CN114793669B - Cut flower pre-refrigeration house control system and method - Google Patents

Abstract

The invention relates to a cut flower pre-cooling library control system and a cut flower pre-cooling library control method, wherein the system comprises a library body. The enclosing wall and the shelf are concentrically arranged to divide the bank body into a first containing space and a second containing space. And the air in the first containing space sequentially passes through the second vent hole and the first vent hole in the cut flower packing box to reach the second containing space based on the pressure difference between the first containing space and the second containing space. In the process, the gas flowing through the cut flower packaging box and the cut flowers in the cut flower packaging box exchange moisture and heat so as to supplement moisture for the cut flowers in the cut flower packaging box and take away field heat of the cut flowers. According to the invention, the properties of air in contact with the cut flowers for heat exchange are adjusted by adjusting the properties of the air in the first accommodating space and the second accommodating space, such as temperature, humidity and the like, and the flow rate of the air flowing through the cut flower packaging box can be adjusted by adjusting the pressure difference, namely, the heat exchange rate of the cut flowers can be changed.

Description

Cut flower pre-refrigeration house control system and method

Description of the cases

The original basis of the divisional application is a patent application with the application number of 202111488219.7, the application date of 2021, 12 months and 8 days, and the invention is named as 'a cut flower fresh-keeping treatment system and method'.

Technical Field

The invention relates to the technical field of cut flower preservation, in particular to a cut flower pre-cooling warehouse control system and a method.

Background

China rose is an important flower crop worldwide, and the yield and the consumption are the first in the cut flower. More than half of China's Chinese roses are produced in Yunnan, while the consumption market is mainly middle coastal cities and northern large and medium-sized cities, the production and marketing areas are separated, and the average required transportation radius is more than 1500 km. Due to the lack of a standard cut rose postharvest fresh-keeping treatment process flow, the cut rose flowers cannot be reasonably matched with postharvest fresh-keeping treatment in time after being harvested, so that the quality of the cut rose flowers is rapidly deteriorated in the process of long-distance transportation and after transportation, the ornamental value is further influenced, and the economic value of the cut rose flowers is reduced.

After the cut flowers are harvested, a series of physiological changes can occur inside the petals, and the water metabolism is damaged; macromolecular life substances and structural substances such as starch, protein, nucleic acid, phospholipid and the like are gradually degraded and lose the original functions; the generation amount of ripening hormone ethylene is rapidly increased, the aging of petals is accelerated, the fluidity of plasma membranes is reduced, the permeability is increased, cells are finally disintegrated and die, and the petals are withered and fall off in appearance.

Although the related post-harvest treatment and storage methods can be applied at present to delay the quality reduction speed of the cut flowers after being picked. For example, CN112005755A discloses a method for postharvest treatment, storage and transportation of cut rose, comprising the following steps performed in sequence: quality detection, pretreatment, precooling, storage, packaging and transportation. The sorting and grading comprises removing 15-20 cm leaves and skin thorn at the lower part of the flower stalks, and then grading according to the grading standard. The pretreatment liquid treatment comprises the steps of treating cut flowers which are transported remotely with the pretreatment liquid within 12 hours after harvesting, and then transferring the cut flowers to a low-temperature environment for storage. The packaging is carried out in a low-temperature environment, and the packaging method comprises the following steps: preserving the head of the cut flower by corrugated paper, bundling 10 or 20 single-head Chinese roses into a bundle, and leveling the head of the flower; the most frequent flower heads in each branch of the multi-head Chinese rose are kept flat cut, and the stem bases are flush; and then, the wrapped cut flowers are stacked in a packing box in a crossed manner, the head of each flower faces outwards, the cut flowers are 5cm away from the edge of the box, the box is loosely filled, the cut flowers are bound and fixed in the middle, then, holes are punched on two sides of the paper box, and the hole openings are 8cm away from the box opening. The pre-cooling comprises the steps of placing the pre-treated cut flowers in a pre-cooling chamber, and carrying out vacuum pre-cooling at the temperature of 2-4 ℃ and the relative humidity of 95-98%.

However, in these existing processing procedures, the cut flowers are usually packaged after being pretreated with a low-temperature preservation solution, and then stored in a refrigerator, and finally packed in the refrigerator for shipment. Such a process flow brings about the following problems: (1) Adverse effects on the cut flower quality caused by temperature fluctuation in different treatment links; (2) Pretreatment liquid pretreatment is carried out in a low-temperature environment, the pretreatment liquid absorption efficiency is low, the treatment time is further prolonged, and the low treatment efficiency and high energy consumption are caused; (3) The cut flower precooling mode usually adopts air precooling in a cold storage, and the cut flower precooling rate is low; (4) The box packing in the refrigeration house is not suitable for long-time work of operators, and meanwhile, the area of a region for box packing needs to be included in the refrigeration house, so that the required refrigeration area is enlarged, and the energy consumption is increased; (5) The operation of each area is mainly performed by manpower, the mechanization level is low, and the high efficiency and the standardization of the postharvest treatment are not facilitated.

In addition, most of the existing precooling devices adopt a square refrigeration house for vacuum or low-pressure precooling treatment, cut flower packing boxes or packing bags are stacked in the refrigeration house, and the cut flowers are precooled by air heat exchange or vacuum evaporation. Vacuum precooling requires a plastic breathable bag for packaging cut flowers, so that operation steps are added, and troubles are added for later shipment and transportation; and the air heat exchange mode is carried out in a square refrigeration house. The air flow in the square refrigeration house has a circulation dead angle during circulation, the local temperature can form a larger temperature difference with the rest parts in the real-time temperature change process due to the slow long-term gas exchange speed, the temperature of the partial area can influence the temperature uniformity in the whole refrigeration house when the air flow in the refrigeration house changes, substances which promote the respiration of plants such as oxygen and the like can be accumulated in the local area, when the partial gas is contacted with cut flowers, the respiration rate of the cut flowers contacted with the partial gas can be promoted, the precooling effect of the cut flowers is influenced, the detection value of a detection device in the refrigeration house is reduced, the reaction sensitivity of a control system is influenced, the regulation and control of the temperature, the gas concentration and the like in the refrigeration house are influenced, the actual precooling effect of the cut flowers is greatly different from the ideal precooling effect, and even the problems of disorder, cut flower damage and the like are caused. However, since the airflow in the reservoir changes frequently, the local temperature is not easy to be sensed, and thus such a problem cannot be avoided. Therefore, the circulation dead zone is reduced, and the airflow circulation in the cold storage is increased, so that the actual precooling effect of the cut flowers is greatly improved.

