304, a communicating seat 402, a support rod 401 and a return spring 404; the sliding pipe 304 is fixed at the lower end of the screw 303, the communicating seat 402 slides on the sliding pipe 304, the piston plate 406 rotates on the communicating seat 402, the support rod 401 is fixed at the center of the communicating seat 402, the support rod 401 penetrates through the screw 303 and the conical base 301, and the return spring 404 is arranged between the lower end of the communicating seat 402 and the sliding pipe 304.

When squeezing, the pressing mechanism moves downwards to contact with the supporting rod 401, and along with the pressing of the raw material by the continuous downward movement of the pressing mechanism, the pressing mechanism simultaneously pushes the supporting rod 401 to move downwards, so that the communicating seat 402 moves upwards and downwards on the sliding pipe 304, and then the piston plate 406 is driven to slide downwards in the outer pipe 104, so that the suction of the plurality of slit long holes 102 is formed, and the outflow efficiency of crude oil is improved;

when the downward-pressing mechanism moves upwards and returns, the elastic force of the return spring 404 pushes the communication seat 402 to rise to the lower end of the jacking screw 303, and then the piston plate 406 is driven to rise and return to the original position;

the communicating seat 402 is formed by combining a part sliding in the sliding pipe 304 and a part sliding outside the sliding pipe 304, and the support rod 401 is fixed on the communicating seat 402 part sliding in the sliding pipe 304, passes through the screw rod 303 and is in sliding connection with the conical base 301; the piston plate 406 rotates on the portion of the communication seat 402 that slides outside the slide tube 304.

Further:

the communication hole 403 is provided in the communication seat 402, the switch screw 405 is rotated on the communication seat 402, and the switch screw 405 is screwed with the piston plate 406.

After the squeezing is completed, the crude oil is stored in the space of the outer tube 104 on the piston plate 406, the switch screw 405 is rotated to drive the piston plate 406 to rotate in a threaded manner, so that the piston plate 406 slides down on the communicating seat 402, the communicating hole 403 is exposed, and the crude oil flows into the sliding tube 304 from the communicating hole 403 at the moment, and the crude oil is collected at the lower end of the sliding tube 304;

when communicating with the communication hole 403, the air pressure inside the outer tube 104 is balanced with the outside, whereby the air pressure inside the outer tube 104 is increased as the piston plate 406 rises, thereby improving the efficiency of the outflow of the crude oil;

the slide pipe 304 is provided with an elongated hole for sliding a coupling member between a portion of the communication seat 402 inside the slide pipe 304 and a portion of the communication seat 402 outside the slide pipe 304, and a communication hole 403 is provided in the coupling member to communicate the slide pipe 304 with the outer pipe 104.

And further:

the piston plate 406 is concave conical.

This allows the crude oil to be collected and to be present at the center of the piston plate 406, and to be completely discharged after the communication hole 403 is exposed.

Further:

the lower end of the sliding tube 304 is provided with a pointed end, and the sliding tube 304 is provided with a rotating button.

The arrangement of the pointed end is convenient for collecting crude oil at the lower end of the sliding pipe 304;

through the setting of the knob, the sliding pipe 304 is convenient to rotate to drive the screw 303 to rotate, and the extrusion pressure degree is adjusted.

As shown in fig. 10-13:

the squeezing device further comprises a power ring 501, vertical shafts 502, idler wheels 503, inserting plates 601, a sliding seat 602, a spring I603 and auxiliary wheels 604, the sliding seat 602 slides at the position, corresponding to the outer pipe 104, of each slot 102, the inserting plates 601 are fixed at the inner end of the sliding seat 602, the auxiliary wheels 604 rotate at the outer end of the sliding seat 602, the spring I603 is arranged between the sliding seat 602 and the outer pipe 104, the power ring 501 rotates on the squeezing cylinder 101, the four vertical shafts 502 are circumferentially fixed on the power ring 501, the idler wheels 503 rotate on the four vertical shafts 502, and the idler wheels 503 are in rolling connection with the auxiliary wheels 604.

When squeezing, a driving motor installed on the squeezing cylinder 101 is started, the power ring 501 is driven to rotate, the power ring 501 drives the roller 503 to rotate through the vertical shaft 502, when the roller 503 is in contact with the auxiliary wheel 604, squeezing on the auxiliary wheel 604 is formed, so that the sliding base 602 slides towards the inside of the outer pipe 104, the spring I603 is squeezed, the sliding base 602 slides inwards and simultaneously drives the inserting plate 601 to be inserted into the slot long hole 102, after the roller 503 rolls over the auxiliary wheel 604, the elastic force of the spring I603 pushes the sliding base 602 to drive the inserting plate 601 to slide out of the slot long hole 102, and reciprocating insertion of the slot long hole 102 is formed, so that cleaning of the slot long hole 102 is formed, and the situation that the slot long hole 102 is blocked by squeezed raw materials and outflow of crude oil is influenced is avoided.

