阅读说明：本技术 榨条式榨油机 (Bar type oil press ) 是由 黄兴辰 何善永 俞晏 于 2020-11-27 设计创作，主要内容包括：本发明公开了一种榨条式榨油机,包括：用于实现压榨操作的榨条式榨笼；分别与榨笼的进料端、出料端相配合,形成送料、榨料循环的送料单元；设置在榨笼下方的至少两个真空储油组件；其中,所述榨笼的正下方设置有相配合的接油盘,其在与储油机构相配合的一侧设置有出油口；所述接油盘与各真空储油组件通过转动设置在接油盘下方的分油槽进而连通。本发明提供一种榨条式榨油机,其是在单机的基础上,为满足用户需要,增加了使用功能和提高了自动化程度,变单一榨机为压(榨)滤(油)输(料)组合机,该机结构紧凑,占地面积小,大大减轻用户劳动强度。(The invention discloses a bar-pressing type oil press, which comprises: a pressing bar type pressing cage for realizing pressing operation; the feeding unit is matched with the feeding end and the discharging end of the squeezing cage respectively to form feeding and squeezing circulation; at least two vacuum oil storage assemblies arranged below the squeezing cage; wherein, an oil receiving disc matched with the squeezing cage is arranged right below the squeezing cage, and an oil outlet is arranged at one side matched with the oil storage mechanism; connect the food tray and each vacuum oil storage subassembly through rotating the oil distribution groove that sets up in connecing food tray below and then communicate. The invention provides a bar-type oil press, which is based on a single machine, increases the use function and improves the automation degree in order to meet the needs of users, changes a single press into a combined press for pressing (pressing), filtering (oil) and conveying (material), has compact structure and small floor area, and greatly lightens the labor intensity of users.)

1. A bar type oil press is characterized by comprising:

a pressing bar type pressing cage for realizing pressing operation;

the feeding unit is matched with the feeding end and the discharging end of the squeezing cage respectively to form feeding and squeezing circulation;

at least two vacuum oil storage assemblies arranged below the squeezing cage;

wherein, an oil receiving disc matched with the squeezing cage is arranged right below the squeezing cage, and an oil outlet is arranged at one side matched with the oil storage mechanism;

connect the food tray and each vacuum oil storage subassembly through rotating the oil distribution groove that sets up in connecing food tray below and then communicate.

2. The bar press of claim 1, wherein the cage is configured to include: the horizontal screw press shaft is provided with an electric heating mechanism at one side matched with the feeding end;

a barrel matched with the screw press shaft to realize the pressing effect;

wherein, the discharge hole arranged at the output end of the barrel is communicated with the feeding hopper of the feeding unit through the matched feeding mechanism;

the device is characterized in that a first crushing cutter rotating along with the squeezing screw shaft is arranged at a position matched with the discharge hole, and a second crushing cutter which is static is oppositely arranged at a position of the squeezing chamber matched with the first crushing cutter.

3. The bar press of claim 2, wherein the first crushing blade and the second crushing blade are each configured to include:

the annular cutter holder with the gap is provided with connecting lugs which are matched with each other in an extending way at the gap;

a plurality of L-shaped blades respectively arranged on one side of the annular cutter holder;

wherein, each connecting lug is provided with a first fixing hole which is matched with the connecting lug so as to realize the connection with the pressing screw shaft and the pressing chamber through a fixing mechanism which is matched with the connecting lug;

the L-shaped blades on the first crushing knife and the second crushing knife are in lap joint structures at intervals of a preset distance.

4. The bar press of claim 2, wherein the screw shaft is configured to comprise, from an inlet end to an outlet end: the device comprises a material pushing section, a pre-pressing end, a pressure releasing section and a strong pressing section, wherein a retainer ring is arranged on one side of a pressing screw shaft matched with the material feeding end, a cake supporting section is arranged on one side of the pressing screw shaft matched with the material discharging end, and a conical surface structure is configured on one side of the pressing screw shaft matched with a barrel;

the material pushing section is provided with a plurality of spirally arranged material pushing teeth;

a plurality of first squeezing teeth, second squeezing teeth and third squeezing teeth which are spirally arranged and used for providing low pressure, medium pressure and strong pressure are respectively arranged on each of the pre-pressing section, the pressure relief section and the strong pressure section, and a first preset distance, a second preset distance and a third preset distance are respectively arranged between each of the first squeezing teeth, the second squeezing teeth and the third squeezing teeth and the barrel;

the pitch and the depth of the first press tooth are respectively configured as follows: 55mm and 20 mm;

the pitch and the depth of the second press tooth are respectively configured as follows: 50mm, 5 mm;

the pitch and the depth of the third press tooth are respectively configured as follows: 45mm, 2.5 mm.

5. The oil press of claim 4, wherein the barrel is configured to include at least a front ring, a middle ring, and a rear ring cooperating with the pushing section, the pre-pressing end, the pressure-releasing section, and the strong-pressing section;

a cake discharging ring matched with the cake supporting section is arranged on one side of the rear-section strip pressing ring, and the second crushing knife is connected with the rear-section strip pressing ring through a compression bolt and a compression nut which are matched with each other;

each section of the pressing ring is respectively defined by a first pressing strip, a second pressing strip, a third pressing strip and a fourth pressing strip which are adjacent to each other in a ring shape in space and are limited by the matched pressing rings;

the first squeezing strip, the second squeezing strip, the third squeezing strip and the fourth squeezing strip are all configured to be rectangular structures, chamfers are arranged at the corners of the second squeezing strip and the fourth squeezing strip in the longitudinal direction, the angle of the chamfer close to one side of the barrel is configured to be larger than the angle of the chamfer at the other side, and the notch groove of the arc-shaped structure is arranged on one side of the fourth squeezing strip facing the barrel.

