CN112498858A - Mildew-proof and insect-proof system and method for edible fungi - Google Patents

Abstract

The invention discloses a mildew-proof and insect-proof system and a mildew-proof and insect-proof method for edible fungi, wherein the system comprises a storage refrigeration house, a baking device, a microwave sterilization device and a vacuum packaging device which are sequentially arranged, the microwave sterilization device comprises a shell and a microwave sterilization machine positioned in the shell, channels for passing through a conveying belt are formed in two sides of the shell, a plurality of negative pressure adsorption tanks are formed in the surface of the conveying belt, and a scraping device is arranged at the conveying front end of the conveying belt; in addition, the invention also discloses a mildew-proof and insect-proof method of the system; the invention can improve the mildew-proof and insect-proof treatment effect of the edible fungi, and simultaneously, the edible fungi are conveyed into the microwave sterilization device in a single layer, thereby ensuring the microwave sterilization effect.

Description

Mildew-proof and insect-proof system and method for edible fungi

Technical Field

The invention relates to the technical field of mildew prevention and insect prevention of edible fungi, in particular to a mildew prevention and insect prevention system and method for edible fungi.

Background

When edible fungi (such as mushrooms) are exported by our company, the edible fungi are easy to mildew and moth-eaten because of tropical zone at the export destination, high temperature and rain in the whole year and humid climate, and the detection and quarantine requirements of exported agricultural products are very high, so that insecticides cannot be used, and the edible fungi cannot be mildewed in a chemical mode, so that the edible fungi need to be treated by a mildew-proof and insect-proof technology.

The microwave disinsection and sterilization is to make the microorganism in the food simultaneously receive the combined action of microwave thermal effect and non-thermal effect, so that the protein and physiological active substance in the body of the microorganism are changed, thereby causing the growth and development of the microorganism to be delayed and dead, and achieving the purpose of food sterilization and fresh-keeping; at present, the following problems exist in the microwave disinsection and sterilization process: when the edible fungi are sent to the microwave sterilization device through the conveyer belt, the edible fungi are all agglomerated or piled to enter the microwave sterilization device, and the microwaves are not easy to penetrate through the thick layer of the edible fungi, so that the microwave disinsection and sterilization effects are poor.

Disclosure of Invention

The invention aims to overcome the defects and provide the edible fungus mildew-proof and insect-proof system and the method, which can improve the mildew-proof and insect-proof treatment effect of the edible fungi, and simultaneously enable the edible fungi to be conveyed into a microwave sterilization device in a single layer to ensure the microwave sterilization effect.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides an domestic fungus mould proof protection against insects system, is including the storage freezer, baking equipment, microwave sterilizing equipment and the vacuum packaging device that set gradually, microwave sterilizing equipment includes the casing and is located the microwave sterilization machine of casing, the passageway that is used for current conveyer belt is offered to the casing both sides, a plurality of negative pressure adsorption tanks have been seted up on the conveyer belt surface, the conveyer belt is carried the front end and is equipped with the scraper.

Preferably, the two ends of the conveying belt are wound on the surfaces of the driving rollers, one of the output shafts of the driving rollers is connected with the output end of the driving motor, a negative pressure box body is arranged in the area where the inner ring of the conveying belt is located, a plurality of negative pressure adsorption holes are formed in the top surface of the negative pressure box body, the negative pressure adsorption holes are in surface contact with the conveying belt located on the upper side, and the negative pressure box body is connected with the vacuum pumping pump through a vacuum pumping pipeline.

Preferably, a positive pressure box body is arranged below the negative pressure box body, a plurality of air blowing holes are formed in the bottom surface of the positive pressure box body, the positive pressure box body is connected with an air compressor through a compressed air pipeline, and the air blowing holes are in surface contact with the conveying belt located on the lower side.

Preferably, the positive pressure box body is arranged on the bottom surface of the supporting plate, the negative pressure box body is arranged on the top surface of the supporting plate, and the supporting plate is fixed on the supporting frame.

Preferably, the negative pressure adsorption groove comprises a groove and a cylindrical groove which are communicated with each other.

