CN112450376A

CN112450376A - Immersion type pressurization bean water absorption system

Info

Publication number: CN112450376A
Application number: CN202011363240.XA
Authority: CN
Inventors: 姚鑫淼; 王强; 卢淑雯; 刘红芝; 周野; 赵蕊; 李哲滨; 徐娜; 沈卉芳
Original assignee: FOOD PROCESSING INST OF HEILONGJIANG PROV AGRICULTURAL SCIENCES ACADEMY; Institute of Food Science and Technology of CAAS
Current assignee: FOOD PROCESSING INST OF HEILONGJIANG PROV AGRICULTURAL SCIENCES ACADEMY; Institute of Food Science and Technology of CAAS
Priority date: 2020-11-28
Filing date: 2020-11-28
Publication date: 2021-03-09
Anticipated expiration: 2040-11-28
Also published as: CN112450376B

Abstract

The invention relates to bean processing, in particular to an immersion type pressurization bean water absorption system. Including total frame, square wall, concave container and strain a section of thick bamboo, the square wall rigid coupling is on total frame, and the contour line of concave container longitudinal section is perpendicular line, circular arc line and the slope line that extends to the upper right side from left to right side in proper order, and concave container setting is at the left end of total frame below, strains the right side of a section of thick bamboo rigid coupling at the square wall lower extreme, strains the left end of upper end and can link up with the right-hand member of concave container upper end, erects water pipe I above the left side in concave container, water pipe I can utilize the water pump extraction water source to prolong the left end inner wall of concave container and spray water downwards, the below of straining a section of thick bamboo front end is equipped with water pipe II, water pipe II can be with straining the water direction in the.

Description

Immersion type pressurization bean water absorption system

Technical Field

The invention relates to bean processing, in particular to an immersion type pressurization bean water absorption system.

Background

For example, a bean processing apparatus disclosed in publication No. CN101103789A, comprises: a first processing tank with a first pulverizer, wherein the first processing tank is used for accommodating beans and soaking, cooking and pulverizing the beans; a second grinder for finely grinding the beans ground in the first processing tank; a second processing groove which is connected with the second pulverizer and is used for making the beans which are finely pulverized by the second pulverizer into bean products; and a connecting pipe for connecting the first treating tank and the second crusher to form a closed automatic operation system. A method for processing beans by using the device comprises the following steps: a, putting beans into a first treatment tank; b, adding a proper amount of water into the first treatment tank, and performing the steps of bean soaking, cooking and crushing in the tank; c, guiding the crushed beans into a second crusher through a connecting pipe for crushing; and d, guiding the crushed beans into a second treatment tank for stirring to prepare the bean product with complete cell walls of single cells. But the device can increase the bean water absorption efficiency.

Disclosure of Invention

The invention aims to provide an immersion type pressurization bean water absorption system which can increase bean water absorption efficiency.

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

the utility model provides an immersion type pressure boost beans water absorption system, includes total frame, square wall, concave container and strains a section of thick bamboo, the square wall rigid coupling is on total frame, and the contour line of concave container longitudinal section is perpendicular line, circular arc line and the slope line that extends to the upper right side from left to right side in proper order, and concave container setting is at the left end of total frame below, strains a section of thick bamboo rigid coupling on the right side of square wall lower extreme, and the left end of straining a section of thick bamboo upper end can link up with the right-hand member of concave container upper end, erects water pipe I above the left side in concave container, water pipe I can utilize the water pump extraction water source to prolong the left end inner wall of concave container and spray water downwards, the below of straining a section of thick bamboo front end is equipped.

This immersion type pressure boost beans water absorption system still includes filter plate I, I rigid coupling of filter plate is equipped with the one deck in straining the upper end of a section of thick bamboo, strains and filters cotton board, it is located filter plate I under to filter cotton board.

The immersion type pressurizing bean water absorption system further comprises a return-preventing strip which is fixedly connected to the left end of the upper end of the filter cylinder.