6. The bar press of claim 1, wherein the feed unit is configured to include:

a feeding hopper matched with the discharge end of the pressing cage;

the conveying assembly is matched with the feeding hopper to realize fixed-point conveying of materials;

the discharging component is matched with the transmission component to convey the materials to the feeding end of the pressing cage;

wherein the transmission component is configured to include:

the first transmission screw rod is connected with the first power mechanism through a first transmission mechanism matched with the first transmission screw rod;

the second conveying screw rod is used for realizing vertical lifting of the material and is connected with a second power mechanism through a second transmission mechanism matched with the second transmission mechanism;

the L-shaped shell is used for encapsulating the first conveying screw and the second conveying screw;

the inverted Y-shaped material distributing mechanism is communicated with the discharge side of the shell, and a material distributing plate is pivoted at the bifurcation part of the inverted Y-shaped material distributing mechanism;

one end of the material distributing plate is connected with the first electric push rod, so that a material outlet and a cake outlet which are matched with the material discharging assembly and the material slag collecting device are respectively formed at two free ends of the material distributing mechanism.

7. The string press as set forth in claim 6, wherein the discharge assembly is configured to include:

a temporary storage hopper matched with the discharge port;

the hopper is matched with the temporary storage hopper in a vertical space, and a material stirring mechanism for conveying materials to the barrel is arranged in the hopper;

the bottom of the temporary storage hopper is provided with an inclined part, and the inclined part is provided with a material baffle plate in a sliding manner through a sliding chute, a sliding rail and/or a roller which are matched with each other;

a second electric push rod connected with the striker plate is arranged on the outer side of the temporary storage hopper;

the stirring mechanism is configured to include:

the upper end of the rotating shaft is provided with a kick-out device for stirring and stirring materials, and the lower end of the rotating shaft is provided with a pressing spiral sheet which is matched with the feeding end of the pressing cage to realize forced feeding.

8. The bar type oil press as claimed in claim 1, wherein the oil outlet is provided with a baffle plate longitudinally and slidably, and a bending part for holding is provided thereon;

each vacuum oil storage assembly is configured to include:

the oil storage barrel is provided with a detachable filter disc above;

and the vacuum suction mechanism is arranged in the oil storage barrel and corresponds to the filter disc in space.

9. The bar press of claim 8, wherein the filter disc is configured to include at least two layers of screens, and the apertures of the upper layer of screens are configured to be larger than the apertures of the lower layer of screens;

wherein, the upper filter screen is also provided with a housing matched with the oil storage barrel, and a funnel-shaped oil inlet matched with the oil distribution groove is arranged on the housing;

a fourth power mechanism is arranged above the housing, and a power output end of the fourth power mechanism penetrates through the top of the housing to be in contact with the upper-layer filter screen;

the power output end is provided with at least one scraping plate matched with the upper-layer filter screen;

and at least one layer of spiral slag storage plate is arranged at the position, close to the outer side edge, of the top of the housing.

10. The oil press bar as claimed in claim 8, wherein the bottom of the oil receiving pan and the inner side wall of the housing are provided with electromagnetic heating rings;

the bottom of the oil storage barrel is provided with a telescopic mechanism matched with the rack, the telescopic mechanism is configured to adopt a hydraulic cylinder, the bottom of the oil storage barrel is provided with a matched fixed plate, at least one pressure sensor is arranged on the fixed plate, and the fixed plate is provided with a plurality of telescopic sleeve rods for guiding outside the hydraulic cylinder;

the oil storage barrel is configured into a double-layer structure, an oil outlet valve communicated with the outside is arranged on one side of the oil storage barrel, and an inclined part matched with the oil outlet valve is arranged at the bottom of the oil storage barrel;

and the side wall of the oil storage barrel is provided with a matched transparent observation window.

Technical Field

The invention relates to equipment used in grain and oil processing situations. More particularly, the invention relates to a bar press for use in grain and oil processing.

Background

The existing oil pressing modes generally comprise hot pressing and cold pressing, wherein the hot pressing (cooked pressing) is that before oil pressing, oil materials are subjected to high-temperature heating treatment to cause a series of changes inside the oil materials: the oil extracted by the process has pure taste and rich oil fragrance; however, the process has the disadvantages that the color of the extracted oil is dark, the acid value is increased, and the oil is easy to become silted when being fried in east and west. And some of the nutrients in the oil (vitamin E, sterols, carotenoids, etc.) are lost to the high temperatures generated by hot pressing.

The cold pressing method (raw pressing method) is an oil pressing process in which oil is sent to an oil press to be pressed in a low-temperature state without being heated or slightly heated before being pressed. Cold pressing processes are generally carried out in an environment below 60 ℃. In order to improve the quality of cold pressed oil, the raw material of pressed oil generally needs to be refined. The cold-pressed oil has low temperature, low acid value and high quality, the natural flavor and color of the oil are retained in the cold-pressed finished oil, the nutritional ingredients in the oil are completely preserved, the protein denaturation degree is low, and the comprehensive utilization of the protein is easier. Generally, cold pressed oil has a low smoke point, is not easy to silt, has a clearer color, is better in color and luster than hot pressed oil, and has the defects that the production process is long, so that the yield is low compared with that of hot pressed oil.

Therefore, under normal conditions, the squeezing modes of different raw materials need to be distinguished, the existing equipment cannot realize hot squeezing or cold squeezing simultaneously in one piece of equipment, the integration among the equipment is poor, and the occupied area is large.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages described hereinafter.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a bar press comprising:

a pressing bar type pressing cage for realizing pressing operation;

the feeding unit is matched with the feeding end and the discharging end of the squeezing cage respectively to form feeding and squeezing circulation;

at least two vacuum oil storage assemblies arranged below the squeezing cage;

wherein, an oil receiving disc matched with the squeezing cage is arranged right below the squeezing cage, and an oil outlet is arranged at one side matched with the oil storage mechanism;

connect the food tray and each vacuum oil storage subassembly through rotating the oil distribution groove that sets up in connecing food tray below and then communicate.

Preferably, the cage is configured to include: the horizontal screw press shaft is provided with an electric heating mechanism at one side matched with the feeding end;

a barrel matched with the screw press shaft to realize the pressing effect;

wherein, the discharge hole arranged at the output end of the barrel is communicated with the feeding hopper of the feeding unit through the matched feeding mechanism;

the device is characterized in that a first crushing cutter rotating along with the squeezing screw shaft is arranged at a position matched with the discharge hole, and a second crushing cutter which is static is oppositely arranged at a position of the squeezing chamber matched with the first crushing cutter.