Preferably, the scraping device comprises a rotary roller, a plurality of scraping plates are arranged on the surface of the rotary roller, and the input end of the rotary roller is connected with the output end of a servo motor.

In addition, the invention also provides a mildew-proof and insect-proof method of the mildew-proof and insect-proof system for edible fungi, which comprises the following steps:

step 1): the edible fungi are placed in a storage cold warehouse for low-temperature storage, so that worm egg hatching and mould growth in the edible fungi are inhibited;

step 2): the baking device is used for baking the edible fungi to reduce the water content of the edible fungi and kill part of mould and worm eggs;

step 3): the edible fungi are subjected to a microwave sterilization process through a microwave sterilization device, so that the growth and development of microorganisms in the edible fungi are delayed or dead;

step 4): and (4) carrying out vacuum packaging on the edible fungi processed in the step by using a vacuum packaging device.

Preferably, the step 3) is specifically:

step 3.1): conveying the stacked edible fungi into a microwave sterilization device by a conveying belt, starting a vacuum pump to vacuumize the negative pressure box body in the conveying process, wherein a negative pressure adsorption hole generates suction force, and when a negative pressure adsorption groove of the conveying belt contacts the negative pressure adsorption hole, negative pressure adsorption force can be generated, so that an umbrella cover or an umbrella handle of the edible fungi at the lowest layer is adsorbed into the negative pressure adsorption groove;

step 3.2): after the scraping device works, the rotary roller rotates to drive the scraper blade to rotate, so that stacked edible fungi on the conveying belt are scraped and scattered, the edible fungi at the lowest layer are adsorbed on the conveying belt by negative pressure, finally the edible fungi are conveyed on the surface of the conveying belt in a single layer mode, and then enter the microwave sterilization device through the channel to be subjected to a microwave sterilization process, after a period of time, the conveying belt carries the edible fungi out through the channel at the other side and then rotates to the side of the conveying belt, the negative pressure adsorption groove of the conveying belt at the position is far away from the negative pressure adsorption hole, the action of the negative pressure adsorption force is avoided, part of the edible fungi can fall to the collecting groove below under the action of gravity, and part of the edible fungi clamped by the negative pressure adsorption groove;

step 3.3): and starting an air compressor to inflate the positive pressure box body, wherein air flow which is sprayed downwards is generated at the air blowing hole, and when the negative pressure adsorption groove of the conveying belt is contacted with the air blowing hole, the edible fungi on the surface of the conveying belt are flushed down by compressed air and fall into a collecting groove below.

The invention has the beneficial effects that: according to the invention, the microwave sterilization device is introduced, so that the mildew-proof and insect-proof treatment effect of the edible fungi can be greatly improved, meanwhile, the edible fungi are conveyed into the microwave sterilization device in a single layer through the matching of the scraping device and the negative pressure adsorption tank, the good microwave sterilization effect is ensured, the edible fungi can be fed as soon as possible through the air blowing holes, and the edible fungi are effectively prevented from being adhered to the conveying belt.

Drawings

FIG. 1 is a schematic connection diagram of an edible fungus mildew-proof and insect-proof system;

FIG. 2 is a schematic structural diagram of the area where the microwave sterilization device of FIG. 1 is located;

FIG. 3 is a schematic structural diagram of the support plate of FIG. 2 mounted with the positive pressure tank and the negative pressure tank;

FIG. 4 is a schematic view of a structure of an edible mushroom.

Detailed Description

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

As shown in fig. 1 to 4, an edible fungus mildew-proof and insect-proof system comprises a storage refrigeration house 1, a baking device 2, a microwave sterilization device 3 and a vacuum packaging device 4 which are sequentially arranged, wherein the microwave sterilization device 3 comprises a shell 3.1 and a microwave sterilizer 3.2 positioned in the shell 3.1, channels 3.3 used for passing conveyer belts 5 are arranged on two sides of the shell 3.1, a plurality of negative pressure adsorption grooves 6 are arranged on the surfaces of the conveyer belts 5, and scraping devices 7 are arranged at the conveying front ends of the conveyer belts 5.

