CN115261130A

CN115261130A - Production device for refining soybean oil by enzyme method

Info

Publication number: CN115261130A
Application number: CN202211177622.2A
Authority: CN
Inventors: 舒泉先; 卢艳波; 高宁; 杨小雁; 王敏; 安丰龙
Original assignee: Shandong Bohi Oils Ans Fats Industry Co ltd
Current assignee: Guangxi Bohai Agricultural Development Co ltd; Qingdao Bohai Dongjiakou Grain And Oil Industry Co ltd; QINGDAO BOHI TECHNOLOGY CO LTD; Shandong Bohai Industrial Group Co ltd; Shandong Bohi Oils Ans Fats Industry Co ltd; Zhanjiang Bohai Agriculture Development Co ltd
Priority date: 2022-09-27
Filing date: 2022-09-27
Publication date: 2022-11-01
Anticipated expiration: 2042-09-27
Also published as: CN115261130B

Abstract

The invention discloses a production device for refining soybean oil by an enzymatic method, which relates to the field of enzymatic refining and comprises a storage box, wherein the bottom end of the storage box is connected with a quantitative box, the bottom end of the quantitative box is fixedly connected with a fixed box through connecting supports at two sides, and a quantitative mechanism is arranged at the joint of the quantitative box and the fixed box and comprises a micro cylinder, a connecting rod, a butting block, a first quantitative vessel, a second quantitative vessel, a pushing block and a limiting block, which are arranged in the fixed box; clearance mechanism, first rack, dwang, clearance pole. According to the invention, the cleaning mechanism and the quantifying mechanism are arranged, so that materials in the storage box can be quantitatively added into the quantitative vessel under the action of the piston, and the cleaning rod of the cleaning mechanism is driven to rotate at the same time, so that the cleaning rod scrapes the materials adhered to the inner cavity of the quantitative vessel, the materials adhered to the inner cavity enter the feed opening of the quantitative vessel, and the waste of the materials is reduced.

Description

Production device for refining soybean oil by enzyme method

Technical Field

The invention relates to the field of enzymatic refining, in particular to a production device for refining soybean oil by an enzymatic method.

Background

The leached or squeezed crude soybean oil can be qualified products only by refining, degumming is one of oil refining processes, phospholipid in oil is mainly removed, the content of phosphorus has great influence on subsequent treatment processes, oil storage and the like, and the phospholipid needs to be removed as much as possible.

Carrying out hydration degumming on the crude soybean oil to remove the water-soluble phospholipid with high content. Determining the optimal operation conditions of the hydration degumming of the crude soybean oil by single factor analysis and combining the actual conditions of industrial production: adding water at a temperature of 75 ℃, at a rate of 2.5-4.0%, at a speed of 300r/min, and at a hydration time of 10-30min, wherein the phosphorus content of the obtained hydrated degummed oil is 148ppm;

the enzyme method degumming of the hydrated degummed oil is carried out by adopting phospholipase, an ideal degumming effect is achieved in a short time, and the optimal reaction conditions are determined by a single-factor experiment, a five-factor three-level orthogonal experiment and the actual situation of industrial production: adding 20uL/500g of oil enzyme, reacting for 60min, adding 2.4mL of alkali, reacting at 50 ℃, adding 2.5-4.0% of water, and obtaining the degummed oil with the phosphorus content of 2.74ppm;

according to the data, the adding proportion of the hydration degummed enzyme of the soybean crude oil is as follows: the invention provides a production device for refining soybean oil by an enzyme method, which has the advantages that the enzyme dosage of 20uL/500g oil needs to be increased by using tools such as a measuring cup during manual addition, the added amount cannot be accurately mastered at one time, the repeated extraction or dosage needs to be repeated for many times, and the degumming machines are more, so that the physical consumption is large when quantitative addition is carried out on a plurality of machines one by one, when the conventional machines are added, although the phospholipase is in a liquid state and is easy to adhere to the inner cavity of an adding vessel, if the vessel is small and is in a position easy to contact manually, the adhered phospholipase can be scraped in a shaking mode and the like, when the adding vessel is large and is not easy to contact manually, the adhered phospholipase in the adding vessel can be adhered to the adding vessel to cause waste, and in order to reduce the waste of resources and quantitatively add the phospholipase.