In the research progress of cut chrysanthemum preservation technology (lina et al, guizhou agricultural science, no. 39, no. 3, no. 182-187, page 191, 2011), a cut chrysanthemum preservation technology is disclosed, and the cut chrysanthemum preservation technology is divided into pre-collection treatment and post-collection treatment according to a treatment period, wherein the post-collection treatment refers to a series of treatments on collected cut flowers, mainly uses a preservative, and the preservative is divided into pretreatment liquid, catalytic liquid and bottle-cutting liquid according to the use method, period and purpose. The pretreatment liquid is a fresh-keeping liquid used for pretreatment before storage and transportation or bottle insertion. The pretreatment is a certain pretreatment to the fresh cut flowers after grading, before storage and transportation or bottle insertion, and is mainly used for promoting water absorption of flower branches, providing nutrient substances, sterilizing, reducing ethylene production and the like so as to delay the aging of the fresh cut flowers. The pretreatment mode mainly comprises a chemical method and a physical method, wherein the chemical method mainly uses chemical agents to prepare the fresh-keeping liquid. The storage, transportation and preservation technology mainly comprises 7 technologies such as a precooling technology, a low-temperature refrigeration method, an air-conditioned storage method, a reduced-pressure storage method, an antitranspirant method, a radiation method, a wrapping method and the like. Precooling is the first step in the process of cold storage and transportation after the fresh cut flowers are picked, so that the flowers are quickly cooled to a specified temperature range. The pre-cooling mode includes natural pre-cooling and artificial pre-cooling, and the artificial pre-cooling mode includes strong wind pre-cooling, pressure difference pre-cooling and vacuum pre-cooling. However, the cut chrysanthemum fresh-keeping technology cannot improve the air flow rate and the precooling efficiency by generating the pressure difference, and cannot intelligently adjust the environment in the cold storage, thereby giving consideration to the personal safety of workers and the precooling effect of cut flowers to the maximum extent.

The invention needs to design a control system and a control method for a cut flower pre-cooling warehouse to solve the problems of improving the air flow rate and the pre-cooling efficiency, and meanwhile, the control system and the control method for the cut flower pre-cooling warehouse can intelligently adjust the environment in the cold warehouse, and give consideration to the personal safety of workers and the pre-cooling effect of cut flowers to the greatest extent.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor has studied a lot of documents and patents while making the present invention, but the space is not limited to the details and contents listed, however, this is by no means the present invention does not have the features of these prior arts, but the present invention has all the features of the prior arts, and the applicant reserves the right to increase the related prior arts in the background art.

Disclosure of Invention

Aiming at the problems, the invention provides a cut flower fresh-keeping treatment system and a cut flower fresh-keeping treatment method, which are characterized in that a normal-temperature quick pretreatment liquid treatment is carried out, a differential pressure type strong ventilation precooling technology is used for quickly precooling cut flowers after normal-temperature boxing, and the treatment process after the cut flowers are picked is improved as follows: unloading flowers, pretreating pretreatment liquid, grading, packaging and boxing, precooling, storing, detecting quality, and loading cold storage agent for shipment. Through the process flow, the area of a refrigeration area required by the postharvest treatment of the cut flowers can be reduced, the postharvest treatment efficiency of the cut flowers is improved through a mechanical postharvest treatment mode, the time required by postharvest treatment is shortened, and meanwhile, the negative influence on the cut flower quality caused by temperature fluctuation of different treatment links can be avoided, so that the premature senility of the cut flowers after being picked is avoided on the technical level, the ornamental period of the cut flowers is prolonged, the high ornamental quality is ensured, and the economic value of the cut flowers is improved.

The invention provides a cut flower fresh-keeping processing system, which comprises a normal temperature module and a low temperature module, wherein the normal temperature module is used for carrying out cut flower pretreatment, classification and packaging, and the low temperature module is used for carrying out cut flower precooling and storage; the low-temperature module comprises a differential pressure precooling house for generating differential pressure to improve air flow rate and precooling efficiency, a refrigerating house for low-temperature storage, and a temperature control hall for cut flower turnover and shipment.

The second aspect of the invention provides a cut flower fresh-keeping treatment method, which comprises the following steps in sequence: unloading flowers, pretreating pretreatment liquid, grading, boxing, precooling, storing, quality testing and discharging cold storage agent; wherein, the grading is carried out by adopting automatic grading equipment of cut flowers; pre-cooling by adopting a differential pressure pre-cooling warehouse, wherein the final temperature is 4-6 ℃; the storage is carried out by adopting a low-temperature storage warehouse at the temperature of 2-4 ℃.

The method comprises the following specific operation steps:

(1) Flower unloading: cleaning, disinfecting and sterilizing the unloading area, and setting the area temperature to be 20 ℃; and (3) supporting the tray to a position close to a flower barrel of the flower vehicle, then placing the flower barrel on the tray, and carrying the cut flowers in the flower barrel on the tray to a pretreatment area of pretreatment liquid.

(2) Preservation pretreatment: cleaning, disinfecting and sterilizing a pretreatment area of pretreatment liquid, and setting the area temperature to be 20 ℃; soaking the flower heads of the cut flowers conveyed to the pretreatment area of the pretreatment liquid into the pesticide for preventing and treating the botrytis cinerea for 30 seconds, and then taking out; diluting the pretreatment liquid for cut flowers by using a medicine mixer, immediately inserting the cut flowers after the heads of the flowers are soaked by using a griseofulvin control pesticide into the diluted pretreatment liquid, treating for 2 hours at the temperature of 18-20 ℃ so that the cut flowers can quickly complete the absorption of the pretreatment liquid, and taking out and sending the treated cut flowers to a thorn and leaf removing operation table.

(3) Intelligent grading: cleaning grading environment, sterilizing, setting the temperature of the area to be 20 ℃, debugging equipment, and setting the grading standard of fresh flowers to be the intelligent grading standard corresponding to the cut flowers; removing leaves 20-30 cm below the stem of the cut flower on the thorn-removing leaf-beating operation table by using a thorn-removing leaf-beating machine, conveying the cut flower to automatic grading equipment through a conveyor belt, and grading the cut flower by using the automatic grading equipment; after automatic grading, the cut flowers of the same grade are placed into a packaging unit and are conveyed to a packaging operation table through a conveying belt.

(4) Packaging: cleaning a packaging area, a packaging operation table and a guillotine before packaging, and then sterilizing, wherein the temperature of the area is set to be 20 ℃; selecting cut flowers, removing diseased and damaged cut flowers, and then placing flower heads in order and in accordance, wherein the distance between the tops of the flower heads of different cut flowers should not exceed 1cm; conventionally, each bundle of 10 or 20 cut flowers is used as a packaging unit, the cut flowers are packaged by using a breathable packaging material with a supporting and protecting effect, and then the cut flowers are bundled; and cutting the fresh cut flowers after packaging, sticking commodity information labels on the packaged cut flowers, and conveying the cut flowers to a boxing operation table through a conveyor belt.