Preferably, the two ends of the conveying belt 5 are wound on the surfaces of the transmission rollers 8, an output shaft of one of the transmission rollers 8 is connected with an output end of the driving motor, a negative pressure box body 9 is arranged in the area where the inner ring of the conveying belt 5 is located, a plurality of negative pressure adsorption holes 10 are formed in the top surface of the negative pressure box body 9, the negative pressure adsorption holes 10 are in surface contact with the conveying belt 5 located on the upper side, and the negative pressure box body 9 is connected with a vacuum pumping pump 12 through a vacuum pumping pipeline 11.

Preferably, a positive pressure box body 13 is arranged below the negative pressure box body 9, a plurality of air blowing holes 14 are formed in the bottom surface of the positive pressure box body 13, the positive pressure box body 13 is connected with an air compressor 16 through a compressed air pipeline 15, and the air blowing holes 14 are in surface contact with the conveying belt 5 located on the lower side.

Preferably, the positive pressure box 13 is mounted on the bottom surface of the supporting plate 17, the negative pressure box 9 is mounted on the top surface of the supporting plate 17, and the supporting plate 17 is fixed on the supporting frame 18. The arrangement can just utilize the space inside the conveyer belt 5, and the supporting plate 17 is just positioned between the positive pressure box body 13 and the negative pressure box body 9 and can be fixed by bolts.

Preferably, the negative pressure adsorption groove 6 comprises a groove 6.1 and a cylindrical groove 6.2 which are communicated with each other. In the embodiment, the curved surface structure of the groove 6.1 is similar to or inosculated with the curved surface structure of the umbrella cover 19 umbrella cover of the edible fungi, so that when the groove 6.1 is contacted with the umbrella cover 19 umbrella cover, stronger negative pressure adsorption force can be formed, air leakage is not easy to occur, the edible fungi can be firmly adsorbed, and the edible fungi can be prevented from scattering to the outer side of the conveying belt 5 or being scraped away by the scraper 7.2 of the scraping device 7; the columnar structure of the columnar groove 6.2 is similar to or matched with the columnar structure of the umbrella handle 20 of the edible fungi, so that when the umbrella handle 20 is contacted with the columnar groove 6.2, stronger negative pressure adsorption force can be formed, and the edible fungi can be firmly adsorbed; the groove body structure formed by combining the groove 6.1 and the cylindrical groove 6.2 is determined according to the shape structure of the edible fungi, and the shape structure of the groove 6.1+ the cylindrical groove 6.2 is provided because the umbrella handle 20 or the umbrella cover 19 faces downwards when the edible fungi are stacked on the surface of the conveying belt 5, so that the edible fungi can be adsorbed into the negative pressure adsorption groove 6 in any posture.

Preferably, the scraping device 7 comprises a rotary roller 7.1, a plurality of scraping plates 7.2 are arranged on the surface of the rotary roller 7.1, and the input end of the rotary roller 7.1 is connected with the output end of a servo motor. When servo motor during operation can drive rotatory roller 7.1 and rotate, and then make polylith scraper blade 7.2 rotate thereupon, as shown in fig. 2, the direction when scraper blade 7.2 rotates is clockwise, and the direction of delivery of conveyer belt 5 is the right, and when scraper blade 7.2 scraped, can scrape the domestic fungus that piles on the conveyer belt 5 and scatter to scrape and thin into the individual layer.

In addition, the invention also provides a mildew-proof and insect-proof method of the mildew-proof and insect-proof system for edible fungi, which comprises the following steps:

step 1): the edible fungi are placed in a storage refrigeration house 1 for low-temperature storage, so that worm egg hatching and mould growth in the edible fungi are inhibited; specifically, the wall and the roof of the cold storage 1 can be paved with a moisture-proof air-isolating layer and a heat-insulating layer with certain thickness, the temperature is reduced to about 5 ℃ by refrigerating, so that worm eggs are prevented from hatching, mold can not grow, meanwhile, edible fungi such as shiitake mushroom spore powder can not scatter in a low-temperature environment, and the color of the surface of the shiitake mushroom umbrella can not change.