This immersion type pressure boost beans water absorption system still includes backup pad, lead screw, round bar, displacement frame, dials board and guide arm I, backup pad of the equal rigid coupling in the left and right sides in the square wall, the both ends of lead screw rotate respectively and connect in two backup pads, the both ends rigid coupling of round bar is respectively in two backup pads, the lead screw utilizes motor drive to realize rotating, and displacement frame threaded connection is on the lead screw, and displacement frame sliding connection is on the round bar, two guide arm I of lower extreme rigid coupling of displacement frame, and the equal rigid coupling of the lower extreme of two guide arm I has spacing portion, dials the upper end sliding connection of board on two guide arm I, dial the board upper end with the up end contact of spacing portion, two guide arm I all overlap and have compression spring, compression spring's both ends respectively with displacement frame and dial the upper end contact of board, dial the middle part of board and lie in between square wall and the concave.

This immersion type pressure boost beans water absorption system still includes axle, notch frame, support frame, electric putter I, electric putter II and dials the piece, an axle of equal rigid coupling in both ends around the concave container, the right-hand member rigid coupling of notch frame is in the rear end of axle, the upper end rigid coupling electric putter I of support frame, and I rigid coupling of electric putter is on total, and two axles all rotate to be connected on the support frame, and II rigid couplings of electric putter are on the support frame, and electric putter II is located the top of notch frame, and the piece is dialled in the expansion end installation of electric putter II, dial the piece and arrange in the notch frame.

The immersion type pressurizing bean water absorption system also comprises a pressurizing box, a limiting concave frame, a sealing plate, an electric push rod III, a limiting frame, a slide block, a water inlet pipe and a water outlet pipe, wherein the pressurizing box is fixedly connected to the general frame, the pressurizing box is positioned under the concave container and the filter cylinder, the front end and the rear end of the upper end of the pressurizing box are fixedly connected with the limiting concave frame, the sealing plate is slidably connected into the two limiting concave frames, the limiting frame is fixedly connected to the left end of the sealing plate, the slide block is slidably connected to the limiting frame, the slide block can slide up and down in the limiting frame, the movable end of the electric push rod III is fixedly connected with the right end of the slide block, the electric push rod III is fixedly connected to the limiting concave frame positioned at the rear side, the upper side of the front end of the pressurizing box is fixedly connected with the water inlet pipe and the water outlet pipe, the water inlet pipe can add water, and a butterfly valve is arranged on the discharge pipe.

This immersion type pressure boost beans water absorption system still includes electric putter IV, filter plate II, strains door, guide arm II and solid board, the upper end rigid coupling electric putter IV of shrouding, electric putter IV's expansion end can pass the shrouding from top to bottom, the one end of articulated filter plate II on the filter plate II, the other end detachable rigid coupling that filter plate II is relative is on filter plate II, strain the below of door setting on concave container right side, guide arm II of the equal sliding connection in four corners department of filter plate II, the guide arm II that is located the left and right sides respectively the rigid coupling on two solid boards, two solid boards respectively the rigid coupling both ends about the pressure boost incasement, the spacing portion of the equal rigid coupling in upper end of every guide arm II, the lower extreme of spacing portion contacts with the upper end of filter plate.

And each guide rod II is sleeved with a compression spring, and two ends of each compression spring are respectively contacted with the filter plate II and the fixed plate.

This immersion type pressure boost beans water absorption system still includes electric putter V, board I, guide arm III and board II, two guide arms of sliding connection are III on board I to the solid fishplate bar I of movable end of electric putter V, and II rigid couplings of board are at the lower extreme of two guide arms III, and the spacing portion of equal rigid coupling is gone up to two guide arms III lower extremes of board II rigid couplings, the upper end contact of spacing portion and board I all overlaps on two guide arms III and has compression spring, compression spring's both ends respectively with board I and II contacts of board, electric putter V rigid coupling is at the right-hand member of straining a section of thick bamboo, and board II is located the top of pressure boost case.

The anti-returning strip is made of filter cotton.