As shown in fig. 10-13:

the squeezing device further comprises a transverse shaft 504, vertical fork plates 701, a guide rail ring frame 702 and a spring II 703, the transverse shaft 504 is arranged at the lower ends of the vertical shafts 502 in a rotating mode, the guide rail ring frame 702 slides on the outer pipe 104, the vertical fork plates 701 are fixed inside the guide rail ring frame 702, the vertical fork plates 701 penetrate through the piston plate 406 and the conical base 301, and the spring II 703 is arranged between the guide rail ring frame 702 and the supporting leg 105.

The guide rail ring frame 702 is tightly propped against the transverse shaft 504 through the elastic force of the spring II 703, when the transverse shaft 504 rotates along with the power ring 501 and four transverse shafts 504 simultaneously move into the grooves on the guide rail ring frame 702, the elastic force of the spring II 703 pushes the guide rail ring frame 702 to drive the vertical fork plate 701 to move upwards in the conical base 301, so that the vertical fork plate 701 is inserted into the raw material, and through the rotation of the power ring 501, the transverse shaft 504 slides out of the grooves on the guide rail ring frame 702 to push the guide rail ring frame 702 to drive the vertical fork plate 701 to move downwards, so that the vertical fork plate 701 is formed to reciprocate in the raw material, and thus squeezed crude oil can flow along the vertical fork plate 701 conveniently, the squeezed crude oil is effectively prevented from being adsorbed on the raw material and not easy to flow, and the squeezing efficiency is improved.

Claims

1. The edible oil squeezing method is characterized by comprising the following steps: the method comprises the following steps:

s1, firstly, removing impurities from the raw materials, and then cleaning;

s2, drying the raw materials by using drying equipment;

s4, filtering and purifying the crude oil to obtain the edible oil.

2. The method for squeezing edible oil according to claim 1, wherein: and after drying in the step S2, the water content of the raw material is lower than 2%.

3. The method for squeezing edible oil according to claim 1, wherein: the squeezing device comprises a squeezing cylinder (101) used for containing crushed raw materials, a transverse plate (103) is fixed at the lower end of the squeezing cylinder (101), a supporting mechanism is connected onto the transverse plate (103), a conical base (301) is connected to the upper end of the supporting mechanism, a plurality of slit long holes (102) are formed in the circumferential direction of the lower portion of the squeezing cylinder (101), and a pressing mechanism is connected to the upper end of the squeezing cylinder (101).

4. The method for squeezing edible oil according to claim 3, wherein: the supporting mechanism comprises a screw rod (303) in threaded connection with the transverse plate (103), a supporting spring (302) is fixed at the upper end of the screw rod (303), and the upper end of the supporting spring (302) tightly pushes the conical base (301).

5. The method for squeezing edible oil according to claim 4, wherein: the pressing mechanism comprises a center frame (201) which is connected to the upper end of the squeezing cylinder (101) in a sliding manner, a rotating ring (202) rotates on the center frame (201), and a stirring frame (203) slides on the rotating ring (202).

6. The method for squeezing edible oil according to claim 4, wherein: the squeezing device also comprises an outer pipe (104) fixed outside the squeezing cylinder (101), a piston plate (406) slides in the outer pipe (104), and the lower end of the outer pipe (104) is provided with four supporting legs (105).

7. The method for squeezing edible oil according to claim 6, wherein: the squeezing device further comprises a sliding pipe (304) fixed at the lower end of the screw rod (303), a communicating seat (402) slides on the sliding pipe (304), a piston plate (406) rotates on the communicating seat (402), a supporting rod (401) penetrating through the screw rod (303) and the conical base (301) is arranged at the center of the communicating seat (402), and a reset spring (404) is arranged between the lower end of the communicating seat (402) and the sliding pipe (304).

8. The method for squeezing edible oil according to claim 7, wherein: the communicating seat (402) is provided with a communicating hole (403), the communicating seat (402) is rotated with a switch screw rod (405), and the switch screw rod (405) is in threaded connection with the piston plate (406).

9. The method for squeezing edible oil according to claim 8, wherein: the piston plate (406) is concave conical.

10. The method for squeezing edible oil according to claim 7, wherein: the lower end of the sliding pipe (304) is provided with a pointed end, and the sliding pipe (304) is provided with a rotating button.