Preferably, the first crushing blade and the second crushing blade are each configured to include:

the annular cutter holder with the gap is provided with connecting lugs which are matched with each other in an extending way at the gap;

a plurality of L-shaped blades respectively arranged on one side of the annular cutter holder;

wherein, each connecting lug is provided with a first fixing hole which is matched with the connecting lug so as to realize the connection with the pressing screw shaft and the pressing chamber through a fixing mechanism which is matched with the connecting lug;

the L-shaped blades on the first crushing knife and the second crushing knife are in lap joint structures at intervals of a preset distance.

Preferably, the screw shaft is configured to comprise, from the inlet end to the outlet end: the device comprises a material pushing section, a pre-pressing end, a pressure releasing section and a strong pressing section, wherein a retainer ring is arranged on one side of a pressing screw shaft matched with the material feeding end, a cake supporting section is arranged on one side of the pressing screw shaft matched with the material discharging end, and a conical surface structure is configured on one side of the pressing screw shaft matched with a barrel;

the material pushing section is provided with a plurality of spirally arranged material pushing teeth;

a plurality of first squeezing teeth, second squeezing teeth and third squeezing teeth which are spirally arranged and used for providing low pressure, medium pressure and strong pressure are respectively arranged on each of the pre-pressing section, the pressure relief section and the strong pressure section, and a first preset distance, a second preset distance and a third preset distance are respectively arranged between each of the first squeezing teeth, the second squeezing teeth and the third squeezing teeth and the barrel;

the pitch and the depth of the first press tooth are respectively configured as follows: 55mm and 20 mm;

the pitch and the depth of the second press tooth are respectively configured as follows: 50mm, 5 mm;

the pitch and the depth of the third press tooth are respectively configured as follows: 45mm, 2.5 mm.

Preferably, the barrel is configured to at least comprise a front-section barrel ring, a middle-section barrel ring and a rear-section barrel ring which are matched with the material pushing section, the pre-pressing end, the pressure relief section and the strong pressure section;

a cake discharging ring matched with the cake supporting section is arranged on one side of the rear-section strip pressing ring, and the second crushing knife is connected with the rear-section strip pressing ring through a compression bolt and a compression nut which are matched with each other;

each section of the pressing ring is respectively defined by a first pressing strip, a second pressing strip, a third pressing strip and a fourth pressing strip which are adjacent to each other in a ring shape in space and are limited by the matched pressing rings;

the first squeezing strip, the second squeezing strip, the third squeezing strip and the fourth squeezing strip are all configured to be rectangular structures, chamfers are arranged at the corners of the second squeezing strip and the fourth squeezing strip in the longitudinal direction, the angle of the chamfer close to one side of the barrel is configured to be larger than the angle of the chamfer at the other side, and the notch groove of the arc-shaped structure is arranged on one side of the fourth squeezing strip facing the barrel.

Preferably, the feeding unit is configured to include:

a feeding hopper matched with the discharge end of the pressing cage;

the conveying assembly is matched with the feeding hopper to realize fixed-point conveying of materials;

the discharging component is matched with the transmission component to convey the materials to the feeding end of the pressing cage;

wherein the transmission component is configured to include:

the first transmission screw rod is connected with the first power mechanism through a first transmission mechanism matched with the first transmission screw rod;

the second conveying screw rod is used for realizing vertical lifting of the material and is connected with a second power mechanism through a second transmission mechanism matched with the second transmission mechanism;

the L-shaped shell is used for encapsulating the first conveying screw and the second conveying screw;

the inverted Y-shaped material distributing mechanism is communicated with the discharge side of the shell, and a material distributing plate is pivoted at the bifurcation part of the inverted Y-shaped material distributing mechanism;

one end of the material distributing plate is connected with the first electric push rod, so that a material outlet and a cake outlet which are matched with the material discharging assembly and the material slag collecting device are respectively formed at two free ends of the material distributing mechanism.

Preferably, the outfeed assembly is configured to include:

a temporary storage hopper matched with the discharge port;

the hopper is matched with the temporary storage hopper in a vertical space, and a material stirring mechanism for conveying materials to the barrel is arranged in the hopper;

the bottom of the temporary storage hopper is provided with an inclined part, and the inclined part is provided with a material baffle plate in a sliding manner through a sliding chute, a sliding rail and/or a roller which are matched with each other;

a second electric push rod connected with the striker plate is arranged on the outer side of the temporary storage hopper;

the stirring mechanism is configured to include:

the upper end of the rotating shaft is provided with a kick-out device for stirring and stirring materials, and the lower end of the rotating shaft is provided with a pressing spiral sheet which is matched with the feeding end of the pressing cage to realize forced feeding.

Preferably, the oil outlet is longitudinally and slidably provided with a baffle plate, and a bending part for holding is arranged on the baffle plate;

each vacuum oil storage assembly is configured to include:

the oil storage barrel is provided with a detachable filter disc above;

and the vacuum suction mechanism is arranged in the oil storage barrel and corresponds to the filter disc in space.

Preferably, the filter disc is configured to include at least two layers of filter screens, and the pore size of the filter screen positioned at the upper layer is configured to be larger than that of the filter screen positioned at the lower layer;

wherein, the upper filter screen is also provided with a housing matched with the oil storage barrel, and a funnel-shaped oil inlet matched with the oil distribution groove is arranged on the housing;

a fourth power mechanism is arranged above the housing, and a power output end of the fourth power mechanism penetrates through the top of the housing to be in contact with the upper-layer filter screen;

the power output end is provided with at least one scraping plate matched with the upper-layer filter screen;

and at least one layer of spiral slag storage plate is arranged at the position, close to the outer side edge, of the top of the housing.

Preferably, the bottom of the oil receiving disc and the side wall of the inner part of the housing are provided with electromagnetic heating rings;

the bottom of the oil storage barrel is provided with a telescopic mechanism matched with the rack, the telescopic mechanism is configured to adopt a hydraulic cylinder, the bottom of the oil storage barrel is provided with a matched fixed plate, at least one pressure sensor is arranged on the fixed plate, and the fixed plate is provided with a plurality of telescopic sleeve rods for guiding outside the hydraulic cylinder;

the oil storage barrel is configured into a double-layer structure, an oil outlet valve communicated with the outside is arranged on one side of the oil storage barrel, and an inclined part matched with the oil outlet valve is arranged at the bottom of the oil storage barrel;

and the side wall of the oil storage barrel is provided with a matched transparent observation window.

