CN114304507A - Processing device for improving quality and flavor of bean products - Google Patents
Processing device for improving quality and flavor of bean products Download PDFInfo
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- CN114304507A CN114304507A CN202111426844.9A CN202111426844A CN114304507A CN 114304507 A CN114304507 A CN 114304507A CN 202111426844 A CN202111426844 A CN 202111426844A CN 114304507 A CN114304507 A CN 114304507A
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Abstract
The invention discloses a processing device for improving the quality and flavor of bean products, which comprises a raw material drying device, a carbon dioxide generating device, a raw material soaking device, a grinding device and an electroosmosis centrifugal filtration all-in-one machine, wherein the raw material drying device, the raw material soaking device, the grinding device and the electroosmosis centrifugal filtration all-in-one machine are sequentially connected, and the carbon dioxide generating device is connected with the raw material soaking device. The processing device for improving the quality and the flavor of the bean products adopts rehydration, oxygen isolation, soaking and grinding, and shortens the two working procedures of centrifugation and filtration into one working procedure by designing the electroosmosis centrifugation and filtration integrated machine, thereby reducing the contact chance of the soybean milk and the outside air, and the working procedures effectively passivate the activity of lipoxidase in the bean products.
Description
Technical Field
The invention relates to the technical field of agricultural machinery, in particular to a processing device for improving the quality and flavor of bean products.
Background
The production process of bean products which are frequently eaten in life, such as bean curd, bean curd jelly, bean curd skin, dried bean curd and the like, does not leave the step of making the soybean milk, and the soybean milk is a traditional vegetable protein beverage with rich nutrition in China and is well loved by Chinese consumers. The soybean milk contains rich nutrient components, soybean isoflavone, soyasaponin, soybean oligosaccharide, lecithin and a certain amount of calcium, iron, phosphorus, potassium and VB family, has the functions of preventing and treating diseases such as hypertension, hyperlipidemia, iron deficiency anemia and the like, and also has a certain prevention effect on diseases such as Alzheimer disease, cancer and the like. However, in the preparation process of the soybean milk, due to the enzymatic reaction of the lipoxygenase, the unsaturated fatty acid is oxidized to generate beany flavor, which affects the quality and flavor of the soybean milk and the subsequent processed products of the soybean milk, and how to improve the existing bean product production equipment can maximally remove and inactivate the lipoxygenase in the bean products is a technical problem to be solved at present.
Disclosure of Invention
In view of the above, the present invention provides a processing device for improving the quality and flavor of a bean product, which solves the technical problem that the quality of the bean product is affected by the strong beany flavor caused by the high activity of lipoxygenase of the bean product processed in the past.
The invention solves the technical problems by the following technical means:
the processing device for improving the quality and the flavor of the bean products comprises a raw material drying device, a carbon dioxide generating device, a raw material soaking device, a grinding device and an electroosmosis centrifugal filtration all-in-one machine, wherein the raw material drying device, the raw material soaking device, the grinding device and the electroosmosis centrifugal filtration all-in-one machine are sequentially connected, and the carbon dioxide generating device is connected with the raw material soaking device and/or the grinding device; the electroosmosis centrifugal filtration all-in-one machine comprises an upper electrode pressing cylinder, a lower electrode pressing cylinder, a guide post, a guide sleeve, a driving motor, a hydraulic telescopic cylinder and a power supply component, the upper electrode pressing cylinder is provided with a conical cylinder cavity, the lower electrode pressing cylinder is provided with an outer cylinder wall with a conical outer surface, the outer side cylinder wall corresponds to the taper of the conical cylinder cavity, the guide sleeve is coaxially and fixedly arranged at the top of the upper electrode pressing cylinder, the tube mouth of the guide sleeve is communicated with the conical tube cavity, one end of the guide post is coaxially and fixedly connected with the small end part of the outer tube wall of the upper conical outer side of the lower electrode pressing tube, the other end of the guide post penetrates through the guide sleeve and then is in transmission connection with the driving motor, the guide post and the guide sleeve are in axial sliding fit, the hydraulic telescopic cylinder is connected with the guide sleeve and is used for controlling the axial distance between the upper electrode pressing cylinder and the lower electrode pressing cylinder; meshes are densely distributed on the wall of the conical outer side of the lower electrode pressing cylinder, and a gauze layer and a screen for fixing the gauze layer are attached to the wall of the conical inner side of the lower electrode pressing cylinder; the positive electrode and the negative electrode of the power supply assembly are respectively and electrically connected with the upper electrode pressing cylinder and the lower electrode pressing cylinder.