Step 2): the baking device 2 is used for baking the edible fungi to reduce the water content of the edible fungi and kill part of mould and worm eggs; in this embodiment, the baking device 2 may be a high temperature air shower device, and the temperature is controlled at 68-75 ℃ for 15 minutes, so that the water content of the edible fungi is reduced to 3%, which not only effectively kills the mold, but also kills part of parasitic ova, and simultaneously volatilizes the unique flavor of the edible fungi (such as shiitake mushrooms).

Step 3): the edible fungi are subjected to a microwave sterilization process through the microwave sterilization device 3, so that the growth and development of microorganisms in the edible fungi are delayed or dead; in the microwave sterilization link, the microorganisms in the edible fungi are subjected to the combined action of microwave thermal effect and non-thermal effect, so that the proteins and physiological active substances in the microorganisms are mutated, the growth and development of the microorganisms are delayed and the microorganisms die, and the aims of sterilization and preservation are fulfilled.

Step 4): and (4) carrying out vacuum packaging on the edible fungi processed in the step by using a vacuum packaging device 4. In the vacuum packaging link, use special vacuum packaging bag, bleed the deoxidization through vacuum packaging machine to prevent that the domestic fungus from mildening and rot, in addition, after the isolated external environment of vacuum packaging, no air flows, can effectively prevent to cross the flavor, can also dampproofing protection against insects, keeps apart the bacterium, protects the mushroom not receive secondary pollution.

Preferably, the step 3 specifically comprises:

step 3.1): the conveyer belt 5 sends the piled edible fungi to the microwave sterilization device 3, in the conveying process, the vacuum pump 12 is started to vacuumize the negative pressure box body 9, the negative pressure adsorption holes 10 generate suction, when the negative pressure adsorption grooves 6 of the conveyer belt 5 contact the negative pressure adsorption holes 10, negative pressure adsorption force can be generated, and therefore the umbrella covers 19 or the umbrella handles 20 of the edible fungi at the lowest layer are adsorbed into the negative pressure adsorption grooves 6;

step 3.2): after the scraping device 7 works, the rotating roller 7.1 rotates to drive the scraper 7.2 to rotate, so that edible fungi piled on the conveying belt 5 are scraped and scattered, the edible fungi at the lowest layer are adsorbed on the conveying belt 5 by negative pressure, finally the edible fungi are conveyed on the surface of the conveying belt 5 in a single layer mode, and then enter the microwave sterilization device 3 through the channel 3.3 to perform a microwave sterilization process, after a period of time, the conveying belt 5 carries the edible fungi out through the channel 3.3 at the other side, and then the edible fungi rotate to the side of the conveying belt 5, the negative pressure adsorption groove 6 of the conveying belt 5 at the position is far away from the negative pressure adsorption hole 10, the effect of the negative pressure adsorption force is avoided, part of the edible fungi can fall to a collecting groove below under the action of gravity, and part of the edible fungi clamped by the negative pressure adsorption groove 6;

step 3.3): and starting the air compressor 16 to inflate the positive pressure box body 13, generating air flow which is sprayed downwards at the air blowing holes 14, and flushing the edible fungi on the surface of the conveying belt 5 by compressed air to fall into a collecting tank below when the negative pressure adsorption tank 6 of the conveying belt 5 contacts the air blowing holes 14.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the invention.

Claims (8)

1. The utility model provides an domestic fungus mould proof protection against insects system, is including storage freezer (1), baking equipment (2), microwave sterilizing equipment (3) and vacuum packaging device (4) that set gradually, its characterized in that: microwave sterilizing equipment (3) include casing (3.1) and be located microwave sterilization machine (3.2) of casing (3.1), passageway (3.3) that are used for current conveyer belt (5) are seted up to casing (3.1) both sides, a plurality of negative pressure adsorption tanks (6) have been seted up on conveyer belt (5) surface, conveyer belt (5) are carried the front end and are equipped with scraper (7).

2. The edible fungus mildew and insect prevention system as claimed in claim 1, wherein: conveyer belt (5) both ends are around locating driving roller (8) surface, and one of them driving roller (8) output shaft is connected with the driving motor output, and the region at conveyer belt (5) inner circle place is equipped with negative pressure box (9), a plurality of negative pressure adsorption holes (10) have been seted up to negative pressure box (9) top surface, negative pressure adsorption holes (10) and conveyer belt (5) surface contact who is located the upside, and negative pressure box (9) are connected with evacuation pump (12) through evacuation pipeline (11).