The immersion type pressurization bean water absorption system has the beneficial effects that:

the pressure is maintained in a certain range for a period of time, the flow of water is increased, the water absorption of the soybeans is promoted, and the water absorption efficiency of the soybeans is improved at normal temperature by the increase of pressurized combined water molecular motion. The water absorption of the beans can be rapidly completed at room temperature by cyclic pressurization, which is about 10 times of the water absorption speed in the traditional process, the microbial index of the finished product is reduced, the water containing the beans can be in cyclic pressurization, the pressure range is 0-10bar, and the time for the beans to fully absorb water can be equivalent to the water absorption effect which can be achieved only in 12-20 hours in the traditional process when the beans fully absorb water in 60 minutes. In this process, the ingredients are not chemically fused to the solid matrix, but are physically pumped and transferred to the liquid phase, the active ingredient is extracted, thus increasing the diffusion rate of the water inside the solid, facilitating a faster absorption of the beans, each absorption cycle being characterized by a static and a dynamic phase.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of an immersion type pressurized bean water absorption system of the present invention;

FIG. 2 is a partial schematic view of the first embodiment of the present invention;

FIG. 3 is a second partial schematic structural view of the present invention;

FIG. 4 is a third schematic view of a portion of the present invention;

FIG. 5 is a fourth schematic view of a portion of the present invention;

FIG. 6 is a schematic diagram of a portion of the present invention;

FIG. 7 is a schematic diagram six of a portion of the present invention;

FIG. 8 is a seventh schematic view of a portion of the present invention;

FIG. 9 is a partial schematic view eight of the present invention;

fig. 10 is a partial structural schematic diagram nine of the present invention.

In the figure: a general frame 1; a square wall 2; a support plate 201; a lead screw 202; a round bar 203; a displacement frame 204; a dial plate 205; a guide rod I206; a recessed container 3; a shaft 301; a slot frame 302; a support frame 4; an electric push rod I401; an electric push rod II 402; a dial 403; a filter cartridge 5; a filter plate I501; an anti-rollback bar 502; a pressurizing box 6; a limiting concave frame 601; a closing plate 602; an electric push rod III 603; a limit frame 604; a slider 605; the electric push rod IV 606; a water inlet pipe 607; a water outlet pipe 608; a filter plate II 7; a filter gate 701; a guide rod II 702; fixing the plate 703; an electric push rod V8; a plate I801; a guide rod III 802; plate II 803.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in the figure, an immersion type pressure boost beans water absorption system, include total frame 1, square wall 2, concave container 3 and strain a section of

thick bamboo

5, 2 rigid couplings of square wall are on total frame 1, and the contour line of 3 longitudinal sections of concave container is perpendicular line, circular arc line and the slope line that extends to the upper right side from left to right in proper order, and concave container 3 sets up the left end in total frame 1 below, strains the right side of 5 rigid couplings at 2 lower extremes of square wall, and the left end of straining 5 upper ends can link up with the right-hand member of concave container 3 upper end, erects water pipe I above the left side in concave container 3, water pipe I can utilize the water pump to extract the water source and prolong the downward water spray of the left end inner wall of concave container 3, the below of straining 5 front ends is equipped with water pipe II, water pipe II can be with straining. Beans such as soybeans are put into the concave container 3, water is injected into the concave container 3 through the water pipe I, the soybeans are washed through water flow, when the liquid level in the concave container 3 rises and the water is kept injected continuously, the soybeans at the arc part at the bottom end of the concave container 3 are driven to move through liquid flow generated in the water through the water flow, and the cleaning effect is improved. Because of the arc part at the bottom end of the concave container 3, the soybeans can be continuously rotated to the position by water flow, and lighter floaters such as dust and the like can move to the position of the right bank of the concave container 3 along with the water flow, so that the separation of impurities from the soybeans is realized, and the water flow is used for impacting and pressurizing to increase molecular motion to promote the soybeans to absorb water. When the concave container 3 is full of water, the water overflows into the filter cartridge 5 for recovery.

The second embodiment is as follows:

as shown in the figure, this immersion type pressure boost beans water absorption system still includes filter plate I501, filter plate I501 rigid coupling is straining the upper end of a section of thick bamboo 5, strains to be equipped with the cotton board of one deck filtration in the section of thick bamboo 5, it is located filter plate I501 under to filter the cotton board. The filter plate I501 prevents soybeans from accidentally moving into the filter cartridge 5, and the filter plate I501 is used for blocking soybeans by permeating water. The filtering cotton plate is mainly composed of filtering cotton and used for filtering water, and further filtering water circulation is achieved.