Further, the raw material soaking device comprises a reaction kettle and a steam heating pipeline arranged around the reaction kettle, wherein a discharging pipe is arranged at the bottom of the reaction kettle, a valve is arranged on the discharging pipe, and the discharging pipe is connected with a grinding device below the discharging pipe; the gas outlet of the carbon dioxide generating device is communicated with the interior of the reaction kettle; the grinding device is provided with a feeding hole and a discharging hole.
Further, a cylindrical boss A is coaxially arranged at the large end part of the conical outer cylinder wall of the lower electrode pressing cylinder, and a cylindrical cylinder wall in sliding fit with the outer circumferential surface of the boss A is arranged at the cylinder opening of the conical cylinder cavity of the upper electrode pressing cylinder.
Furthermore, the power supply assembly comprises a direct-current power supply, a relay, a data collector, a timer and a computer, the computer is connected with the data collector, the data collector is connected with the relay, the relay is respectively connected with the timer and the direct-current power supply, and two electrodes of the relay are respectively connected with the upper electrode pressure cylinder and the lower electrode pressure cylinder.
Further, the screen cloth is conical, the edge of conical screen cloth is provided with downwardly extending's boss B, be provided with the screw thread post on the boss A, be provided with on the boss B with the through-hole that screw thread post position corresponds each other, the screw thread post passes through nut fixed connection after inserting the through-hole.
Furthermore, a tapered roller bearing is coaxially arranged on the outer side of the guide sleeve, and an inner bearing seat and an outer bearing seat of the tapered roller bearing are fixedly connected with the guide sleeve and the end part of a push rod of the hydraulic telescopic cylinder respectively.
Furthermore, a soybean milk channel is arranged in the guide post, a soybean milk inlet and a soybean milk outlet which are communicated with the soybean milk channel are arranged on the guide post, a sealed guide cover is arranged on the guide post, the soybean milk inlet is covered by the guide cover, and a discharge hole of the grinding device is communicated with the inside of the guide cover; when the lower electrode pressing cylinder moves towards the upper electrode pressing cylinder, the slurry outlet moves along with the guide post to the guide sleeve to be sealed.
The invention has the beneficial effects that: the processing device for improving the quality and the flavor of the bean products comprises a raw material drying device, a carbon dioxide generating device, a raw material soaking device, a grinding device and an electroosmosis centrifugal filtration all-in-one machine, wherein the raw material drying device, the raw material soaking device, the grinding device and the electroosmosis centrifugal filtration all-in-one machine are sequentially connected, and the carbon dioxide generating device is connected with the raw material soaking device and/or the grinding device. The processing device for improving the quality and the flavor of the bean products adopts rehydration, oxygen isolation, soaking and grinding, and shortens the two working procedures of centrifugation and filtration into one working procedure by designing the electroosmosis centrifugation and filtration integrated machine, thereby reducing the contact chance of the soybean milk and the outside air, and the working procedures effectively passivate the activity of lipoxidase in the bean products.
Drawings
The invention is further described below with reference to the figures and examples.
FIG. 1 is a schematic perspective view of a processing apparatus for improving the quality and flavor of a bean product according to the present invention;
FIG. 2 is a schematic view of the electro-osmotic centrifugal filtration integrated machine in the processing device for improving the quality and flavor of bean products of the present invention, wherein the slurry outlet on the guide post is positioned below the guide sleeve and is in an open state;
FIG. 3 is a schematic view showing the structure of an electroosmotic centrifugal filtration integrated machine in the processing device for improving the quality and flavor of bean products of the present invention, wherein a slurry outlet on a guide column is positioned at the inner side of a guide sleeve and is in a closed state.