Disclosure of Invention

The invention aims to: in order to solve the problems that the conventional enzyme is more complicated to add manually and quantitatively, and the liquid enzyme adhered to the inner wall of the conventional enzyme is difficult to fall and is more wasted, the production device for refining the soybean oil by the enzyme method is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a production device for refining soybean oil by an enzymatic method comprises a storage box, wherein the bottom end of the storage box is connected with a quantitative box, the bottom end of the quantitative box is fixedly connected with a fixed box through two side connecting supports, and a quantitative mechanism is arranged at the joint of the quantitative box and the fixed box and comprises a micro cylinder arranged in the fixed box, the output end of the micro cylinder is connected with a connecting rod, the outer wall of the connecting rod is fixedly connected with a resisting block, the quantitative mechanism also comprises a first quantitative vessel which is connected to the top end of the fixed box in a sliding manner, the top end of the first quantitative vessel is connected with a second quantitative vessel in a sliding manner, the top end of the first quantitative vessel is fixedly connected with a pushing block extending to the inner wall of the bottom end of the second quantitative vessel, and a limiting block is arranged on one side, located on the pushing block, of the inner wall of the bottom end of the second quantitative vessel;

the setting is at the inside clearance mechanism that supports the outside of piece of first volume household utensils, clearance mechanism is including fixed connection at the first rack that supports the piece outer wall, clearance mechanism is still including rotating the dwang of connecting at first volume household utensils inner wall, the outer wall fixedly connected with clearance pole of dwang.

As a still further scheme of the invention: and a piston block is arranged at the joint of the quantitative box and the storage box, and the bottom end of the piston block is fixedly connected with the top end of the connecting rod.

As a still further scheme of the invention: the quantifying mechanism further comprises a fixing block fixedly connected to the bottom end of the first quantifying vessel, an elastic block is arranged at one end of the fixing block, and one end of the elastic block is fixedly connected with the inner wall of the fixing box.

As a still further scheme of the invention: the cleaning mechanism further comprises a second bevel gear fixedly connected to the outer wall of the rotating rod, a first bevel gear is meshed with the outer wall of the second bevel gear, a first straight gear is fixedly connected to one side of the first bevel gear, the first bevel gear and the first straight gear are rotatably connected to the inner wall of a first quantitative vessel, and the outer wall of the first straight gear is meshed with the first rack.

As a still further scheme of the invention: the inner wall of the first quantitative vessel is provided with a groove for matching the rotating tracks of the first straight gear and the first bevel gear, and the cross section of the cleaning rod is of an L-shaped structure.

As a still further scheme of the invention: the inner cavity space of the first quantitative household utensils is matched with the rotating track of the cleaning rods, the number of the cleaning rods is two, the cleaning rods are symmetrically distributed in the inner cavity of the first quantitative household utensils, and the cleaning rods are fixedly connected with the outer wall of the rotating rod.

As a still further scheme of the invention: the quantity of second ration household utensils is provided with a plurality ofly, and is a plurality of second ration household utensils and two first ration household utensils from last symmetry evenly distributed down, and all be provided with ejector pad, stopper between adjacent second ration household utensils, the first ration household utensils.

As a still further scheme of the invention: the inner wall of the second quantitative vessel is provided with a transverse sliding groove matched with the transverse moving track of the push block, a feed opening is arranged at the edge position of the first quantitative vessel, a communicating hole is formed at the joint of the second quantitative vessel and the first quantitative vessel, and the communicating hole and the feed opening are both located at the lowest position of the second quantitative vessel and the first quantitative vessel.

As a still further scheme of the invention: the top end of the abutting block is of an inclined plane structure, and the height of the outer wall of the abutting block is higher than that of a second quantitative vessel and a first quantitative vessel.