The third concrete implementation mode:

as shown in the figure, the submerged pressurized bean water absorption system further comprises a return-preventing strip 502, and the return-preventing strip 502 is fixedly connected to the left end of the upper end of the filter cylinder 5. The anti-return strips 502 are used for attaching sundries and preventing soybeans from moving to the filter plate I501 accidentally, so that blockage is avoided, and the anti-return strips 502 can also prevent sundries on the surface of the filter plate I501 from flowing back to the concave container 3.

The fourth concrete implementation mode:

as shown in the figure, the immersed pressurized bean water absorption system further comprises a support plate 201, a lead screw 202, a round rod 203, a displacement frame 204, a shifting plate 205 and guide rods I206, wherein the left side and the right side in the square wall 2 are fixedly connected with one support plate 201, two ends of the lead screw 202 are respectively and rotatably connected to the two support plates 201, two ends of the round rod 203 are respectively and fixedly connected to the two support plates 201, the lead screw 202 is driven by a motor to rotate, the displacement frame 204 is in threaded connection with the lead screw 202, the displacement frame 204 is in sliding connection with the round rod 203, the lower end of the displacement frame 204 is fixedly connected to the two guide rods I206, the lower ends of the two guide rods I206 are respectively and fixedly connected with a limiting part, the upper end of the shifting plate 205 is in sliding connection with the two guide rods I206, the upper end of the shifting plate 205 is in contact with the upper end face of the limiting part, the two guide rods, the middle of the dial plate 205 is located between the square wall 2 and the concave container 3. The motor is started to drive the lead screw 202 to rotate, the lead screw 202 drives the displacement frame 204 to move left and right, and the displacement frame 204 is used for stirring the floating objects to be quickly stayed on or penetrate through the anti-return strips 502.

The fifth concrete implementation mode:

as shown in the figure, this immersion type pressure boost beans water absorption system still includes axle 301, notch frame 302, support frame 4, electric putter I401, electric putter II 402 and dials piece 403, axle 301 of equal rigid coupling in both ends around concave container 3, the right-hand member rigid coupling of notch frame 302 is in the rear end of axle 301, the upper end rigid coupling electric putter I401 of support frame 4, and electric putter I401 rigid coupling is on total frame 1, and two axles 301 all rotate to be connected on support frame 4, and electric putter II 402 rigid coupling is on support frame 4, and electric putter II 402 is located the top of notch frame 302, and piece 403 is dialled in the expansion end installation of electric putter II 402, it arranges in notch frame 302 to dial piece 403. The soybean washing is finished and water is continuously injected, water quality is relatively clean, then, the shifting plate 205 is utilized to push part of water to enable the liquid level to partially descend, the electric push rod I401 is started, the electric push rod I401 drives the supporting frame 4 to descend, the supporting frame 4 enables the concave container 3 to descend, the electric push rod II 402 is started, the electric push rod II 402 contracts to enable the shifting piece 403 to ascend, the shifting piece 403 drives the height of the left side of the notch frame 302, the notch frame 302 rotates clockwise to drive the concave container 3 to rotate clockwise, the concave container 3 pours out all the soybeans when pouring water, and detention cannot be generated.

The sixth specific implementation mode:

as shown in the figure, the immersed pressurized bean water absorption system further comprises a pressurizing box 6, limiting concave frames 601, a sealing plate 602, an electric push rod III 603, limiting frames 604, a sliding block 605, a water inlet pipe 607 and a water outlet pipe 608, wherein the pressurizing box 6 is fixedly connected on the main frame 1, the pressurizing box 6 is positioned under the concave container 3 and the filter cartridge 5, the front end and the rear end of the upper end of the pressurizing box 6 are fixedly connected with one limiting concave frame 601, the sealing plate 602 is slidably connected in the two limiting concave frames 601, the limiting frame 604 is fixedly connected at the left end of the sealing plate 602, the sliding block 605 is slidably connected on the limiting frame 604, the sliding block 605 can slide up and down in the limiting frame 604, the movable end of the electric push rod III 603 is fixedly connected with the right end of the sliding block 605, the electric push rod III is fixedly connected on the limiting concave frame 601 positioned at the rear side, the upper side of the front end of the pressurizing box 6 is fixedly connected and communicated with the water inlet pipe 607, the outlet pipe 608 can draw water to a water source through a water pump, and the lower end of the pressurizing box 6 is provided with a discharging pipe which is provided with a butterfly valve. Pressure-increasing tank 6 is used for collecting the water and the soybean that concave container 3 emptys, start electric putter III 603 afterwards and drive shrouding 602 and slide right and cover pressure-increasing tank 6, apply the power from top to bottom to shrouding 602, and then make shrouding 602 and pressure-increasing tank 6 sealed, utilize in pumping water to oral siphon 607, to pressure-increasing tank 6 internal water injection, it draws water to realize hydrologic cycle to the water source to utilize outlet pipe 608 to draw water after filling, the water injection volume is greater than the pumping-up volume, and then increase in pressure-increasing tank 6, through controlling water injection volume and pumping-up volume maintenance pressure for a period of time in the certain limit, and increase the flow of water, promote the soybean to absorb water, the increase of pressure boost combination water molecular. The cyclic pressurization enables the beans to quickly absorb water at room temperature, the water absorption speed is about 10 times of that of the traditional process, the finished product microorganism index is reduced, the water containing the beans can be in cyclic pressurization, the pressure range is 0-10bar, and the process enables the beans to fully absorb water for 60 minutes and has the same water absorption effect as that of the traditional process which can be achieved after 12-20 hours. In this process, the ingredients are not chemically fused to the solid matrix, but are physically pumped and transferred to the liquid phase, the active ingredient is extracted, thus increasing the diffusion rate of the water inside the solid, facilitating a faster absorption of the beans, each absorption cycle being characterized by a static and a dynamic phase. The water inlet pipe 607 and the water outlet pipe 608 are provided with isolation plates for preventing the soybeans from passing through.

The seventh embodiment:

as shown in the figure, this immersion type pressure boost beans water absorption system still includes electric putter IV 606, filter plate II 7, strains door 701, II 702 of guide arm and solid board 703, the upper end rigid coupling electric putter IV 606 of shrouding 602, the expansion end of electric putter IV 606 can pass shrouding 602 from top to bottom, the one end of articulated filter plate II 7 on the filter plate II 7, the relative other end detachable rigid coupling of filter plate II 7 is on II 7 of filter plate, strain the below that door 701 set up on concave container 3 right side, equal sliding connection II 702 of guide arm of four corners department of filter plate II 7, II 702 of guide arm that are located the left and right sides respectively the rigid coupling on two solid boards 703, two solid boards 703 respectively the left and right sides both ends of rigid coupling in pressure boost case 6, the equal rigid coupling spacing portion in upper end of every II 702 of guide arm, the lower extreme of spacing portion contacts with the upper. When the concave container 3 pours the soybeans, the soybeans are poured onto the filter plate II 7 and the filter door 701, the filter plate II 7 and the filter door 701 are located on the water inlet pipe 607 and the water outlet pipe 608 to prevent the soybeans from blocking a suction opening, the soybeans can be attached to the filter plate II 7 and the filter door 701 by combining the suction force of water flow, the electric push rod IV 606 is started to descend to push the filter plate II 7 and the filter door 701 to descend but not lower than the water inlet pipe 607 and the water outlet pipe 608, and the deeper the soybean descends, the higher the pressure is, and the better water absorption effect in water is achieved. After absorbing water, the soybeans can be drained firstly, and then the filter door 701 is opened to drain the soybeans through the lower part or directly collect the soybeans. Before collection, soybeans can be slightly kneaded on the filter plate II 7 and the filter door 701 to separate soybean hulls, so that processing of different products is facilitated.

The specific implementation mode is eight:

as shown in the figure, each guide rod II 702 is sleeved with a compression spring, and two ends of each compression spring are respectively contacted with the filter plate II 7 and the fixed plate 703.