Detailed Description
The invention will be described in detail below with reference to the following drawings:
as shown in fig. 1 to 3, the processing device for improving the quality and flavor of a bean product in the present embodiment includes a raw material drying device 1, a carbon dioxide generating device 2, a raw material soaking device 3, a grinding device 4, and an electroosmotic centrifugal filtration all-in-one machine, wherein the raw material drying device 1, the raw material soaking device 3, the grinding device 4, and the electroosmotic centrifugal filtration all-in-one machine are sequentially connected, and the carbon dioxide generating device is connected with the raw material soaking device; the electroosmosis centrifugal filtration all-in-one machine comprises a shell 5, an upper electrode pressure cylinder 6, a lower electrode pressure cylinder 7, a guide column 8, a guide sleeve 9, a driving motor 10, a hydraulic telescopic cylinder 11 and a power supply assembly, wherein the upper electrode pressure cylinder 6 and the lower electrode pressure cylinder 7 are arranged inside the shell, the driving motor 10 is fixed at the top of the shell, the upper electrode pressure cylinder 6 is provided with a conical cylinder cavity, the lower electrode pressure cylinder 7 is provided with an outer cylinder wall with a conical outer surface, the outer cylinder wall corresponds to the conical degree of the conical cylinder cavity, the guide sleeve 9 is coaxially and fixedly arranged at the top of the upper electrode pressure cylinder 6, a cylinder opening of the guide sleeve 9 is communicated with the conical cylinder cavity, one end of the guide column 8 is coaxially and fixedly connected with the small head end part of the conical outer cylinder wall on the lower electrode pressure cylinder 7, the other end of the guide column 8 penetrates through the guide sleeve 9 and then is in transmission connection with the driving motor 10, specifically, the guide post 8 can be rotatably disposed on the housing through a bearing, and then the driving motor 10 is in transmission connection with the guide post 8 through a transmission, or of course, a power output shaft of the driving motor 10 can be directly and coaxially fixedly connected with the guide post 8.
The guide post 8 and the guide sleeve 9 are in axial sliding fit, and are fixedly connected in the circumferential direction through a sliding block and a sliding groove, the sliding block and the sliding groove are in axial sliding fit along the guide post, the sliding block and the sliding groove are respectively arranged on the guide post 8 and the guide sleeve 9, specifically, the guide post 8 and the guide sleeve 9 are made of insulating materials, and the hydraulic telescopic cylinder 11 is connected with the guide sleeve 9 and is used for controlling the axial distance between the upper electrode pressing cylinder 6 and the lower electrode pressing cylinder 7; meshes are densely distributed on the conical outer side cylinder wall of the lower electrode pressing cylinder 7, the diameter of each mesh is 2-3mm, a gauze layer 13 and a screen 14 for fixing the gauze layer are attached to the conical inner side cylinder wall of the lower electrode pressing cylinder 7, the diameter of the screen 14 can be slightly larger than that of the meshes, and the gauze layer 13 can be made of 100-120-mesh cotton cloth; the positive electrode and the negative electrode of the power supply assembly are respectively and electrically connected with the upper electrode pressing cylinder 6 and the lower electrode pressing cylinder 7, and the upper electrode pressing cylinder 6 and the lower electrode pressing cylinder 7 can be made of titanium metal materials. Specifically, the raw material soaking device 3 comprises a reaction kettle and a steam heating pipeline arranged around the reaction kettle, wherein a discharging pipe is arranged at the bottom of the reaction kettle, a valve is arranged on the discharging pipe, and the discharging pipe is connected with a grinding device 4 below the discharging pipe; the gas outlet of the carbon dioxide generating device 2 is communicated with the interior of the reaction kettle; the grinding device is provided with a feeding hole and a discharging hole. The coaxial columniform boss A7a that is provided with of major part tip of the conical outside section of thick bamboo wall of section of thick bamboo 7 is pressed to the bottom electrode, boss A adopts insulating material to make, insulating material can adopt pottery or hard silica gel, the nozzle department in the conical section of thick bamboo chamber of section of thick bamboo 6 is pressed to the top electrode be provided with boss A outer periphery sliding fit's cylindrical section of thick bamboo wall, specifically, the screen cloth is the taper shape, the edge of conical screen cloth is provided with downwardly extending's boss B7B, be provided with the screw thread post on the boss A, be provided with on the boss B with the through-hole that the screw thread post position corresponds each other, pass through nut fixed connection after the screw thread post inserts the through-hole. The big end part of the conical outer cylinder wall of the lower electrode pressing cylinder 7 is connected with a funnel-shaped drain pipe made of insulating materials.
The working method of the processing device for improving the quality and the flavor of the bean products comprises the following steps: firstly, drying and dehydrating soybeans by a raw material drying device 1, then adding the soybeans into a raw material soaking device 3 for soaking and rehydration at the water temperature of 80 ℃ for 60 minutes, starting a carbon dioxide generation device 2 during soaking to introduce carbon dioxide gas into the raw material soaking device 3, discharging oxygen in the raw material soaking device 3, carrying out oxygen-insulation rehydration soaking, adding the soaked soybeans into a grinding device 4 for grinding after soaking, introducing carbon dioxide into the grinding device for oxygen-insulation grinding during grinding, and finally, conveying the ground soybean milk into an electroosmosis centrifugal filtration integrated machine for centrifugation and electroosmosis filtration dehydration. Because the oxygen participation is reduced in the whole production process of the bean product and the processing procedure is shortened, the lipid oxidation reaction of the lipoxygenase is effectively inhibited, the beany flavor of the bean product is reduced, and the quality of the bean product is improved.