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

through setting up clearance mechanism, quantitative mechanism can make the material in the storage box under the effect of piston for quantitative interpolation material of household utensils can be quantified at every turn, and the clearance pole of drive clearance mechanism rotates simultaneously, makes the clearance pole be stained with the material that attaches to the inner chamber of quantitative household utensils and scratches, makes the material that is stained with and attaches to the inner chamber get into the feed opening of first quantitative household utensils, reduces the waste of material.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the opening structure of the quantitative container of the present invention;

FIG. 3 is a schematic view of the dosing mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of the present invention at A;

FIG. 5 is a schematic view of the construction of the cleaning rod of the present invention;

FIG. 6 is a schematic view of the internal structure of the measuring vessel according to the present invention;

FIG. 7 is a schematic view of the movable structure of the dosing vessel of the present invention;

fig. 8 is a structural distribution plan view of the first rack and the first straight gear of the present invention.

In the figure: 1. a storage box; 2. a quantitative box; 3. a fixed box; 4. a piston block; 5. a dosing mechanism; 501. a micro cylinder; 502. a connecting rod; 503. a resisting block; 504. a first dosing vessel; 505. a second dosing vessel; 506. a fixed block; 507. an elastic block; 508. a push block; 509. a limiting block; 6. a cleaning mechanism; 601. a first rack; 602. a first straight gear; 603. a first bevel gear; 604. a second bevel gear; 605. rotating the rod; 606. and cleaning the rod.

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.

Referring to fig. 1 to 8, in an embodiment of the present invention, an apparatus for producing soybean oil refined by an enzymatic method includes a storage box 1, a quantitative tank 2 is connected to a bottom end of the storage box 1, a fixed tank 3 is fixedly connected to a bottom end of the quantitative tank 2 through two side connecting brackets, a quantitative mechanism 5 is disposed at a connection portion between the quantitative tank 2 and the fixed tank 3, the quantitative mechanism 5 includes a micro cylinder 501 installed inside the fixed tank 3, an output end of the micro cylinder 501 is connected to a connecting rod 502, an outer wall of the connecting rod 502 is fixedly connected to a supporting block 503, the quantitative mechanism 5 further includes a first quantitative vessel 504 slidably connected to a top end of the fixed tank 3, a top end of the first quantitative vessel 504 is slidably connected to a second quantitative vessel 505, a top end of the first quantitative vessel 504 is fixedly connected to a pushing block 508 extending to an inner wall at a bottom end of the second quantitative vessel 505, and a limiting block 509 is disposed on one side of the pushing block 508 of the inner wall at the bottom end of the second quantitative vessel 505;

the cleaning mechanism 6 is arranged inside the first quantitative vessel 504 and outside the abutting block 503, the cleaning mechanism 6 comprises a first rack 601 fixedly connected to the outer wall of the abutting block 503, the cleaning mechanism 6 further comprises a rotating rod 605 rotatably connected to the inner wall of the first quantitative vessel 504, and the outer wall of the rotating rod 605 is fixedly connected with a cleaning rod 606

Piston block 4 is arranged at the joint of quantitative box 2 and storage box 1, and the bottom end of piston block 4 is fixedly connected with the top end of connecting rod 502.