The invention at least comprises the following beneficial effects: the oil press is a high-speed pancake type cold and hot dual-purpose oil press, is particularly suitable for low-temperature pressing of various vegetable oil materials such as rapeseeds, cotton seeds, soybeans, peanut kernels, linseed seeds, sunflower seeds and the like, reserves the nutritional ingredients of the vegetable oil materials, is clear and not turbid, is beneficial to subsequent treatment procedures such as filtration and refining, ensures that the oil products have pure color and taste and do not overflow, and produces green and environment-friendly edible oil.

Secondly, the invention changes a single squeezer into a combined squeezer for squeezing, filtering (oil) and conveying (material) on the basis of a single squeezer so as to meet the needs of users, increase the use function and improve the automation degree, and has compact structure, small occupied area and great reduction of the labor intensity of users.

Thirdly, the structure of the oil groove of the pressing ring is improved and limited, and the structure of the pressing chamber is completely arranged by adopting pressing strips, so that the oil line gap is small, the slag overflow phenomenon is greatly improved, and the oil extraction device has the remarkable characteristics of quick oil outlet, less slag in oil, good oil quality and the like. And the easily damaged parts are made of high-quality alloy steel, so that the service life is obviously prolonged.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic front view of a bar press according to an embodiment of the present invention;

fig. 2 is a schematic front view of a bar press according to an embodiment of the present invention;

fig. 3 is a schematic side view of a bar press according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a layout structure of a feeding unit in a bar type oil press according to an embodiment of the invention;

fig. 5 is a schematic diagram of the external structure matching layout of a feeding unit of a bar type oil press according to an embodiment of the invention;

fig. 6 is another side view schematically illustrating the structure of the bar press according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of the cooperation of the feeding unit in the bar type oil press according to an embodiment of the invention;

fig. 8 is a schematic structural diagram of the cooperation between a temporary storage hopper and a hopper in the oil press of the strip type according to an embodiment of the invention;

fig. 9 is a schematic structural diagram of a pressing screw shaft in a bar type oil press according to an embodiment of the invention;

fig. 10 is a schematic structural diagram illustrating the cooperation of a first crushing blade and a second crushing blade in a bar press according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a barrel of the bar type oil press according to an embodiment of the invention;

fig. 12 is a schematic side view of a barrel of the oil press in the form of a bar according to an embodiment of the present invention;

FIG. 13 is an enlarged partial view of A in FIG. 12;

FIG. 14 is a schematic view of a first press bar configuration in accordance with an embodiment of the present invention;

FIG. 15 is a schematic view of a second press bar configuration in accordance with an embodiment of the present invention;

FIG. 16 is a schematic view of a third press bar configuration in accordance with an embodiment of the present invention;

FIG. 17 is a side view of a portion of a second press bar of the present invention;

FIG. 18 is a side view of a portion of a fourth press bar of the present invention;

FIG. 19 is a schematic view of the structure of the housing and the filter screen of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It is to be understood that in the description of the present invention, the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are used only for convenience in describing the present invention and for simplification of the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise specifically stated or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements.

Fig. 1 to 4 show an implementation form of a bar press according to the present invention, which includes:

the bar pressing type pressing cage 1 for realizing pressing operation adopts the design of a bar pressing type structure, so that the oil pressing effect is better;

the feeding unit 2 is used for horizontally conveying and vertically conveying the materials from the hopper through the feeding unit to lift the height of the materials after the materials enter the hopper, so that the height of the materials can be matched with the height position of the feeding end of the squeezing cage, and meanwhile, the primarily squeezed cake materials are conveyed again through the discharging end, so that the cake materials can be secondarily squeezed, and the use requirements of raw squeezing processing are met;

the at least two vacuum oil storage assemblies 3 are arranged below the squeezing cage and are used for filtering and outputting oil output by the squeezing cage, so that the oil does not need to be matched with an oil filter for secondary processing, and the integration level of the equipment is high;

in the structure, the oil output from the squeezing cage is guided by the oil receiving disc, so that the oil can smoothly flow to the vacuum oil storage assembly, and the whole oil processing process of the equipment is further completed;

the oil receiving disc is communicated with each vacuum oil storage assembly through the oil distributing groove 6 which is rotatably arranged below the oil receiving disc, in the structure, the oil distributing groove which is matched with each vacuum oil storage assembly is arranged below the oil receiving disc, the oil distributing groove can be matched with each oil storage assembly, in the practical use, the oil distributing groove can be arranged into a U-shaped structure as required and is pivoted or hinged below the oil receiving disc through the mounting piece, in the use process, the oil distributing groove can be horizontally arranged as required, the oil quantity can be uniformly and respectively conveyed to the adjacent oil storage assemblies, the oil distributing groove can be shifted to one direction to incline to one oil storage assembly, and then one oil storage assembly is matched to finish the conveying of oil, after one oil storage assembly finishes the oil storage, the oil can be continuously conveyed to the other oil storage mechanism through the shifting of the angle of the oil distributing groove, under the condition, the oil pan can be operated without performing any closed operation on the oil pan, meanwhile, due to the pressure transmission mechanism arranged under the oil storage mechanism, the oil volume of the oil pan can be judged to exceed the requirement under the action of larger pressure of the oil storage mechanism in actual operation, and further the oil transportation of the oil pan needs to be switched, the change of the angle of the oil distribution groove can be realized by the rotation of the motor or the pushing of the electric push rod, namely, the oil distribution groove can be arranged on the output shaft of the motor, and is spatially positioned below the oil outlet of the oil pan, in the scheme, the integration of the oil distribution groove is better by limiting the structures of all parts in the equipment, the single pressing machine can be a pressing (pressing) filtering (oil) transportation (material) combined machine, the machine has compact structure and small floor area, and the labor intensity of a user is greatly reduced Cold and hot dual-purpose oil press, the low temperature of multiple vegetable oil such as specially adapted rape seed, the cottonseed, the soybean, the peanut benevolence, the linseed, sunflower seeds squeezes, remain the nutrient composition of vegetable oil, the oil is limpid, not turbid, do benefit to subsequent processing procedures such as filtration and refining, guarantee that the oil colour and taste is pure, the non-overflow pot, produce green edible oil, and in actual operation, each part supports the location through matched with frame 59, and the one end of equipment sets up matched with touch electrical control equipment 7, guarantee the interlock nature of each part work of equipment.