As a further improvement of the above technical solution, the power supply assembly includes a dc power supply, a relay, a data collector, a timer, and a computer, the computer is connected to the data collector, the data collector is connected to the relay, the relay is connected to the timer and the dc power supply, two electrodes of the relay are connected to the upper electrode pressure cylinder 6 and the lower electrode pressure cylinder 7, specifically, an electrode elastic piece 12 elastically contacting an outer surface of the upper electrode pressure cylinder 6 and an electrode elastic piece elastically contacting an inner side wall of the lower electrode pressure cylinder 7 may be provided, the two electrode elastic pieces are electrically connected to the two electrodes of the relay, and the two electrode elastic pieces do not rotate with the upper electrode pressure cylinder 6 and the lower electrode pressure cylinder 7.
As a further improvement of the above technical scheme, a tapered roller bearing 9A is coaxially arranged outside the guide sleeve 9, and an inner bearing seat and an outer bearing seat of the tapered roller bearing are respectively and fixedly connected with the guide sleeve 9 and the end of a push rod of the hydraulic telescopic cylinder 11. The improved structure has the advantages that the rolling connection of the tapered roller bearing is adopted to replace the rigid connection between the push rod 11A of the hydraulic telescopic cylinder 11 and the guide sleeve 9, so that the hydraulic telescopic cylinder 11 can be fixedly arranged on the shell without rotating along with the guide sleeve 9.
As a further improvement of the above technical scheme, a soybean milk channel is arranged in the guide column 8, a soybean milk inlet 8A and a soybean milk outlet 8B which are communicated with the soybean milk channel are arranged on the guide column 8, a sealed guide cover 8C is arranged on the guide column 8, the guide cover is fixed on the shell, the soybean milk inlet is covered in the guide cover, and a discharge port of the grinding device is communicated with the inside of the guide cover through a pipeline; when the lower electrode pressing cylinder 7 moves towards the upper electrode pressing cylinder 6, the slurry outlet moves along with the guide post 8 to the guide sleeve 9 for sealing. The improved structure has the advantages that valves for sealing the slurry inlet and the slurry outlet are not required to be separately arranged, the structure of the equipment is simplified, and the automation degree of the equipment is improved.
The working principle of the electroosmosis centrifugal filtration all-in-one machine in the processing device for improving the quality and the flavor of the bean products is as follows: when the soybean milk grinder works, the guide sleeve 9 is pulled upwards through the hydraulic telescopic cylinder 11, so that the distance between the upper electrode pressure cylinder 6 and the lower electrode pressure cylinder 7 is enlarged, the soybean milk outlet on the guide column 8 is exposed, the soybean milk is added into a cavity formed between the upper electrode pressure cylinder 6 and the lower electrode pressure cylinder 7 through the grinding device through the guide sleeve and the soybean milk inlet, and then the guide sleeve 9 is pushed downwards through the hydraulic telescopic cylinder 11, so that the soybean milk outlet is contracted into the guide sleeve 9 and is sealed by the guide sleeve 9; during centrifugation, the driving motor 10 drives the guide post 8 and the guide sleeve 9 to synchronously rotate and centrifuge, so that bean curd in soybean milk is preliminarily separated from water, the bean curd is concentrated on the inner side cylinder wall of the upper electrode pressing cylinder 6, centrifuged water is close to the outer side cylinder wall of the lower electrode pressing cylinder 7, the guide sleeve 9 is pushed downwards through the hydraulic telescopic cylinder 11 after the soymilk is centrifuged for a period of time to compress the cavity, the bean curd is dehydrated, and a power supply component is switched on to perform electroosmosis on the bean curd to accelerate the dehydration. Under the action of the double forces of electroosmosis force and centrifugal force, the dehydration speed is higher and the dehydration effect is better.
Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.