(5) Boxing: cleaning a packaging area and a boxing operation table before packaging, and then sterilizing, wherein the temperature of the area is set to be 20 ℃; and (3) placing the packaged cut flower staggered codes into cut flower packaging boxes with air holes of different specifications, wherein the distance between the flower heads and the packaging boxes is 10cm, then sealing the cut flower packaging boxes, and stacking the boxed cut flowers on a tray.

(6) Pre-cooling by pressure difference: cleaning, sterilizing and debugging the storehouse body before precooling, opening the equipment of the precooling storehouse body 1h before precooling, and reducing the temperature of the precooling storehouse body to the set final temperature of the cut flower precooling. Moving the tray filled with the same precooling batch of cut flowers into a precooling warehouse body; placing the pre-cooling unit cut flowers on a third wall in the storehouse body, and placing a sealing covering cloth; starting pre-cooling warehouse body equipment, and cutting flowers for pre-cooling for 2 hours; after the pre-cooling is finished, the cut flowers are transported to a low-temperature fresh-keeping warehouse or a modified atmosphere fresh-keeping warehouse from the pre-cooling warehouse for storage.

(7) And (3) cut flower storage: cleaning a storage place, disinfecting and sterilizing, and debugging equipment; setting the temperature of the fresh-keeping warehouse within the range of 2-4 ℃, putting the cut flowers into the warehouse for storage according to the types, varieties, grades and harvesting time of the fresh cut flowers, and reserving proper spaces between walls and packages and between packages.

(8) And (3) quality detection: extracting 1% of cut flowers every day during the storage period of the cut flowers, and detecting appearance quality, pathological indexes and pathological indexes of the extracted cut flowers in a quality detection area: the appearance quality comprises color, luster, flower head size, openness and the like, the physiological indexes comprise water potential, pH value, respiratory rate and the like, and the pathological indexes mainly comprise pest and disease infection conditions of Chinese rose gray mold, downy mildew, powdery mildew, thrips and the like; and early warning the maximum storage period of the cut flowers according to the appearance quality, physiological condition and pathological condition of the cut flowers, and selling the cut flowers before the early warning maximum storage period.

(9) Discharging the cold storage agent: transferring the coolant in the ice house to a temperature control hall before shipment; and (3) carrying the cut flowers in the fresh-keeping warehouse to a temperature control hall, immediately filling the cold storage agent into the cut flower packaging box, and then discharging the cut flowers.

Through the processing method and the processing flow, the problems that the field transfer is disordered in the operation and processing processes of each part in the conventional cut flower processing, the temperature difference inside and outside the cold storage is large, and the influence on the temperature inside the cold storage is large when the door of the cold storage is opened can be solved. The temperature is divided into a low-temperature area and a high-temperature area through the temperature, so that the physiological state of the cut flower is stable because no large temperature change exists in the transferring process of each operation step, the whole post-harvest treatment process of the cut flower is adaptive to the physiological characteristics of the cut flower after being harvested, and the quality of the cut flower after being stored for a long time is ensured. Improving the ornamental value and the economic value of the cut flower.

According to a preferred embodiment, the pressure-difference precooling warehouse comprises a warehouse body, the warehouse body comprises an enclosing wall and a third enclosing wall which is arranged concentrically with the warehouse body and used for placing the cut flower packing boxes, and the shelf divides the interior of the warehouse body into a first accommodating space and a second accommodating space. The third bounding wall is used for placing the cut flower packing box, first accommodation space and second accommodation space separate through the cut flower packing box and make the gas exchange in first accommodation space and the second accommodation space must pass through the cut flower packing box, thereby can adjust the air property with the heat transfer of cut flower contact through adjusting properties such as the temperature of the gas in first accommodation space and the second accommodation space and humidity, and can adjust the gas flow rate that flows through in the cut flower packing box through adjusting the pressure differential size, can change the heat transfer rate of cut flower promptly.

According to a preferred embodiment, the enclosing walls include a first enclosing wall and a second enclosing wall, the second enclosing wall is disposed along an inner wall of the first enclosing wall and encloses an airflow channel with an inner wall of the second enclosing wall at a certain distance, the airflow channel is provided with an air inlet and an air outlet, the air inlet is disposed in the second accommodating space, and the air outlet extends into the first accommodating space. The air current passageway can assemble the hot-air after the heat transfer drainage to the air current passageway and export back to first accommodation space in air outlet department changes the gas nature through operations such as refrigerate once more, humidification, concentration control to form complete air current circulation in the storehouse, effectively utilize some speed that air current circulation itself has, increase the effective work of equipment.

According to a preferable embodiment, the air outlet of the air flow channel comprises a first cold air outlet and a second cold air outlet, and the directions of the first cold air outlet and the second cold air outlet are set to be coincident after the shelf rotates 180 degrees around the circle center of the shelf on a cross section of the shelf passing diameter. The air flow which circularly flows is formed in the second accommodating space, the uniformity of a temperature field in the first accommodating space is guaranteed, and the temperature difference of each part is reduced.

According to a preferred embodiment, a first partition plate is arranged in the airflow channel, a plurality of through holes are formed in the first partition plate, and the fan is arranged in the through holes of the first partition plate in a mode that the extracted air can be prevented from flowing back to influence the airflow direction in the second accommodating space.

The setting of baffle separates the air current passageway for the lower part that is close to the storehouse body bottom surface and the upper portion that is close to the top surface, and the fan is in extracting the air current passageway of upper portion from the air current passageway of lower portion with gas, carries out nature regulation in the air current passageway of upper portion afterwards, and the setting of baffle can avoid carrying out during the part gas that nature was adjusted flows back to the air current passageway that is close to the lower portion in the air current passageway of upper portion, is not convenient for guarantee the nature of the air current that air outlet department flows after the gas mixing on the one hand, and on the other hand the gas that flows back mixes and forms the turbulent flow with the gas that normally flows, is unfavorable for the quick extraction of the gas that normally flows.

According to a preferred embodiment, the air flow channel is internally provided with a fan, the air inlet of which is arranged close to the air inlet and the air outlet of which is arranged close to the air outlet, in such a way that a local low air pressure can be created to create a flow tendency of the air flowing from the first receiving space to the second receiving space.

According to a preferred embodiment, the fan is arranged to deflect at a certain included angle relative to the vertical direction in a manner that a spiral airflow can be formed in the airflow channel, an air guide sheet is arranged on the air inlet of the airflow channel, the air guide sheet is arranged to deflect at a certain angle relative to the vertical direction in a manner that the air guide sheet adapts to the setting angle of the fan to assist in forming the spiral airflow, and the deflection angle of the air guide sheet is equal to that of the fan.

The deflection angle of the fan is consistent with the deflection direction of the air guide sheet, the speed of the air in the invalid direction is reduced, the auxiliary fan forms a spiral airflow direction, and the problem that the effective work of the fan is influenced due to the fact that the air flows back because of turbulent flow formed in an airflow channel is avoided.