In this embodiment: when the device is used, the prepared materials can be conveyed to the inside of the storage box 1 through a pipeline, when quantitative addition is required, the micro cylinder 501 is started, the micro cylinder 501 works to push the connecting rod 502 and the abutting block 503 to move, the abutting block 503 moves to drive the first rack 601 to synchronously move, the first rack 601 moves to provide thrust for transmission parts of the cleaning mechanism 6 to rotate, so as to drive the rotating rod 605 and the cleaning rod 606 to rotate, the inside of the first quantitative vessel 504 is scraped for the first time, in the upward movement process of the abutting block 503, the top end of the abutting block 503 is also contacted with the bottom end of the first quantitative vessel 504, under the inclined surface and thrust of the top end of the abutting block 503, the first quantitative vessel 504 moves towards two sides, in the movement process of the first quantitative vessel 504, the fixing block 506 is also synchronously driven to move along the transverse sliding groove of the inner wall of the second quantitative vessel 505, at this time, the feed opening of the first quantitative vessel 504 will move out of the top end sealing position of the fixed box 3, then the material in the first quantitative vessel 504 will fall into the product, the micro cylinder 501 will continue to work to push the abutting block 503 to move upwards, then the abutting block 503 will give a pushing force to the second quantitative vessel 505, so that the second quantitative vessel 505 is flush with the first quantitative vessel 504 again, the material in the second quantitative vessel 505 enters the first quantitative vessel 504 through the communication hole, and then enters the product through the feed opening at the bottom end of the first quantitative vessel 504, at the same time, the piston block 4 will be pushed up by the up-and-down movement of the abutting block 503, so that the material in the storage box 1 is supplemented to the quantitative box 2, and at this time, the top end communication hole of the uppermost second quantitative vessel 505 and the communication hole at the bottom end of the quantitative box 2 are dislocated, so that the material supplementation of the quantitative box 2 will not supplement the second quantitative vessel 505, the quantitative addition of the first quantitative vessel 504 causes influence, when the abutting block 503 is reset, the first rack 601 is again contacted with the transmission parts of the cleaning mechanism 6 to scrape the materials in the second quantitative vessel 505 and the first quantitative vessel 504, and when the abutting block 503 is not contacted with the first quantitative vessel 504 any more, the cleaning rod 606 is also used for completing scraping, so that the materials fall into the product again through the feed opening of the first quantitative vessel 504, and the cleaning purpose is achieved.

Referring to fig. 2 to 8, the dosing mechanism 5 further includes a fixing block 506 fixedly connected to the bottom end of the first dosing vessel 504, an elastic block 507 is disposed at one end of the fixing block 506, one end of the elastic block 507 is fixedly connected to the inner wall of the fixing box 3, the cleaning mechanism 6 further includes a second bevel gear 604 fixedly connected to the outer wall of the rotating rod 605, a first bevel gear 603 is engaged with the outer wall of the second bevel gear 604, a first straight gear 602 is fixedly connected to one side of the first bevel gear 603, the first bevel gear 603 and the first straight gear 602 are rotatably connected to the inner wall of the first dosing vessel 504, and the outer wall of the first straight gear 602 is engaged with the first rack 601.

In this embodiment: when the device is used, the prepared materials can be conveyed to the inside of the storage box 1 through a pipeline, when quantitative addition is required, the micro cylinder 501 is started, the micro cylinder 501 works to push the connecting rod 502 and the abutting block 503 to move, the abutting block 503 moves to drive the first rack 601 to synchronously move, the first rack 601 moves to provide thrust for the first straight gear 602 serving as a transmission part of the cleaning mechanism 6 to rotate, the first rack 601 rotates to drive the first straight gear 602, the first bevel gear 603 and the second bevel gear 604 to rotate, so as to drive the rotating rod 605 and the cleaning rod 606 to rotate, the inside of the first quantitative vessel 504 is scraped for the first time, in the upward movement process of the abutting block 503, the top end of the abutting block 503 is also contacted with the bottom end of the first quantitative vessel 504, and under the inclined surface of the top end of the abutting block 503 and the thrust, the first quantitative vessel 504 moves towards two sides, the fixed block 506 is synchronously driven to move along the transverse sliding groove of the inner wall of the second quantitative vessel 505 in the moving process of the first quantitative vessel 504, at the moment, the feed opening of the first quantitative vessel 504 is moved out of the top end sealing position of the fixed box 3, then, the material in the first quantitative vessel 504 falls into the product, the micro cylinder 501 can continuously work to push the abutting block 503 to move upwards, the abutting block 503 can give thrust to the second quantitative vessel 505, the second quantitative vessel 505 is aligned with the first quantitative vessel 504 again, the material in the second quantitative vessel 505 enters the first quantitative vessel 504 through the communicating hole and enters the product through the feed opening at the bottom end of the first quantitative vessel 504, meanwhile, the piston block 4 is jacked up by the up-and-down movement of the abutting block 503, the material in the storage box 1 is supplemented into the quantitative box 2, and at the moment, the communicating hole at the top end of the second quantitative vessel 505 at the top end is staggered with the communicating hole at the bottom end of the quantitative box 2, therefore, the quantitative addition of the second quantitative vessel 505 and the first quantitative vessel 504 cannot be influenced by the material supplement of the quantitative box 2, when the abutting block 503 is reset, the first rack 601 is again contacted with the first straight gear 602, the cleaning rod 606 is again pushed to rotate, the materials in the second quantitative vessel 505 and the first quantitative vessel 504 are scraped, when the abutting block 503 is not contacted with the first quantitative vessel 504 any more, the cleaning rod 606 can also complete scraping at the same time, the materials fall into a product through the feed opening of the first quantitative vessel 504 again, and the cleaning purpose is achieved.