Claims (7)
1. The utility model provides an improve processingequipment of soyfood quality and flavor, includes raw materials drying device, carbon dioxide generating device, raw materials soak device, grinder, its characterized in that: the device comprises a raw material drying device, a raw material soaking device, a grinding device and an electroosmosis centrifugal filtration all-in-one machine which are sequentially connected, wherein the carbon dioxide generating device is connected with the raw material soaking device and/or the grinding device; the electroosmosis centrifugal filtration all-in-one machine comprises an upper electrode pressing cylinder, a lower electrode pressing cylinder, a guide post, a guide sleeve, a driving motor, a hydraulic telescopic cylinder and a power supply component, the upper electrode pressing cylinder is provided with a conical cylinder cavity, the lower electrode pressing cylinder is provided with an outer cylinder wall with a conical outer surface, the outer side cylinder wall corresponds to the taper of the conical cylinder cavity, the guide sleeve is coaxially and fixedly arranged at the top of the upper electrode pressing cylinder, the tube mouth of the guide sleeve is communicated with the conical tube cavity, one end of the guide post is coaxially and fixedly connected with the small end part of the outer tube wall of the upper conical outer side of the lower electrode pressing tube, the other end of the guide post penetrates through the guide sleeve and then is in transmission connection with the driving motor, the guide post and the guide sleeve are in axial sliding fit, the hydraulic telescopic cylinder is connected with the guide sleeve and is used for controlling the axial distance between the upper electrode pressing cylinder and the lower electrode pressing cylinder; meshes are densely distributed on the wall of the conical outer side of the lower electrode pressing cylinder, and a gauze layer and a screen for fixing the gauze layer are attached to the wall of the conical inner side of the lower electrode pressing cylinder; the positive electrode and the negative electrode of the power supply assembly are respectively and electrically connected with the upper electrode pressing cylinder and the lower electrode pressing cylinder.
2. The processing device for improving the quality and the flavor of the bean products according to claim 1, wherein: the raw material soaking device comprises a reaction kettle and a steam heating pipeline arranged around the reaction kettle, wherein a feeding port is arranged at the upper part of the reaction kettle, a discharging pipe is arranged at the bottom of the reaction kettle, a valve is arranged on the discharging pipe, and the discharging pipe is connected with a grinding device below the discharging pipe; the gas outlet of the carbon dioxide generating device is communicated with the interior of the reaction kettle; the grinding device is provided with a feeding hole and a discharging hole.
3. The processing device for improving the quality and the flavor of the bean products according to claim 2, wherein: the electrode pressing device is characterized in that a cylindrical boss A is coaxially arranged at the large end part of the conical outer cylinder wall of the lower electrode pressing cylinder, and a cylindrical cylinder wall in sliding fit with the outer circumferential surface of the boss A is arranged at the cylinder opening of the conical cylinder cavity of the upper electrode pressing cylinder.
4. The processing device for improving the quality and the flavor of the bean products according to claim 3, wherein: the power supply assembly comprises a direct-current power supply, a relay, a data collector, a timer and a computer, the computer is connected with the data collector, the data collector is connected with the relay, the relay is respectively connected with the timer and the direct-current power supply, and two electrodes of the relay are respectively connected with an upper electrode pressure cylinder and a lower electrode pressure cylinder.
5. The processing device for improving the quality and the flavor of the bean products according to claim 4, wherein: the screen cloth is conical, the edge of conical screen cloth is provided with downwardly extending's boss B, be provided with the screw thread post on the boss A, be provided with on the boss B with the through-hole that screw thread post position corresponds each other, the screw thread post inserts through-hole after through-hole through nut fixed connection.
6. The processing device for improving the quality and the flavor of the bean products according to claim 5, wherein: the outer side of the guide sleeve is coaxially provided with a tapered roller bearing, and an inner bearing seat and an outer bearing seat of the tapered roller bearing are respectively and fixedly connected with the guide sleeve and the end part of a push rod of the hydraulic telescopic cylinder.
7. The processing device for improving the quality and the flavor of the bean products according to claim 6, wherein: a soybean milk channel is arranged in the guide post, a soybean milk inlet and a soybean milk outlet which are communicated with the soybean milk channel are arranged on the guide post, a sealed guide cover is arranged on the guide post, the soybean milk inlet is covered by the guide cover, and a discharge hole of the grinding device is communicated with the inside of the guide cover; when the lower electrode pressing cylinder moves towards the upper electrode pressing cylinder, the slurry outlet moves along with the guide post to the guide sleeve to be sealed.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202111426844.9A CN114304507A (en) | 2021-11-27 | 2021-11-27 | Processing device for improving quality and flavor of bean products |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202111426844.9A CN114304507A (en) | 2021-11-27 | 2021-11-27 | Processing device for improving quality and flavor of bean products |
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| CN202111426844.9A Pending CN114304507A (en) | 2021-11-27 | 2021-11-27 | Processing device for improving quality and flavor of bean products |
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- 2021-11-27 CN CN202111426844.9A patent/CN114304507A/en active Pending
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