3. The edible fungus mildew and insect prevention system as claimed in claim 2, wherein: negative pressure box (9) below is equipped with malleation box (13), a plurality of gas blow hole (14) have been seted up to malleation box (13) bottom surface, malleation box (13) are connected with air compressor (16) through compressed air pipeline (15), gas blow hole (14) and conveyer belt (5) surface contact who is located the downside.

4. The edible fungus mildew and insect prevention system as claimed in claim 3, wherein: the positive pressure box body (13) is arranged on the bottom surface of the supporting plate (17), the negative pressure box body (9) is arranged on the top surface of the supporting plate (17), and the supporting plate (17) is fixed on the supporting frame (18).

5. The edible fungus mildew and insect prevention system as claimed in claim 1, wherein: the negative pressure adsorption groove (6) comprises a groove (6.1) and a cylindrical groove (6.2) which are communicated with each other.

6. The edible fungus mildew and insect prevention system as claimed in claim 1, wherein: the scraping device (7) comprises a rotary roller (7.1), a plurality of scraping plates (7.2) are arranged on the surface of the rotary roller (7.1), and the input end of the rotary roller (7.1) is connected with the output end of a servo motor.

7. A method for preventing mold and insects of the edible fungus mold and insect prevention system according to any one of claims 1 to 6, wherein: it comprises the following steps:

step 1): the edible fungi are placed in a storage refrigeration house (1) for low-temperature storage, so that worm egg hatching and mould growth in the edible fungi are inhibited;

step 2): the baking device (2) is used for baking the edible fungi to reduce the water content of the edible fungi and kill partial mould and worm eggs;

step 3): the edible fungi are subjected to a microwave sterilization process through the microwave sterilization device (3), so that the growth and development of microorganisms in the edible fungi are delayed or dead;

step 4): and (4) carrying out vacuum packaging on the edible fungi processed in the step by using a vacuum packaging device (4).

8. The method of claim 7, wherein: the step 3) is specifically as follows:

step 3.1): conveying the stacked edible fungi to a microwave sterilization device (3) by a conveying belt (5), starting a vacuum pump (12) to vacuumize a negative pressure box body (9) in the conveying process, wherein a negative pressure adsorption hole (10) generates suction, and when a negative pressure adsorption groove (6) of the conveying belt (5) contacts the negative pressure adsorption hole (10), negative pressure adsorption force can be generated, so that an umbrella cover (19) or an umbrella handle (20) of the edible fungi at the lowest layer is adsorbed into the negative pressure adsorption groove (6);

step 3.2): after the scraping device (7) works, the rotary roller (7.1) rotates to drive the scraper (7.2) to rotate, so as to scrape away the edible fungi piled on the conveyer belt (5), as the edible fungi at the lowest layer are adsorbed on the conveyer belt (5) by negative pressure, the edible fungi are finally conveyed on the surface of the conveyer belt (5) in a single layer, then enters the microwave sterilization device (3) through the channel (3.3) to carry out the microwave sterilization process, after a period of time, the conveying belt (5) carries the edible fungi out through the channel (3.3) at the other side, then the edible fungi are rotated to the side of the conveyer belt (5), the negative pressure adsorption groove (6) of the conveyer belt (5) at the position is far away from the negative pressure adsorption hole (10), the action of the negative pressure adsorption force is avoided, part of the edible fungi fall to a collecting groove below under the action of gravity, the part of the edible fungi clamped by the negative pressure adsorption groove (6) can rotate to the lower side along with the conveyer belt (5);

step 3.3): and starting the air compressor (16) to inflate the interior of the positive pressure box body (13), generating air flow which is sprayed downwards at the air blowing holes (14), and flushing the edible fungi on the surface of the conveying belt (5) by compressed air and dropping into a collecting tank below when the negative pressure adsorption tank (6) of the conveying belt (5) is in contact with the air blowing holes (14).

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