According to a preferred embodiment, the cut flower packing box is provided with a first vent hole and a second vent hole at two ends in the axial direction, and the second vent holes of the cut flower packing boxes are arranged on the shelf in a way of facing the first accommodating space;

the single-row cut flower packing boxes are spirally arranged in the height direction of the goods shelf to form a spiral gas channel, and the plurality of rows of cut flower packing boxes are arranged in parallel in the height direction of the goods shelf to form a plurality of spiral gas channels.

The cold air flowing out of the air outlet and flowing out of the first containing space in a circulating mode flows from the top along the spiral gas channel to be in contact with the second vent hole of the cut flower packing box at the lower portion, enters the cut flower packing box to exchange heat with cut flowers, shortens the distance from the cold air to the second vent hole, increases the contact area of the cold air and the cut flower packing box, and improves the heat exchange efficiency. And in the flowing process, the moving speed of water molecules in the cut flower to the flower head along the cut is promoted, and the sufficient water supply of the flower head is ensured.

The invention also provides a cold storage for the fresh-keeping treatment of the cut rose flowers, which at least comprises a cylindrical cold storage body, wherein the cold storage body at least comprises:

ground surface: a temperature equalizing layer, a moisture insulating layer and a heat insulating layer are arranged from the bottom to the top;

a first enclosing wall: the wall body, the heat-insulating layer, the moisture-insulating layer and the surface layer are arranged from outside to inside in sequence;

a second enclosing wall: the heat-insulating layer and the surface layer are arranged from outside to inside in sequence;

top surface: the surface layer, the moisture-proof layer, the top plate and the heat-insulating layer are arranged from bottom to top in sequence.

Drawings

FIG. 1 is a schematic layout of a post-production processing center in accordance with a preferred embodiment of the present invention;

FIG. 2 is a top cross-sectional view of a preferred embodiment of the library provided by the present invention;

figure 3 is a front cross-sectional view of a preferred embodiment of the library provided by the present invention.

List of reference numerals

1: an unloading area; 2: indicating marks of the process flow of the postharvest preservation treatment; 3: a packaging area: 4: an intelligent classification zone; 5: a pretreatment liquid pretreatment area; 6: a thorn-removing threshing machine; 7: a thorn and leaf removing operation table; 8: boxing operation platforms; 9: a conveyor belt; 10: intelligent grading equipment; 11: a packaging operation table; 12: a quality detection area; 13: a packaging material library; 14: controlling the temperature to pass through the chamber; 15: a platform; 16: an ice house; 17: a low-temperature fresh-keeping warehouse; 18: air-conditioned fresh-keeping storeroom; 19: a differential pressure precooling warehouse; 20: a machine room; 21: a door; 22: a library body; 23: a third enclosing wall; 24: a first accommodating space; 25: a second accommodating space; 26: cut flower packing cases; 27: a first enclosing wall; 28: a second enclosing wall; 29: an air flow channel; 30: an air inlet; 31: a first cold air outlet; 32: a second cold air outlet; 33: a helical gas channel; 34: a fan; 35: a first separator; 37: an upper portion; 38: a lower portion; 39: the humidifier is vented.

Detailed Description

The following description will be made in detail with reference to fig. 1 to 3.

Example 1

The embodiment discloses a cut flower fresh-keeping processing system, reduces the heat loss that frequently gets into the storehouse and cause, avoids the cut flower frequent change of temperature in the processing procedure, can reduce the ageing of cut flower.

As shown in FIG. 1, in the storehouse construction of this embodiment, the harvested fresh cut flowers are transported from the storehouse gate 21 to the pretreatment area 5 for pretreatment. The pretreatment liquid pretreatment zone 5 is adjacent to the intelligent grading zone 4. The pretreated cut flowers are transported to a thorn and leaf removing operation table 7, thorn and leaf removing operation is carried out by using a thorn and leaf removing machine 6, then the cut flowers after the thorn and leaf removing operation are transported to an intelligent grading device 10 by a conveyor belt 9 to carry out intelligent grading, the cut flowers after the intelligent grading are graded and packaged at a packaging operation table 11 according to the classification grade, and the flowers after the grading and packaging are boxed and graded at a boxing operation table 8. The boxing operation platform 8, the conveyor belt 9, the intelligent grading equipment 10 and the packaging operation platform 11 are arranged in the packaging area 3 and the intelligent grading area 4, and an annular reciprocating production line is formed in the intelligent grading area 4 and the packaging area 3. The transfer route can be saved, the temperature of each area can be kept consistent, the temperature of the cut flowers cannot be changed in each operation process, and the stability of the physiological properties of the cut flowers can be guaranteed. And then transporting the packaging box filled with the cut flowers to a differential pressure type strong ventilation pre-cooling warehouse 19 for pre-cooling, and transferring the pre-cooled flowers from the temperature control hall 14 to a controlled atmosphere fresh-keeping warehouse 18 or a low temperature fresh-keeping warehouse 17 for storage. The temperature control through-hole 14, the differential pressure type strong ventilation pre-cooling warehouse 19, the air-conditioned cold-preservation warehouse 18 or the low-temperature cold-preservation warehouse 17 are all low-temperature areas, the differential pressure type strong ventilation pre-cooling warehouse 19, the air-conditioned cold-preservation warehouse 18 or the low-temperature cold-preservation warehouse 17 are communicated with each other through the temperature control through-hole 14, the temperature change in the transfer process can be guaranteed to be extremely small, and the temperature in the warehouse cannot be excessively influenced when the warehouse door is repeatedly opened. When the cut flower packing box needs to be delivered, the cut flower packing box is taken out from the controlled atmosphere storage 18 or the low-temperature storage 17. An ice bank 16 is a storage for storing a coolant, and fresh flowers delivered from a platform 15 are delivered from the platform 15 after the coolant transferred from the ice bank 16 is added to the temperature-controlled hall 14.

The storehouse structure is reasonably utilized and divided into areas, and the low-temperature area and the temperature control area are separated, so that the mutual influence of the temperatures in different temperature areas is greatly reduced; in addition, the transfer path between the low-temperature areas is shortened, the temperature control cross-hall 14 is also arranged on the transfer path to assist temperature buffering, the influence of frequent opening and closing of the low-temperature areas such as a refrigeration house on the overall temperature in the refrigeration house is reduced, the temperature fluctuation of the cut flowers on the transfer path can be reduced, and the activity of the cut flowers is guaranteed. The compact reasonable overall arrangement setting can also reduce the required refrigeration area's of cut flower precooling area to reduce cost such as place and transportation. The pre-cooling of the preservative at normal temperature can accelerate the preservative absorption speed of the cut flowers, slow down the aging of the cut flowers and prolong the service life of the cut flowers. The refrigeration area of the refrigeration house can be reduced by performing packaging and boxing operation before entering the refrigeration house, the refrigeration power consumption is reduced, the frequency of entering and exiting the refrigeration house by workers is reduced, the temperature fluctuation in the refrigeration house is reduced, and the adverse effect on flowering caused by the temperature fluctuation is reduced; compared with the packaging in a refrigeration house, the body life activity of the workers is in a normal activity state when the workers package at the normal temperature state, the working time can be prolonged, the working efficiency is improved, and the adverse effect on the body health of the workers caused by the long-time working in the cold state is avoided.