The specific implementation method nine:

as shown in the figure, this immersion type pressure boost beans water absorption system still includes electric putter V8, board I801, guide arm III 802 and board II 803, electric putter V8's activity end rigid coupling board I801, two guide arms III 802 of sliding connection on board I801, board II 803 rigid coupling is at the lower extreme of two guide arms III 802, and board II 803 rigid coupling is at the lower extreme of two guide arms III 802, the spacing portion of equal rigid coupling on two guide arms III 802, spacing portion and the upper end contact of board I801, all overlap on two guide arms III 802 and have compression spring, compression spring's both ends contact with board I801 and board II 803 respectively, and electric putter V8 rigid coupling is at the right-hand member of straining a section of thick bamboo 5, and board II 803 is located the top of pressure boost case 6. The electric push rod V8 is started to press the closing plate 602 downwards by using a plate II 803 to realize sealing. Each part can be matched with a sealing ring and other conventional sealing modes.

The detailed implementation mode is ten:

as shown in the figure, the material of the anti-returning strip 502 is filter cotton.

The invention relates to an immersion type pressurized bean water absorption system, which has the working principle that:

beans such as soybeans are put into the concave container 3, water is injected into the concave container 3 through the water pipe I, the soybeans are washed through water flow, when the liquid level in the concave container 3 rises and the water is kept injected continuously, the soybeans at the arc part at the bottom end of the concave container 3 are driven to move through liquid flow generated in the water through the water flow, and the cleaning effect is improved. Because of the arc part at the bottom end of the concave container 3, the soybeans can be continuously rotated to the position by water flow, and lighter floaters such as dust and the like can move to the position of the right bank of the concave container 3 along with the water flow, so that the separation of impurities from the soybeans is realized, and the water flow is used for impacting and pressurizing to increase molecular motion to promote the soybeans to absorb water. When the concave container 3 is full of water, the water overflows into the filter cartridge 5 for recovery. The filter plate I501 prevents soybeans from accidentally moving into the filter cartridge 5, and the filter plate I501 is used for blocking soybeans by permeating water. The filtering cotton plate is mainly composed of filtering cotton and used for filtering water, and further filtering water circulation is achieved. The anti-return strips 502 are used for attaching sundries and preventing soybeans from moving to the filter plate I501 accidentally, so that blockage is avoided, and the anti-return strips 502 can also prevent sundries on the surface of the filter plate I501 from flowing back to the concave container 3. The motor is started to drive the lead screw 202 to rotate, the lead screw 202 drives the displacement frame 204 to move left and right, and the displacement frame 204 is used for stirring the floating objects to be quickly stayed on or penetrate through the anti-return strips 502. The soybean washing is finished and water is continuously injected, water quality is relatively clean, then, the shifting plate 205 is utilized to push part of water to enable the liquid level to partially descend, the electric push rod I401 is started, the electric push rod I401 drives the supporting frame 4 to descend, the supporting frame 4 enables the concave container 3 to descend, the electric push rod II 402 is started, the electric push rod II 402 contracts to enable the shifting piece 403 to ascend, the shifting piece 403 drives the height of the left side of the notch frame 302, the notch frame 302 rotates clockwise to drive the concave container 3 to rotate clockwise, the concave container 3 pours out all the soybeans when pouring water, and detention cannot be generated. Pressure-increasing tank 6 is used for collecting the water and the soybean that concave container 3 emptys, start electric putter III 603 afterwards and drive shrouding 602 and slide right and cover pressure-increasing tank 6, apply the power from top to bottom to shrouding 602, and then make shrouding 602 and pressure-increasing tank 6 sealed, utilize in pumping water to oral siphon 607, to pressure-increasing tank 6 internal water injection, it draws water to realize hydrologic cycle to the water source to utilize outlet pipe 608 to draw water after filling, the water injection volume is greater than the pumping-up volume, and then increase in pressure-increasing tank 6, through controlling water injection volume and pumping-up volume maintenance pressure for a period of time in the certain limit, and increase the flow of water, promote the soybean to absorb water, the increase of pressure boost combination water molecular. The cyclic pressurization enables the beans to quickly absorb water at room temperature, the water absorption speed is about 10 times of that of the traditional process, the finished product microorganism index is reduced, the water containing the beans can be in cyclic pressurization, the pressure range is 0-10bar, and the process enables the beans to fully absorb water for 60 minutes and has the same water absorption effect as that of the traditional process which can be achieved after 12-20 hours. In this process, the ingredients are not chemically fused to the solid matrix, but are physically pumped and transferred to the liquid phase, the active ingredient is extracted, thus increasing the diffusion rate of the water inside the solid, facilitating a faster absorption of the beans, each absorption cycle being characterized by a static and a dynamic phase. The water inlet pipe 607 and the water outlet pipe 608 are provided with isolation plates for preventing the soybeans from passing through. When the concave container 3 pours the soybeans, the soybeans are poured onto the filter plate II 7 and the filter door 701, the filter plate II 7 and the filter door 701 are located on the water inlet pipe 607 and the water outlet pipe 608 to prevent the soybeans from blocking a suction opening, the soybeans can be attached to the filter plate II 7 and the filter door 701 by combining the suction force of water flow, the electric push rod IV 606 is started to descend to push the filter plate II 7 and the filter door 701 to descend but not lower than the water inlet pipe 607 and the water outlet pipe 608, and the deeper the soybean descends, the higher the pressure is, and the better water absorption effect in water is achieved. After absorbing water, the soybeans can be drained firstly, and then the filter door 701 is opened to drain the soybeans through the lower part or directly collect the soybeans. Before collection, soybeans can be slightly kneaded on the filter plate II 7 and the filter door 701 to separate soybean hulls, so that processing of different products is facilitated. The electric push rod V8 is started to press the closing plate 602 downwards by using a plate II 803 to realize sealing. Each part can be matched with a sealing ring and other conventional sealing modes.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an immersion type pressure boost beans water absorption system, includes always frame (1), square wall (2), concave container (3) and strain a section of thick bamboo (5), its characterized in that: square wall (2) rigid coupling is on always putting up (1), and concave container (3) longitudinal section's outline line is perpendicular line, circular arc line and the tilt line that extends to the upper right side from left to right in proper order, and concave container (3) set up the left end in always putting up (1) below, strains a right side of section (5) rigid coupling at square wall (2) lower extreme, and the left end of straining a section (5) upper end can link up with the right-hand member of concave container (3) upper end, erects water pipe I above the left side in concave container (3), water pipe I can utilize the water pump extraction water source to prolong the left end inner wall of concave container (3) and spray water downwards, the below of straining a section (5) front end is equipped with water pipe II, water pipe II can be with the water direction of straining in section (5) the water source.