3-4, 9-10, 12 in another example, the cage is configured to include:

the horizontal squeezing screw shaft 8 is provided with an electric heating mechanism 9 on one side matched with the feeding end, the electric heating mechanism is used for carrying out spiral propelling type conveying on input materials, meanwhile, a barrel structure is matched in the conveying process to squeeze oil out on the materials to be squeezed, the electric heating mechanism is arranged at one end of the squeezing screw shaft, the electric heating mechanism has the effect that the materials are heated when entering the squeezing screw shaft to convey the materials, the quantity of the conveyed materials is effectively limited due to the limitation of a gap between the squeezing screw shaft and the barrel, the heating of the materials can be completed in short-distance conveying, but the heat can be controlled below 60 ℃, the oil outlet effect of the electric heating mechanism is ensured, the output oil quantity of the electric heating mechanism can be improved, and the processing speed of the electric heating mechanism can be effectively ensured;

the barrel 10 is matched with the pressing screw shaft to realize the pressing effect, has the function of limiting materials and pressing the materials under the propelling action of the pressing screw shaft, so that the materials can quickly produce oil;

the discharge hole arranged at the output end of the barrel is communicated with a feeding hopper of the feeding unit through a feeding mechanism 11 matched with the discharge hole, and in the structure, slag materials output by the pressing screw shaft are output to the feeding hopper through the action of the feeding mechanism, so that secondary circular pressing is realized;

the first crushing cutter 13 rotating along with the rotation is arranged at the position of the pressing screw shaft matched with the discharge port, the static second crushing cutter is oppositely arranged at the position of the pressing chamber matched with the first crushing cutter, in the structure, the two crushing cutters 14 arranged oppositely smash the massive output material slag, so that the quantity of oil blocks circularly output at the later period is controllable, and the better effect of circular pressing at the later period is ensured;

the first and second crushing knives are each configured to include:

the annular cutter holder 15 with the notch is provided with the connecting lugs 12 which are matched with each other in an extending mode, the first crushing cutter and the second crushing cutter can be easily arranged on the screw pressing shaft through the design of the connecting lugs in the structure, the connecting lugs are used for enabling the cutters to be connected with the screw pressing shaft, the cutter holder can be arranged into a plurality of arc-shaped structures according to use requirements, and then the annular structures are formed in space through the arc-shaped structures, so that material residues are crushed through the action of the L-shaped blades in the rotating process of the screw pressing shaft;

the L-shaped blades 16 are respectively arranged on one side of the annular cutter holder, each blade and the cutter holder can be integrally formed and can also be arranged in a welding mode, in actual operation, the structure of the blades and the structure of the cutting edges can be improved, so that the crushing effect meets the crushing requirement, if the blades are arranged in a wavy mode or the surfaces of the blades are arranged in corrugated grooves, the crushing effect meets the use requirement, meanwhile, due to the structure of the corrugated grooves, guide grooves can be formed in space, materials are guided in the crushing process, slag does not fly in the crushing process, the stability of the materials in equipment is good, after the crushing effect meets the requirement, no slag is accumulated, no slag returns, and the continuity of material squeezing is guaranteed;

in the structure, the crushing cutters are arranged on the squeezing screw shaft by arranging the first fixing holes, so that the matching stability between structural components is ensured;

each L-shaped blade on the first crushing knife and the second crushing knife forms a lap joint structure in space in a mode of spacing a preset distance, in the structure, one knife is in a static state, the other knife is in a rotating state, and through the lap joint structure of the blades in the equipment, which is similar in space, the two blades are in a crushing process in space, the two blades do not influence each other, and can interact and interfere with each other in work, the mutual supplement can meet the effective crushing effect, meanwhile, the flying material of the material slag in work is reduced, meanwhile, compared with the existing equipment, the thin cake material slag can be effectively crushed, and the crushing effect is better.

In another example, as shown in fig. 9, the screw shaft is configured to comprise, from an inlet end to an outlet end:

a material pushing section 18, a pre-pressing end 19, a pressure relief section 20 and a strong pressure section 21, wherein a retainer ring 22 is arranged at one side of the pressing screw shaft matched with the material inlet end, a cake supporting section 23 is arranged at one side of the pressing screw shaft matched with the material outlet end, one side of the barrel is provided with a conical surface structure, in the structure, the material entering the squeezing screw shaft is pushed by the action of the material pushing end, so that the material can be smoothly squeezed, the entering amount of the material is limited, and simultaneously, under the action of the pre-pressing section, the material is pre-pressed for the second time by adopting low pressure, and is further blended between the high pressure and the low pressure by the action of the pressure relief section to complete the pressure relief operation and ensure the continuity of the material in the conveying process, the strong pressure section is used for carrying out strong pressure on the material, the thickness of the discharged material is limited, and the oil quantity in the material can be effectively extruded;

the material pushing section is provided with a plurality of spirally arranged material pushing teeth 24, the spirally arranged teeth are used for pushing the material, and the material pushing teeth are used for spirally pushing the material and crushing the material for the first time;

the prepressing section, the pressure relief section and the strong pressure section are respectively provided with a plurality of first squeezing teeth 25, second squeezing teeth 26 and third squeezing teeth 27 which are spirally arranged and provide low pressure, medium pressure and strong pressure, and the first squeezing teeth, the second squeezing teeth and the third squeezing teeth are respectively provided with a first preset distance, a second preset distance and a third preset distance from the barrel;

the pitch and the depth of the first press tooth are respectively configured as follows: 55mm and 20 mm;

the pitch and the depth of the second press tooth are respectively configured as follows: 50mm, 5 mm;

the pitch and the depth of the third press tooth are respectively configured as follows: 45mm, 2.5 mm.

The screw pitch, the spiral shell depth through squeezing the tooth to each section are injectd in this kind of structure, and then make equipment at the overall process that squeezes, through the design to equipment structure for it can cooperate with the processing of equipment, and then guarantees that equipment can be processed in the segmentation to the processing of material in the use, and the segmentation is squeezed and is injectd, guarantees that the output thickness of material is controllable, squeezes the effect better.