Example 2

The embodiment provides a cut flower fresh-keeping treatment method, which comprises the following steps: (1) flower unloading; (2) pretreating pretreatment liquid; (3) intelligent grading; (4) packaging; (5) boxing; (6) precooling by differential pressure; (7) storing the cut flowers; (8) detecting the quality; and (9) discharging the cold storage agent. And grading by adopting automatic cutting flower automatic grading equipment. Precooling is carried out by adopting a differential pressure precooling warehouse, and the final temperature is 4-6 ℃. The storage is carried out by adopting a low-temperature storage warehouse at the temperature of 2-4 ℃. The detailed processing steps are as follows:

(1) Flower unloading: thoroughly cleaning the unloading area 1 before unloading, then sterilizing by using sterile water or an ultraviolet lamp, and setting the area temperature to 20 ℃ through a central air conditioner; after the cut flowers are transported with water and returned to the post-mining treatment center, the tray is supported to the position close to the flower barrel of the flower vehicle by using a forklift, then the flower barrel is placed on the tray, and the cut flowers in the flower barrel on the tray are conveyed to the pretreatment area 5 by matching with a manual carrier.

(2) Preservation pretreatment: before treatment, cleaning the pretreatment area 5 of the pretreatment liquid, then using sterile water or an ultraviolet lamp for disinfection and sterilization, and setting the area temperature to be 20 ℃ through a central air conditioner; soaking the flower heads of the cut flowers conveyed to the pretreatment area 5 of the pretreatment liquid into the pesticide for preventing and treating the botrytis cinerea for 30 seconds, and then taking out; diluting the pretreatment liquid for cut flowers by using a medicine mixer, immediately inserting the cut flowers after the heads of the flowers are soaked by using the botrytis cinerea pesticide into the diluted pretreatment liquid, treating the cut flowers for 2 hours at the temperature of 18-20 ℃ to enable the cut flowers to quickly complete the absorption of the pretreatment liquid, and taking out the cut flowers to be sent to a thorn-removing and leaf-beating operation table 7.

(3) Intelligent grading: cleaning grading environment before grading, then sterilizing by using sterile water or an ultraviolet lamp, setting the temperature of a region to be 20 ℃ through a central air conditioner, debugging equipment, and setting the grading standard of fresh flowers to be an intelligent grading standard corresponding to cut flowers; removing 20-30 cm blades on the lower part of the stem from the cut flowers on the thorn-removing and leaf-threshing operation table 7 by using a thorn-removing and leaf-threshing machine 6, conveying the cut flowers to automatic grading equipment 10 by using a conveying belt 9, and grading the cut flowers by using the automatic grading equipment 10; after automatic grading, the cut flowers of the same grade are placed into a packaging unit and are conveyed to a packaging operation table 11 through a conveyor belt 9.

(4) Packaging: cleaning a packaging area, a packaging operation table and a guillotine before packaging, then sterilizing by using sterile water or an ultraviolet lamp, and setting the temperature of the area to be 20 ℃ by a central air conditioner; selecting cut flowers before bundling and packaging, removing cut flowers with pest and disease infection and mechanical damage, and then placing flower heads in order and in accordance, wherein the distance between the tops of the flower heads of different cut flowers should not exceed 1cm; packaging the cut flowers by using a packaging material which is breathable and has a supporting and protecting effect and then bundling the cut flowers by using a rubber band, wherein each bundle of 10 or 20 cut flowers is taken as a packaging unit; need carry out the truncation to fresh cut flower after the packing, guarantee simultaneously that the incision is level and smooth, at same horizontal plane, then use two-dimensional code product information system to print cut flower commodity information label, stick to commodity information label with the cut flower that packs, reach vanning operation panel 8 department through conveyer belt 9.

(5) Boxing: cleaning a packaging area and a boxing operation table 8 before packaging, then sterilizing by using sterile water or an ultraviolet lamp, and setting the area temperature to be 20 ℃ through a central air conditioner; and putting the packaged cut flower staggered codes into cut flower packaging boxes with air holes of different specifications, wherein the distance between the flower heads and the packaging boxes is 10cm, sealing the cut flower packaging boxes, and stacking the packaged cut flowers on a tray.

(6) Pre-cooling by pressure difference: cleaning the differential pressure type strong ventilation pre-cooling warehouse 19 before pre-cooling, then using sterile water or an ultraviolet lamp for disinfection and sterilization, debugging the control equipment of the differential pressure system, opening the refrigeration system equipment of the pre-cooling warehouse 1h before pre-cooling, and reducing the temperature of the pre-cooling warehouse to the set final temperature of flower cutting pre-cooling. The precooling temperature is determined according to the variety characteristics of the cut flowers, the precooling final temperature of the tropical cut flowers is usually between 4 and 6 ℃, the tropical-originated fresh cut flowers are generally sensitive to low temperature, and the precooling temperature is usually between 8 and 15 ℃; carrying the trays containing the same precooled batch of cut flowers into a precooling warehouse by using a carrying vehicle, and lightly taking the trays during the precooling and carrying process of the cut flowers to avoid mechanical damage to the cut flowers; cutting the pre-cooling unit into flower, respectively and symmetrically placing the flower on two sides of an air inlet of a static pressure air box of a pre-cooling system to form an air duct, and covering the upper surface and the front surface of a cut flower packing box and a ramp with a sealing covering material; starting a differential pressure system, cutting flowers for 2 hours for precooling, and avoiding temperature fluctuation caused by frequent entering and exiting of a precooling environment in a precooling process; after the pre-cooling is finished, the cut flowers are transported from the pre-cooling warehouse to a low-temperature fresh-keeping warehouse 17 or a controlled atmosphere fresh-keeping warehouse 18 for storage.

(7) And (3) cut flower storage: cleaning a storage place before storage, then sterilizing by using sterile water or an ultraviolet lamp, and detecting and debugging refrigeration equipment; setting the temperature of the fresh-keeping warehouse within the range of 2-4 ℃, putting the cut flowers into the warehouse for storage, separately storing the cut flowers according to the types, the varieties, the grades and the harvesting time during storage and stacking, and leaving proper spaces between walls and packages and between packages.

(8) And (3) quality detection: extracting 1% of cut flowers every day during the storage period of the cut flowers, and detecting appearance quality, pathological indexes and pathological indexes of the extracted cut flowers in the quality detection area 12: the appearance quality comprises color, head size, openness and the like, the physiological indexes comprise water potential, pH value, respiratory rate and the like, and the pathological indexes mainly comprise disease and insect pest infection conditions of Chinese rose gray mold, downy mildew, powdery mildew, thrips and the like; and early warning the maximum storage period of the cut flowers according to the appearance quality, physiological condition and pathological condition of the cut flowers, and selling the cut flowers before the early warning maximum storage period.