2. The submerged pressurized bean water intake system of claim 1, wherein: this immersion type pressure boost beans water absorption system still includes filter plate I (501), filter plate I (501) rigid coupling is equipped with the one deck in straining a section of thick bamboo (5) and filters cotton board in straining a section of thick bamboo (5), filter cotton board and be located filter plate I (501) under.

3. The submerged pressurized bean water intake system of claim 2, wherein: the immersion type pressurized bean water absorption system further comprises a return-preventing strip (502), wherein the return-preventing strip (502) is fixedly connected to the left end of the upper end of the filter cylinder (5).

4. The submerged pressurized bean water intake system of claim 3, wherein: the immersion type pressurizing bean water absorption system further comprises supporting plates (201), a lead screw (202), a round rod (203), a displacement frame (204), a shifting plate (205) and guide rods I (206), wherein the left side and the right side in the square wall (2) are fixedly connected with one supporting plate (201), two ends of the lead screw (202) are respectively and rotatably connected onto the two supporting plates (201), two ends of the round rod (203) are respectively and fixedly connected onto the two supporting plates (201), the lead screw (202) is driven by a motor to rotate, the displacement frame (204) is in threaded connection onto the lead screw (202), the displacement frame (204) is in sliding connection onto the round rod (203), the lower end of the displacement frame (204) is fixedly connected with two guide rods I (206), the lower ends of the two guide rods I (206) are fixedly connected with limiting parts, the upper end of the shifting plate (205) is in sliding connection onto the two guide rods I (206), and the upper end of the shifting plate (205) is, compression springs are sleeved on the two guide rods I (206), two ends of each compression spring are respectively contacted with the upper ends of the displacement frame (204) and the shifting plate (205), and the middle of the shifting plate (205) is positioned between the square wall (2) and the concave container (3).