As shown in fig. 11-18, in another example, the barrel is configured to include at least a front-stage strip-squeezing ring 28, a middle-stage strip-squeezing ring 29 and a rear-stage strip-squeezing ring 30 which are matched with a material-pushing section, a pre-pressing end, a pressure-releasing section and a strong-pressing section, in this structure, the interference between each section and the material is controllable through the strip-squeezing ring matched with each section of the pressing screw shaft, and the processing effect of the barrel is ensured to meet the use requirement;

the cake discharging ring 31 matched with the cake propping section is arranged on one side of the rear-section cake pressing ring, the second crushing knife is connected with the rear-section cake pressing ring through a compression bolt and a compression nut which are matched, and the design of the cake discharging ring in the structure enables the material slag output from the high-pressure section to be smoothly output;

each section of strip pressing ring is respectively formed by a first strip pressing ring 71, a second strip pressing ring 72, a third strip pressing ring 73 and a fourth strip pressing ring 74 which are adjacent to each other, and the adjacent first strip pressing ring, the second strip pressing ring 72, the third strip pressing ring 73 and the fourth strip pressing ring 74 are spatially arranged to be limited by the matched strip pressing rings, in the structure, through the arrangement of different strip pressing rings, if the front section strip pressing ring is arranged by adopting the first strip pressing ring, the second strip pressing ring and the fourth strip pressing ring, 12 pieces of first strip pressing rings, 8 pieces of second strip pressing rings and 4 pieces of fourth strip pressing rings are spatially arranged by adopting the second strip pressing rings, the third strip pressing rings and the fourth strip pressing rings, 8 pieces of second strip pressing rings, 12 pieces of third strip pressing rings and 4 pieces of fourth strip pressing rings;

the first press strip, the second press strip, the third press strip and the fourth press strip are all configured to be rectangular structures, chamfers 32 are arranged at the corners of the second press strip and the fourth press strip which extend longitudinally, the chamfer angle at one side close to the press chamber is configured to be larger than the chamfer angle at the other side, a notch groove 75 (circular notch) with an arc structure is arranged at one side facing the press chamber of the fourth press strip, the working surface at the inner side of the fourth press strip is provided with a circular notch, 4 press strips are uniformly distributed on the circumference at intervals of 90 degrees so as to increase the friction between the material and the press chamber, the material is pushed smoothly, the material is not slipped and remained when the press strip advances in the press chamber, the press strip is not wrapped by the material, in the structure, the press strips are all configured to be rectangular structures which are arranged in space to be annular structures, the gap between the press strips and the press strips can be used as oil to output outwards, and at least one matched oil line 33 can be arranged on each press strip longitudinally according to needs, in actual operation, the oil line of the first pressed strip is deep, the oil line of the third pressed strip is shallow, the angles of the second pressed strip are chamfered respectively, the chamfer size can be controlled to be large on one side and small on the other side, the third pressed strip can be adjusted according to needs in actual operation, namely the other side can be replaced after being worn, the service life of the equipment is prolonged, the structure of each pressed strip is limited in the process, the contact area of the material and a pressing ring is increased in the using process of the equipment, the service life is prevented from being influenced by abrasion, the pressing effect is better, the pressing chamber and the pressing screw shaft are turned over to be used for the second time under the condition of small chamfer abrasion, the service life of the pressing chamber and the pressing screw shaft is prolonged, and through experiments, the matching structure of the pressing chamber and the pressing screw shaft can obviously improve the slag content and the oil yield compared with the prior art, and the concrete table shows that:

equipment structure	Slag content in oil	Oil yield
			Existing squeezing ring type	5％	33-35％
Strip pressing type	2.5％-3％	36-39％

4-7, in another example, the feed unit is configured to include:

the feeding hopper 34 is matched with the discharge end of the squeezing cage and is used for conveying materials into equipment, and the materials can be conveyed quantitatively in actual operation so as to realize the effect of circular feeding and circular squeezing;

the conveying assembly 35 is matched with the feeding hopper to realize fixed-point conveying of materials and is used for conveying the materials of the feeding hopper;

a discharge assembly 36 cooperating with the transport assembly to convey the material to the feed end of the cage for delivery of the material to the cage;

wherein the transmission component is configured to include:

the first conveying screw 37 is used for realizing horizontal conveying of materials and is connected with the first power mechanism 60 through a first transmission mechanism matched with the first conveying screw;

the second conveying screw 38 is used for realizing vertical lifting of the materials and is connected with a second power mechanism 61 through a second transmission mechanism matched with the second transmission mechanism;

an L-shaped housing 39 for enclosing the first and second conveyor screws, wherein the first conveyor screw horizontally conveys the material, and an observation window 40 is disposed at one end of the housing, and in practical use, although the first screw is rotated to horizontally convey the material theoretically and the material theoretically can not fall into the housing, in practical use, the rotation speed of the first screw must be controlled to ensure that the transmission speed meets the use requirement and the transmission requirement, and the material is accumulated at the intersection of the first screw and the second screw, so the observation window can be arranged in a gate-type structure, so the interior of the housing is cylindrical, and the interference of the interior of the housing to the material is reduced, so the horizontal section or the vertical section of the housing can be respectively arranged in a rotatable structure, the rotating direction of the screw rod is set to be opposite to that of each screw rod, so that the interference in the material conveying process is reduced, and meanwhile, the materials falling into the shell can be ensured to rotate and rise to the first screw rod from the bottom of the shell, and the first screw rod and the second screw rod can be mutually complemented in space;

the inverted Y-shaped material distribution mechanism 41 is communicated with the discharge side of the shell, a material distribution plate 42 is pivoted at the bifurcation of the inverted Y-shaped material distribution mechanism, one side of the Y-shaped material distribution mechanism is blocked under the action of the material distribution plate, so that a discharge port channel on one side of the pressing cage is in an open state, the continuous feeding of the pressing cage is realized, after one-time to three-time pressing is finished, the other side of the pressing cage is blocked through the material distribution plate, a cake outlet in the device is in an open state, the length of the cake outlet is properly prolonged, and oil cakes are conveyed through a cloth bag type cake conveying mechanism arranged on the cake outlet to finish oil pressing operation in one period;

one end of the material distributing plate is connected with the first electric push rod 43, so that the two free ends of the material distributing mechanism are respectively provided with a material discharging component, a material discharging port 63 matched with the material slag collecting device and a cake discharging port 64, in the structure, the material feeding and cake discharging working states of the equipment are mainly switched under the action of the first electric push rod, so that the periodic processing requirements in equipment processing are met, under the structure, in order to meet the linkage of the equipment, the material feeding device of the equipment can feed materials at regular time, namely after each period of oil pressing operation is completed, quantitative materials are fed through the material feeding device, the pressing effect is guaranteed, the linkage of the equipment working is guaranteed, a preset time can be reserved between the material feeding device and the material discharging device, and the linkage control of all parts in the equipment is guaranteed.