(9) Discharging the cold storage agent: transferring the coolant in the ice storage 16 to the temperature control pit 14 before shipment; after the cut flowers in the fresh-keeping warehouse are transported to the temperature control hall 14, the cut flower packing box is immediately filled with the coolant, and then the cut flowers are delivered.

Example 3

The embodiment discloses a differential pressure precooling storage which at least comprises a storage body 22. As shown in fig. 2, the reservoir 22 is provided as a cylindrical reservoir. The library 22 includes at least a floor, an enclosure, and a ceiling. Preferably, the top surface of the storage body 22 is sequentially provided with a surface layer, a moisture-insulating layer, a top plate and a heat-insulating layer from bottom to top, and the enclosing wall of the storage body 22 is sequentially composed of a wall body, a heat-insulating layer, a moisture-insulating layer and a surface layer from outside to inside. Preferably, the top surface of the storehouse body 22 and the heat-insulating layer of the surrounding enclosing wall are both heat-insulating panels. The ground of the reservoir body 22 is composed of a temperature equalizing layer, a moisture insulating layer and a heat insulating layer from bottom to top. Preferably, the insulating layer of the ground of the storehouse body 22 adopts a double-layer polystyrene extruded sheet. Preferably, the storehouse 22 further comprises a third enclosing wall 23 arranged in the storehouse 22, and the third enclosing wall 23 is used for placing the cut flower packing box 26. The fence and the shelf are concentrically arranged to divide the bank 22 into a first accommodation space 24 and a second accommodation space 25. When the refrigerator is in operation, there is a pressure difference between the first receiving space 24 and the second receiving space 25, and the gas pressure in the second receiving space 25 is smaller than the gas pressure in the first receiving space 24, so that gas can have a tendency to flow from the first receiving space 24 to the second receiving space 25. The cut flower packing cases 26 are provided with vent holes at both ends. The vent holes include a first vent hole and a second vent hole. The second ventilating holes of the cut flower packing case 26 are placed on the third enclosing wall 23 toward the inside of the first containing space 24. The gas in the first accommodating space 24 sequentially passes through the second vent hole and the first vent hole in the cut flower packing box 26 to reach the second accommodating space 25 based on the pressure difference between the first accommodating space 24 and the second accommodating space 25, and in the process, the gas flowing through the cut flower packing box 26 exchanges moisture and heat with the cut flowers in the cut flower packing box 26 to supplement moisture for the cut flowers in the cut flower packing box 26 and take away field heat of the cut flowers, so that cut flower pre-cooling is completed. Preferably, the first accommodating space 24 is located at the center of the library body 22, and the second accommodating space 25 is a tunnel-shaped accommodating space around the outer wall of the first accommodating space 24. The third surrounding wall 23 is formed in a ring shape using a steel pipe keel structure to circumferentially seal the first accommodating space 24, so that a pressure difference between the first accommodating space 24 and the second accommodating space 25 is maintained.

According to a preferred embodiment, the enclosing walls further comprise a first enclosing wall 27 and a second enclosing wall 28, the second enclosing wall 28 and the first enclosing wall 27 surround to form a gas flow channel 29, and the gas flow channel 29 is used for recovering and cooling the hot gas flow. Second enclosing wall 28 is attached to the inner wall of first enclosing wall 27 and is disposed at a distance from first enclosing wall 27. Preferably, the second enclosing wall 28 is provided with a plurality of air inlets 30, and the directions of the plurality of air inlets 30 are adapted to the direction of the air flow flowing out of the first vent holes of the cut flower packing box 26, and are arranged to form a certain included angle with the second enclosing wall 28. Preferably, the second enclosing wall 28 is shaped to fit the direction of the air inlets 30, and is used for guiding the airflow flowing out from the first ventilation hole of the cut flower packing case 26 to the air inlets 30 to be sucked into the airflow channel 29. Preferably, the airflow channel 29 extends to the top of the storage body 22 and is provided with an air outlet, and the air flowing out of the air outlet is cooled cold air. Preferably, the air outlet includes at least a first cold air outlet 31 and a second cold air outlet 32, and the first cold air outlet 31 and the second cold air outlet 32 are disposed at the top of the first accommodating space 24. The first and second cold air outlets 31 and 32 are disposed at two ends of the first accommodating space 24 with the same diameter, and wind directions of the first and second cold air outlets 31 and 32 are respectively tangent to directions of the diameter. In the plan view shown in the figure, the first and second cool air outlets 31 and 32 are opposite to each other in air direction, and circulate in such a manner that the cool air in the annular first receiving space 24 is not moved to a dead angle, and contact the cut flower packing boxes 26 on the shelf, and pass through the cut flower packing boxes 26 to exchange heat with the cut flowers based on the pressure difference between the first and second receiving spaces 24 and 25.

According to a preferred embodiment, when precooling some rare flowers, as shown in fig. 3, the cut flower packing cases 26 in the same row are arranged in a thread shape in the height direction of the shelf, and a spiral air passage 33 is formed, so that when cold air with a certain flow rate flows through the cut flowers of the cut flowers packing cases 26, the cut flowers can move rapidly from top to bottom along the spiral air passage 33, and the air flow is conveniently guided to contact the cut flowers packing cases 26 on the same thread at the lower part and enter the cut flowers packing cases 26 for precooling. Several rows of cut flower packing boxes 26 are arranged side by side around the shelf, and several parallel spiral air channels 33 are formed on the inner wall of the shelf from top to bottom. Preferably, in order to ensure uniform circulation of the air flow in the first receiving space 24, the centers of the second ventilating holes of the cut flower packing cases 26 are arranged to be located on the inner side surface of the first receiving space 24. By adopting the arrangement mode, the flowing distance of the cold air can be shortened, and the difference between the temperature of the gas discharged by the air cooler 34 and the temperature of the gas reaching the cut flower packaging box 26 is reduced, so that the invalid work of the air cooler 34 can be reduced, and the working efficiency of the air cooler 34 is improved.

According to a preferred embodiment, the third enclosing wall 23 is provided with a plurality of placing holes for accommodating the cut flower packing cases 26, and the placing holes are spirally arranged in the height direction. When the cut flower packing box is put to needs, only need to place downthehole single cut flower packing box of inserting can, can adjust the angle of cut flower packing box based on the position and the angle of placing the hole, and do not need the angle of manual adjustment cut flower packing box. A single placement hole can be used for placing a single cut flower packing case 26 or for placing a single group of cut flower packing cases arranged in a rectangular shape. Preferably, the plurality of rectangular cut flower packing boxes are arranged into a spiral shape based on the arrangement mode of the placing holes, so that the stacking efficiency of the cut flower packing boxes is improved, and the rectangular cut flower packing boxes are integrally placed in the placing holes when placed. The cut flower packing box group of rectangle is convenient for pile and is built and transport, transports in groups and puts the efficiency that can improve transportation cut flower packing box 26. Preferably, the individual cut flower containers are capable of being transported and placed in position on suitable pallets by common transport means such as a forklift. Preferably, the third enclosing wall 23 can be a layered detachable arrangement, which facilitates single-layer loading and assembling of the third enclosing wall 23.