5. The submerged pressurized bean water intake system of claim 4, wherein: this immersion type pressure boost beans water absorption system still includes axle (301), notch frame (302), support frame (4), electric putter I (401), electric putter II (402) and dials piece (403), axle (301) of equal rigid coupling in both ends around concave container (3), the right-hand member rigid coupling of notch frame (302) is in the rear end of axle (301), the upper end rigid coupling electric putter I (401) of support frame (4), electric putter I (401) rigid coupling is on total frame (1), two axle (301) are all rotated and are connected on support frame (4), electric putter II (402) rigid coupling is on support frame (4), electric putter II (402) are located the top of notch frame (302), the expansion end installation of electric putter II (402) is dialled piece (403), it arranges in notch frame (302) to dial piece (403).

6. The submerged pressurized bean water intake system of claim 5, wherein: the immersed pressurized bean water absorption system also comprises a pressurizing box (6), a limiting concave frame (601), a sealing plate (602), an electric push rod III (603), a limiting frame (604), a sliding block (605), a water inlet pipe (607) and a water outlet pipe (608), wherein the pressurizing box (6) is fixedly connected on the general frame (1), the pressurizing box (6) is positioned under the concave container (3) and the filter cartridge (5), the front end and the rear end of the upper end of the pressurizing box (6) are fixedly connected with the limiting concave frame (601), the sealing plate (602) is slidably connected in the two limiting concave frames (601), the limiting frame (604) is fixedly connected at the left end of the sealing plate (602), the sliding block (605) is slidably connected on the limiting frame (604), the sliding block (605) can slide up and down in the limiting frame (604), the movable end of the electric push rod III (603) is fixedly connected with the right end of the sliding block (605), and the electric push rod III (603) is fixedly connected on the limiting concave frame (601, the upside rigid coupling of pressure boost case (6) front end is connected in water pipe (607), and water inlet pipe (607) and outlet pipe (608) all connect the water source, and water inlet pipe (607) can be through the water pump to pressure boost case (6) in increase water, and outlet pipe (608) can be through the water pump to the water source draw water, and the lower extreme of pressure boost case (6) is equipped with row's material pipe, it is equipped with the butterfly valve to arrange the material pipe.

7. The submerged pressurized bean water intake system of claim 6, wherein: the immersion type pressurizing bean water absorption system further comprises an electric push rod IV (606), a filter plate II (7), a filter door (701), guide rods II (702) and fixed plates (703), wherein the upper end of the seal plate (602) is fixedly connected with the electric push rod IV (606), the movable end of the electric push rod IV (606) can penetrate through the seal plate (602) from top to bottom, the filter plate II (7) is hinged with one end of the filter plate II (7), the other opposite end of the filter plate II (7) is detachably and fixedly connected onto the filter plate II (7), the filter door (701) is arranged below the right side of the concave container (3), the four corners of the filter plate II (7) are respectively and slidably connected with one guide rod II (702), the guide rods II (702) positioned at the left side and the right side are respectively and fixedly connected onto the two fixed plates (703), the two fixed plates (703) are respectively and fixedly connected at the left end and the right end in the pressurizing box (6), the lower end of the limiting part is in contact with the upper end of the filter plate II (7).

8. The submerged pressurized bean water intake system of claim 7, wherein: and each guide rod II (702) is sleeved with a compression spring, and two ends of each compression spring are respectively contacted with the filter plate II (7) and the fixed plate (703).

9. The submerged pressurized bean water intake system of claim 8, wherein: this immersion type pressure boost beans water absorption system still includes electric putter V (8), board I (801), guide arm III (802) and board II (803), the activity end rigid coupling board I (801) of electric putter V (8), two guide arms III (802) of sliding connection on board I (801), board II (803) rigid coupling is at the lower extreme of two guide arms III (802), and equal rigid coupling is spacing portion on two guide arms III (802), spacing portion and the upper end contact of board I (801), all overlap on two guide arms III (802) and have compression spring, compression spring's both ends respectively with board I (801) and board II (803) contact, electric putter V (8) rigid coupling is at the right-hand member of straining a section of thick bamboo (5), and pressure boost board II (803) are located the top of case (6).

10. The submerged pressurized bean water absorption system according to any one of claims 3 to 9, wherein: the anti-returning strips (502) are made of filter cotton.