Please refer to fig. 2-8, the inner wall of the first quantitative vessel 504 is provided with a groove for matching the rotation tracks of the first straight gear 602 and the first bevel gear 603, the cross section of the cleaning rod 606 is in an "L" shape, the inner cavity space of the first quantitative vessel 504 is matched with the rotation track of the cleaning rod 606, the number of the cleaning rods 606 is two, the two cleaning rods 606 are symmetrically distributed in the inner cavity of the first quantitative vessel 504, and the two cleaning rods 606 are both fixedly connected with the outer wall of the rotation rod 605.

In this embodiment: through the structure, when the abutting block 503 is reset, the first rack 601 also moves synchronously along with the downward movement of the abutting block 503, at this time, the outer wall tooth block of the first rack 601 contacts with the outer wall of the first straight gear 602, so that the first straight gear 602 is pushed to rotate, the rotation of the first straight gear 602 drives the first bevel gear 603 and the second bevel gear 604 to rotate, the rotation of the second bevel gear 604 drives the rotating rod 605 and the cleaning rod 606 to rotate, and the cleaning rod 606 moves from one end of the inner cavity of the first quantitative vessel 504 to the rotating rod 605 as the center and rotates to the other end of the first quantitative vessel 504, so that the inside of the first quantitative vessel 504 is cleaned.

Please refer to fig. 2-8, the number of the second quantitative vessels 505 is plural, the plural second quantitative vessels 505 and the two first quantitative vessels 504 are symmetrically and uniformly distributed from top to bottom, a push block 508 and a limit block 509 are respectively arranged between the adjacent second quantitative vessels 505 and the first quantitative vessels 504, a transverse sliding slot matched with the transverse moving track of the push block 508 is arranged on the inner wall of the second quantitative vessel 505, a discharge port is arranged at the edge position of the first quantitative vessel 504, a communication hole is arranged at the connection position of the second quantitative vessel 505 and the first quantitative vessel 504, the communication hole and the discharge hole are both arranged at the lowest position of the second quantitative vessel 505 and the first quantitative vessel 504, the top end of the abutting block 503 is in an inclined structure, and the height of the outer wall of the abutting block 503 is higher than the height of the second quantitative vessel 505 and the first quantitative vessel 504.

In this embodiment: by means of the structure, materials in the first quantitative vessel 504 can fall into a product, if only the quantitative operation is needed, the continuous operation of the micro cylinder 501 can be stopped, the first quantitative vessel 504 can return to the original position under the action of the elastic part and elastic block 507 serving as the quantitative mechanism 5, the materials in the second quantitative vessel 505 can be obtained by the first quantitative vessel 504 through the communicating hole at the top end, so that the materials are supplemented, and the second quantitative addition in the quantitative addition can be achieved, the use range is improved.