According to a preferred embodiment, a sealing cover cloth is further disposed in the first accommodating space 24, and the sealing cover cloth is mounted on the top of the first accommodating space 24 and can be drawn and stored by a motor. When sealed cover cloth put down completely, sealed cover cloth can be close to notched one end contact with placing a plurality of cut flower packing boxes 26 on goods shelves to shelter from the clearance of putting between the cut flower packing box 26, avoid the air to flow out from the clearance of cut flower packing box 26. The sealing cover cloth is further provided with through holes at positions corresponding to the second ventilating holes of the cut flower packing case 26 so as to guide the cool air into the second ventilating holes.

According to a preferred embodiment, a fan 34 is arranged in the air flow channel 29, the fan 34 being capable of generating power for guiding the hot air in the second receiving space 25 into the air flow channel 29. Preferably, the fan 34 is oriented at an angle relative to vertical, and the air inlet of the fan 34 is aligned obliquely with the air inlet 30, so as to form a helical airflow in the airflow channel 29 and increase the airflow rate. Preferably, a plurality of air deflectors are further arranged at the air inlet 30, and the angle of each air deflector is set to be consistent with the deflection angle of the fan 34 so as to assist in forming spiral air flow, accelerate the air flow rate in the cut flower packing box 26 and assist in quickly pre-cooling cut flowers. Preferably, a heat exchanger is further disposed in the airflow channel 29 to cool the air. The heat exchanger includes a condenser and a cold air blower 34. The condenser is arranged outside the reservoir body 22, and the condenser and the heat exchanger are connected through a circulating pipeline to form a refrigerant circulating loop. Preferably, the circulation line may be implemented as a copper pipe. Ambient air is cooled and refrigerated by the condenser of the heat exchanger by using a cold source generated by the condenser outside the storage body 22 obtained through the circulation loop, and the cooled and refrigerated air is blown out into the first accommodating space 24 through the air cooler 34 of the heat exchanger. Preferably, the first cold air outlet and the second cold air outlet are respectively communicated with an air outlet of the air cooler 34 to output the cooled air.

According to a preferred embodiment, a first partition plate 35 is disposed in the airflow channel, a plurality of through holes are disposed on the first partition plate 35, the fan 34 is disposed in the through holes of the first partition plate 35, the air inlet and the air outlet of the fan 34 are respectively located at two sides of the first partition plate 35, and air flowing out from the air outlet of the fan does not flow back to the air inlet again, so that the air flow direction and flow rate at the air inlet and even in the second accommodating cavity 25 are not affected. As shown in fig. 3, the first partition 35 divides the air flow channel 29 into an upper part 37 near the top of the storage body and a lower part 38 near the bottom of the enclosure, and the air is fed back into the first accommodation space from the first cold air outlet and the second cold air outlet after detecting the components of the air at the part near the top of the storage body and adding the required substances such as oxygen or carbon dioxide and atomized liquid drops. The arrangement of the first partition plate 35 ensures that the air which is supplemented with the components can not flow back to exchange materials or energy with the air which is not supplemented, so that the gas components flowing out of the first cold air outlet and the second cold air outlet can be ensured. Preferably, the first partition 35 is disposed at most at 1/2 of the height of the differential pressure precooling storage 19 to shorten the distance between the fan and the cut flower packing box and promote the formation of the differential pressure. The air inlet is arranged at the position below 1/2 of the height of the differential pressure precooling warehouse 19 so as to improve the differential pressure at two sides of the lower packing box and balance the differential pressure at two ends of each cut flower packing box in the warehouse body, so that the precooling effect of each cut flower packing box in the warehouse body is uniform.

The annular refrigeration house structure can effectively improve the uniformity of flow fields in the first accommodating space 24 and the second accommodating space 25 of the refrigeration house body 22, so that the temperature field in the refrigeration house body 22 is uniform, and the temperature difference of each area is small; the defects of uneven distribution of the temperature of the fluid in the square refrigeration house and even a flow dead zone with large local temperature difference can be overcome; the air in the cold storage is circulated smoothly, and the difference between the actual cutting flower precooling temperature and the preset cutting flower precooling temperature is reduced.