As shown in fig. 1, 3, 6, 8, in another example, the outfeed assembly is configured to include:

the temporary storage hopper 44 is matched with the discharge port and is used for temporarily storing the materials so as to ensure that the materials meet the use requirements during working and ensure the matching continuity of all parts;

a hopper 45 matched with the temporary storage hopper in a vertical space, wherein a material stirring mechanism 46 for conveying materials to the barrel is arranged in the hopper, so that the materials in the temporary storage hopper can be conveyed downwards in order under the action of rotation, and meanwhile, because the structure of the temporary storage hopper is in a conical structure in space, namely the upper part is large and the lower part is small, the conveying effect of the materials possibly under the gravity of the materials cannot meet the processing requirement, so that the interference of the materials in the closed space due to the gravity and a small outlet is reduced through stirring, and the conveying effect is ensured;

the bottom of the temporary storage hopper is provided with an inclined part, the inclined part is provided with a material baffle plate 62 in a sliding manner through a sliding chute, a sliding rail and/or a roller which are matched with each other, the inclined part is used for ensuring the integrity of material conveying and reducing residue, and the material baffle plate is used for enabling the material in the temporary storage hopper to be conveyed to the hopper at regular time and quantity through the position change of the material baffle plate;

a second electric push rod 47 connected with the striker plate is arranged on the outer side of the temporary storage hopper and used for matching with electric control equipment in the equipment to realize timing and fixed-distance state switching so as to ensure that the conveying amount of the temporary storage hopper meets the processing requirement of the equipment;

the stirring mechanism is configured to include:

a rotating shaft 48 in transmission connection with a third power mechanism 70 at the side of the pressing cage through a third transmission mechanism 69, wherein the upper end of the rotating shaft is provided with a kickoff 65 for stirring and kicking materials, the lower end of the rotating shaft is provided with a pressing spiral sheet 68 which is matched with the feeding end of the pressing cage to realize forced feeding, the kickoff in the structure at least comprises two layers, each layer is communicated through an inclined part 66 which is matched with the edge of the hopper, the stability of the structure of the device is ensured, meanwhile, the rotating and pushing effect can be better realized for the materials at different spatial positions, so that the materials in the hopper can all rotate along with the rotation, the bottom of the inclined part is provided with a bending part 67 which extends towards the center in order to reduce the interference with the pressing spiral sheet in the device, and the stirring positions of more layers can be formed in space, the stirring effect of the materials is ensured, and the pressing spiral sheet has the function of forcing, Quantitative conveying is carried out, the continuity of material conveying is guaranteed, the quantity of conveyed materials is limited below the maximum processing capacity of the squeezing cage, the squeezing effect is guaranteed, secondary interference can be carried out on the size of the cake through the step, the optimal squeezing effect and the oil outlet effect when secondary or tertiary squeezing is carried out are guaranteed, in actual use, each transmission mechanism is matched with a belt wheel and/or a bevel gear, each power mechanism is a motor matched with the power mechanism, the third power mechanism is a motor matched with a squeezing screw shaft, and the transmission mechanism is matched with the bevel gear.

In another example, as shown in fig. 1-2, the oil outlet is longitudinally slidably provided with a baffle 49, a bending part for holding is arranged on the vacuum oil storage component, the vacuum oil storage component is used for plugging before or during processing, the vacuum oil storage component is convenient to check and remove slag, according to the use requirement, the edge of the baffle plate can be provided with a matched sealing mechanism, the two ends of the baffle plate are provided with sliding blocks matched with equipment at the positions matched with the oil receiving disc, the oil receiving disc is provided with a sliding groove matched with the sliding blocks, the bottom surface of the oil receiving disc is provided with a limiting groove matched with the baffle plate, so as to limit the position of the baffle plate and prevent the oil from spilling, and a plurality of wave-shaped oil retaining grooves are arranged on the inner side wall of the baffle plate, the oil storage tank has the advantages that when the amount of oil is excessive, the blocking area can be increased, ripples of the oil in the continuous input process are reduced, and the oil storage effect of the oil storage tank meets the use requirement;

each vacuum oil storage assembly is configured to include:

the oil storage barrel 50 is provided with a detachable filter disc 51 above and is used for removing residues in oil to ensure that the oil is clear;

the setting is in the oil storage bucket to with the filter disc vacuum suction mechanism (not shown) that corresponds in space, through set up vacuum suction mechanism in the oil storage bucket in this kind of structure for the oil storage bucket is inside for outside, forms the negative pressure state, makes oil under the effect of filter disc, can accomplish and carry to the oil storage bucket after filtering, has better automatic effect.

In another example, as shown in fig. 19, the filter disc is configured to include at least two layers of filter screens 52, and the pore size of the upper layer of filter screen is configured to be larger than that of the lower layer of filter screen, in this structure, the traditional single-layer type filter mechanism is configured to be double-layer, which is effective in ensuring better filtering effect and reducing the processing period of the filter residue;

wherein, the upper filter screen is also provided with a housing 53 matched with the oil storage barrel, the housing is provided with a funnel-shaped oil inlet 54 matched with the oil distribution groove, the funnel-shaped oil inlet is used for packaging the filter screen and preventing the filter screen from being polluted by the outside, and the oil inlet is matched with the oil distribution groove and used for conveying and filtering oil in the oil receiving disc, so that the integration level of the equipment is high, and the matching degree is better;

a fourth power mechanism 55 is arranged above the housing, and the power output end of the fourth power mechanism passes through the top of the housing and is contacted with the upper-layer filter screen;