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 considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The production device for refining soybean oil by using the enzyme method comprises a storage box (1), wherein the bottom end of the storage box (1) is connected with a quantitative box (2), the bottom end of the quantitative box (2) is fixedly connected with a fixed box (3) through connecting supports at two sides, and the production device is characterized in that a quantitative mechanism (5) is arranged at the joint of the quantitative box (2) and the fixed box (3), the quantitative mechanism (5) comprises a micro cylinder (501) arranged in the fixed box (3), the output end of the micro cylinder (501) is connected with a connecting rod (502), the outer wall of the connecting rod (502) is fixedly connected with a resisting block (503), the quantitative mechanism (5) further comprises a first quantitative vessel (504) which is slidably connected with the top end of the fixed box (3), the top end of the first quantitative vessel (504) is slidably connected with a second quantitative vessel (505), the top end of the first quantitative vessel (504) is fixedly connected with a pushing block (508) extending to the inner wall at the bottom end of the second quantitative vessel (505), and a limiting block (509) is arranged on one side, of the inner wall of the pushing block (508) at the bottom end of the second quantitative vessel (505);

the cleaning mechanism (6) is arranged inside the first quantitative vessel (504) and outside the abutting block (503), the cleaning mechanism (6) comprises a first rack (601) fixedly connected to the outer wall of the abutting block (503), the cleaning mechanism (6) further comprises a rotating rod (605) rotatably connected to the inner wall of the first quantitative vessel (504), and the outer wall of the rotating rod (605) is fixedly connected with a cleaning rod (606).

2. A production apparatus for enzymatic refining of soybean oil according to claim 1, characterized in that a piston block (4) is provided at the connection of the quantitative tank (2) and the storage tank (1), and the bottom end of the piston block (4) is fixedly connected with the top end of the connecting rod (502).

3. The production device for enzymatic refining of soybean oil according to claim 1, wherein the quantitative mechanism (5) further comprises a fixed block (506) fixedly connected to the bottom end of the first quantitative vessel (504), one end of the fixed block (506) is provided with an elastic block (507), and one end of the elastic block (507) is fixedly connected with the inner wall of the fixed box (3).

4. The production device for enzymatic refining of soybean oil according to claim 1, wherein the cleaning mechanism (6) further comprises a second bevel gear (604) fixedly connected to the outer wall of the rotating rod (605), the outer wall of the second bevel gear (604) is engaged with a first bevel gear (603), one side of the first bevel gear (603) is fixedly connected with a first straight gear (602), the first bevel gear (603) and the first straight gear (602) are rotatably connected to the inner wall of the first quantitative vessel (504), and the outer wall of the first straight gear (602) is engaged with the first rack (601).

5. The production device for enzymatic refining of soybean oil according to claim 4, wherein the inner wall of the first quantitative vessel (504) is provided with a groove for matching the rotation tracks of the first straight gear (602) and the first bevel gear (603), and the cross section of the cleaning rod (606) is of an L-shaped structure.

6. The production device for refining soybean oil by using the enzyme method according to claim 1, wherein the space of the inner cavity of the first quantitative vessel (504) is matched with the rotating track of the cleaning rods (606), the number of the cleaning rods (606) is two, the two cleaning rods (606) are symmetrically distributed in the inner cavity of the first quantitative vessel (504), and the two cleaning rods (606) are fixedly connected with the outer wall of the rotating rod (605).

7. The production device for enzymatic refining of soybean oil according to claim 1, wherein the number of the second quantitative vessels (505) is provided with two, the first quantitative vessels (504) are provided with two, the second quantitative vessels (505) and the two first quantitative vessels (504) are symmetrically and uniformly distributed from top to bottom, and a push block (508) and a limit block (509) are arranged between the adjacent second quantitative vessels (505) and the adjacent first quantitative vessels (504).

8. The production device for refining soybean oil by using the enzyme method according to claim 1, wherein a transverse sliding groove matched with a transverse moving track of the push block (508) is formed in the inner wall of the second quantitative vessel (505), a feed opening is formed at the edge position of the first quantitative vessel (504), a communication hole is formed at the joint of the second quantitative vessel (505) and the first quantitative vessel (504), and the communication hole and the feed opening are both located at the lowest positions of the second quantitative vessel (505) and the first quantitative vessel (504).

9. The production device for enzymatic refining of soybean oil according to claim 1, wherein the top end of the resisting block (503) is a slope structure, and the height of the outer wall of the resisting block (503) is higher than the height of the second quantitative vessel (505) and the first quantitative vessel (504).