According to a preferred embodiment, the present embodiment further includes a humidifying device and a humidifier humidifying conduit disposed in the reservoir, wherein the humidifying device is communicated with the humidifier humidifying conduit, and the atomized liquid droplets are discharged into the reservoir through the humidifier humidifying conduit, so as to increase the humidity of the air in the reservoir. Preferably, the humidifier outlet 39 is disposed at a part of the humidifier humidifying conduit in the storage, and the humidifier outlet 39 is disposed on the same horizontal plane with the first and second cold air outlets 31 and 32 and within a range of 1m ahead of the air outlet direction of the first and second cold air outlets 31 and 32 so as to be mixed with the air cooled by the heat exchanger to form high-humidity cold air. The atomized liquid droplets are uniformly mixed with the cold air blown out from the first cold air outlet 31 and the second cold air outlet 32 by means of the flow rates of the gas in the first cold air outlet 31 and the second cold air outlet 32, so that the humidity and the temperature of the air contacting the cut flowers in each cut flower packing box 26 in the differential pressure precooling warehouse 19 are uniform. The humidifying device can reduce water loss caused by section flowing circulation when cold air and cut flowers are subjected to heat exchange, so that the cut flowers can be precooled efficiently. Preferably, the humidifying device is a dry mist humidifying device. Preferably, the humidifying device can be disposed outside the reservoir body, the humidifying pipeline extends into the reservoir body, and the humidifier exhaust port 39 is disposed in the first accommodating chamber. According to a preferred embodiment, the differential pressure precooler 19 further comprises a feed passage. The warehousing channel is used for allowing personnel to enter the pressure difference pre-refrigeration house 19 to pick and place the cut flower packaging box. The warehouse entry channel at least comprises a first cold storage door close to the outer side of the warehouse body and a second cold storage door close to the second accommodating cavity. Preferably, a first human body detection sensor is arranged on the first cold storage door, and the first human body detection sensor is further connected with a control system of the pressure difference pre-cold storage 19. When detecting that the staff has entered into first cold storage door, can be based on human detection sensor control system perception. Preferably, in the part of the gas flow channel near the top of the storehouse body, an oxygen supplementing device and a carbon dioxide supplementing device for adjusting gas components are further arranged. The oxygen supplementing device and the carbon dioxide supplementing device are both connected with a control system of the differential pressure precooling warehouse 19, and the control system controls different supplementing devices to supplement corresponding gas according to the content information of specific gas components in the current warehouse body so as to maintain the environment suitable for cutting flower precooling. When the cut flower is pre-cooled in the storage body, the control system needs to set the environment in the differential pressure pre-cooling storage 19 to be the environment with high carbon dioxide concentration and low oxygen concentration so as to inhibit the respiration of the cut flower and slow down the aging of the cut flower. However, such an environment is not suitable for the working of the staff, so when the staff needs to enter the refrigeration storage to work, the control system of the pressure difference pre-refrigeration storage 19 controls the oxygen supplementing device to supplement oxygen into the refrigeration storage so as to ensure the normal life activities of the staff in the refrigeration storage. The program for controlling the concentration of oxygen and carbon dioxide in the differential pressure precooling storage 19 is at least provided with a first preset concentration and a second preset concentration, wherein the first preset concentration is the concentration of oxygen/carbon dioxide for precooling cut flowers for a long time, and the second preset concentration is the lowest concentration of oxygen/carbon dioxide required by the work of workers. When the refrigeration house normally works, the control system controls the pressure difference in the pre-refrigeration house 19 to be a first preset concentration; when the first cold storage door detects that a person enters the cold storage, the pressure difference pre-cooling cold storage adjusts the oxygen/carbon dioxide concentration to be the second preset concentration based on the control of the first human body detection device, and controls the second cold storage door to be opened after the adjustment is finished, so that a worker is allowed to enter the cold storage, and the worker can safely complete the work process. Preferably, a second human body detection device is arranged at the second cold storage door, the second human body detection device is connected with the control system and can exchange data information, when a worker finishes a work process and leaves the second cold storage door, the second human body detection device of the second cold storage door or the first cold storage device of the first cold storage door detects that the worker leaves, the control system of the differential pressure pre-cold storage 19 controls the carbon dioxide supplement device to supplement carbon dioxide inside the differential pressure pre-cold storage 19, so that the internal environment of the differential pressure pre-cold storage 19 is adjusted to be a first preset concentration meeting the cut flower pre-cooling requirement, the respiration of cut flowers is weakened, and the cut flowers are delayed for aging. Through the adjustment mode, the environment in the cold storage can be intelligently adjusted, and the personal safety of workers and the precooling effect of cut flowers are considered to the maximum extent.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents. The present description contains a plurality of inventive concepts such as "preferably", "according to a preferred embodiment" or "optionally" each indicating that the respective paragraph discloses a separate concept, the applicant reserves the right to apply for divisional applications according to each inventive concept. Throughout this document, the features referred to as "preferably" are only an optional feature and should not be understood as necessarily requiring that such applicant reserves the right to disclaim or delete the associated preferred feature at any time.

Claims (3)

1. A cut flower pre-cooling library control system is characterized by at least comprising a library body (22),

the enclosing wall and the shelf are concentrically arranged to divide the bank body (22) into a first containing space (24) and a second containing space (25),

the gas in the first containing space (24) sequentially passes through a second vent hole and a first vent hole on the cut flower packing box (26) to reach the second containing space (25) based on the pressure difference between the first containing space (24) and the second containing space (25), in the process, the gas flowing through the cut flower packing box (26) exchanges moisture and heat with the cut flowers in the cut flower packing box (26) to supplement moisture for the cut flowers in the cut flower packing box (26) and take away field heat of the cut flowers,

the magazine body (22) further comprises:

the ground is provided with a temperature equalizing layer, a moisture insulating layer and a heat insulating layer from bottom to top;

the first enclosing wall (27) limits the accommodating space of the storehouse body (22) and sequentially comprises a wall body, a heat-insulating layer, a moisture-insulating layer and a surface layer from outside to inside;

the second enclosing wall (28) is arranged around the inner wall of the first enclosing wall (27), and is sequentially provided with an insulating layer and a surface layer from outside to inside;

the third enclosing wall (23) is arranged on the inner side of the second enclosing wall (28) in a ring shape and is used for placing a cut flower packing box (26) and dividing the storehouse body (22) into the first accommodating space (24) and the second accommodating space (25);

top surface: a surface layer, a moisture-proof layer, a top plate and a heat-insulating layer are arranged from bottom to top in sequence,

the third enclosing wall (23) is made into a ring shape, the first containing space (24) is sealed in the circumferential direction, so that the pressure difference between the first containing space (24) and the second containing space (25) is kept, the air inlet (30) is arranged in the second containing space (25), the second enclosing wall (28) is provided with a plurality of air inlets (30), the directions of the plurality of air inlets (30) are suitable for the direction of airflow flowing out of the first vent hole of the cut flower packing box (26), and an included angle is formed between the air inlets and the second enclosing wall (28), wherein,

the shape of the second enclosing wall (28) is arranged to be matched with the direction of a plurality of air inlets (30) and is used for guiding the airflow flowing out of the first ventilation holes of the cut flower packing box (26) to reach the air inlets (30) to be sucked into the airflow channel (29),

the air flow channel (29) extends to the top of the warehouse body (22) and is provided with an air outlet, wherein the air outlet at least comprises a first cold air outlet (31) and a second cold air outlet (32), the first cold air outlet (31) and the second cold air outlet (32) are arranged at the top of the first accommodating space (24), the first cold air outlet (31) and the second cold air outlet (32) are arranged at two ends of the first accommodating space (24) with the same diameter, the wind directions of the first cold air outlet (31) and the second cold air outlet (32) are respectively tangent to the direction of the diameter,

the wind directions of the first cold wind outlet (31) and the second cold wind outlet (32) are opposite to each other, so that cold air in the annular first containing space (24) is driven to circularly flow in a mode without flowing dead angles, the cold air is in contact with the cut flower packing boxes (26) on the shelf, and the cold air flows through the cut flower packing boxes (26) to exchange heat with cut flowers based on the pressure difference in the first containing space (24) and the second containing space (25).

2. The cut flower pre-refrigeration storage control system according to claim 1, wherein the centers of the second vent holes of the cut flower packing boxes (26) are arranged to be located on the inner side surface of the first accommodating space (24) so as to ensure uniform circulation of air flow in the first accommodating space (24).

3. The cut flower pre-cooling storage control system according to claim 1, wherein the third wall (23) is provided with a plurality of placing holes for accommodating the cut flower packing boxes (26), the placing holes are spirally arranged in the height direction, a single placing hole can be used for placing a single cut flower packing box (26) or a single group of cut flower packing boxes arranged in a rectangular shape, and the multiple rectangular cut flower packing boxes are arranged in a spiral shape based on the arrangement mode of the placing holes, so as to improve the stacking efficiency of the cut flower packing boxes.

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