the power output end is provided with at least one scraping plate 56 matched with an upper filter screen, in the structure, a fourth power mechanism is a motor, the fourth power mechanism rotates along with the power output end when working, so that the scraping plates rotate together, the second action is realized, firstly, the position of the filter screen corresponding to the oil inlet is relatively clean under the action of a scraper, the filtering speed and the filtering effect are not influenced by filter residues filtered for a long time, secondly, the filter residues are driven to be processed under the rotating action of the scraper, the thickness of the filter residues can be controlled, the filter residues are conveyed outwards in the rotating process, the control on the filter residues on the upper filter screen is ensured, meanwhile, the filter screen can be cleaned without manpower, the automation degree is high, and the continuous processing requirements are met;

be provided with at least one deck spiral slag storage plate 57 on the position that the housing top is close to the outside limit, it is at the rotatory in-process of scraping the flitch, carry the small powder material to the inside spiral slag storage plate of housing in, store the slag charge, in order to guarantee the stability of filter screen work, reduce the clearance cycle to the slag charge, simultaneously in order to make it carry out the interlock cooperation with outside equipment, can set up the slag notch of being connected with external equipment on one side of the housing, in order to when the slag charge is too much in the slag storage plate, export it.

In another example, as shown in fig. 2, the bottom of the oil receiving tray and the inner side wall of the housing are provided with electromagnetic heating rings (not shown) for ensuring that the oil is at a rated temperature (the rated temperature is 45-60 degrees) so as to ensure that the quality of the oil meets the nutrition retaining effect of raw squeezing, but can infinitely approach the taste of cooked squeezing, and meanwhile, the smoothness of filtering at the later stage is ensured through temperature limitation;

the oil storage barrel bottom is provided with the telescopic machanism (not shown) with frame matched with, telescopic machanism is configured to adopt hydraulic cylinder, the oil storage barrel bottom is provided with matched with fixed plate (not shown), be provided with at least one pressure sensor (not shown) on it, the fixed plate is provided with a plurality of direction in the hydraulic cylinder outside and uses flexible loop bars (not shown), adopt this kind of effect, make the oil storage barrel can judge its inside oil mass according to weight, whether reach the highest value with its reserves, in order through switching oil distribution groove, carry out switching formula control to its oil transportation state, and through the jacking of hydraulic cylinder (also can adopt motor and lead screw, loop bar complex mode to replace), descending effect, make the oil storage barrel separate with the filter screen of installing in the frame downwards, so that the filter cloth in the oil storage barrel is changed or maintain the oil storage barrel, The oil storage barrel can be arranged in a non-detachable mode or the position of the oil storage barrel is not changed when oil is separated, and the barrel is communicated with external equipment or a container by arranging a matched oil pumping device or an oil discharge valve, so that the running stability and the linkage of the equipment are ensured;

the oil storage barrel is configured into a double-layer structure, an oil outlet valve 58 communicated with the outside is arranged on one side of the oil storage barrel, an inclined part matched with the oil outlet valve is arranged at the bottom of the oil storage barrel, the oil transportation integrity of the oil storage barrel is ensured through the inclined part, and the oil aging is prevented;

and a matched transparent observation window 76 is arranged on the side wall of the oil storage barrel and is used for manually observing the oil quantity and the turbidity inside the oil storage barrel.

Example (b):

taking the YZYX120TPZ combined oil press as an example, the working principle is as follows: oilseed such as rapeseed, peanut and the like enter the temporary storage hopper through the feeding unit (the first conveying screw rod which is horizontally arranged by the feeding hopper is fed with materials and is vertically lifted by the second conveying screw rod which is vertically arranged), the temporary storage hopper is automatically controlled by the second electric push rod, the stop plate which can realize quick opening of the door is opened by upward movement, the raw material is fed into the stirring mechanism, and the raw material is pressed into the barrel of the oil press to be squeezed under the action of the material poking device and the material pressing spiral sheet in the stirring mechanism. The quick-opening door is closed immediately. And conveying the pressed cakes to the temporary storage hopper again, and circularly and repeatedly working in this way.

The feeding unit can realize automatic circulation repeated squeezing and is more suitable for raw oil squeezing. Through the automatic control of the feeding unit and the temporary storage hopper, the squeezing times are separated, and the material cakes are squeezed back and forth each time and are not mixed. After the squeezing, the electric material distributing plate on the conveying mechanism can be used for controlling the cake to be separated and directly bagged, so that the dust fall and environmental protection are facilitated.

Under the squeezing action of the squeezing screw shaft and the squeezing strips, the oil or the cake entering the barrel is separated from the material embryo and flows out from the oil line of the squeezing strips. After the grease is squeezed out, the grease is heated and insulated through the oil receiving disc (the grease is more beneficial to subsequent filtering if the grease needs to keep a certain temperature), the grease is collected on the oil filtering cylinder through the oil separating groove, the vacuum pump pumps out air in the oil filtering cylinder to form negative pressure in the cylinder, the oil is pumped into the cylinder through the filter cloth (filter screen), and the oil residue is isolated on the filter cloth (filter screen). The oil in the oil cylinder can be discharged after being collected and stored to a certain quantity. The two oil filtering cylinders work alternately, and continuous operation can be realized. The vacuum oil filtering system has the characteristics of light weight, simple operation, simple and convenient and quick slag removal (so that filter residues can be timely squeezed back), and the like.

In addition, the machine adopts an advanced touch liquid crystal screen and a PLC circuit control system as required, complex keys and a temperature controller are omitted, the operation is convenient, the machine has a fault automatic diagnosis alarm prompt function and a motor protection function, the fault is convenient to remove quickly, and the damage of the motor is reduced.

The machine belongs to a high-speed pancake type and cold-hot dual-purpose oil press, is particularly suitable for low-temperature pressing of various vegetable oil materials such as rapeseeds, cottonseeds, soybeans, peanut kernels, linseed, sunflower seeds and the like, reserves the nutritional ingredients of the vegetable oil materials, is clear and not turbid, is beneficial to subsequent treatment processes such as filtration and refining, ensures that the oil products have pure color and taste and do not overflow a pot, and produces green and environment-friendly edible oil.

The above scheme is merely illustrative of a preferred example, and is not limiting. When the invention is implemented, appropriate replacement and/or modification can be carried out according to the requirements of users.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the invention not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.