CN107736439A - A kind of adaptive fruit and vegetable air-conditioning storehouse - Google Patents

Abstract

The invention discloses a kind of adaptive fruit and vegetable air-conditioning storehouse.Including storage facilities, and corresponding Air-conditioning system, the Air-conditioning system includes energy storing system and is connected to corresponding cold supply system of the storeroom with energy storing system, the energy storing system includes an ice storage pond, some ice devices in the ice storage pond and is connected respectively some corresponding condensers in each ice device.The adaptive fruit and vegetable air-conditioning storehouse, fruit and vegetable refrigerating cooling does not dehumidify, the small, fast precooling of controlled atmosphere power consumption, of good preservation effect.

Description

A kind of adaptive fruit and vegetable air-conditioning storehouse

Technical field

The present invention relates to a kind of fruit and vegetable refrigerating system.A kind of more particularly to adaptive fruit and vegetable air-conditioning storehouse.

Background technology

The preserving fruit and vegetable utilizing air-conditioned cold store of refrigeration industry at present（System）Nearly all it is to use fan coil mode cooling, this equipment Come with some shortcomings, be mainly manifested in：First, the moisture content of freezer can be reduced and preserving fruit and vegetable utilizing need while fan coil cooling Want high humidity environment so that people increase a set of humidifying equipment, this not only adds investment cost again in fresh-keeping warehouse, and dehumidify Process causes frosting, whole defrosting dehumidification process to cause cooling load to increase by tens percent.2nd, the controlled atmosphere in fruit and vegetable air-conditioning storehouse Mode uses operated open-loop, and both absorption air made source of the gas, cools the temperature to Ku Wen with cooling driers again from environment, then by sky 21% oxygen is taken off to 5% in gas, the gas of the high nitrogen of hypoxemia is provided for air-conditioned cold store, this mode energy consumption is big, deaeration time length.3rd, Fruits and vegetables air-conditioned cold store from plucking to entering reaches that complete sleep procedure is oversize, needs time of several days, makes the flavor and fruits and vegetables of fruits and vegetables Some nutritions occur the organic disproportionation in part, cause some invisible nutritive losses.

The content of the invention

To overcome prior art insufficient.The present invention provides a kind of adaptive fruit and vegetable air-conditioning storehouse.The adaptive fruit and vegetable air-conditioning storehouse, Fruit and vegetable refrigerating cooling does not dehumidify, the small, fast precooling of controlled atmosphere power consumption, of good preservation effect.

Technical scheme includes storage facilities, and corresponding Air-conditioning system, and the Air-conditioning system includes energy storage System and corresponding cold supply system of the storeroom with energy storing system being connected to, the energy storing system includes an ice storage pond, if In some ice devices in the ice storage pond and it is connected respectively some corresponding condensers in each ice device.

If the ice device of the energy storing system includes the dry pan being connected in parallel with each other by remittance steam pipe accordingly and liquid pipe of converging Pipe, the condenser its go out, import is connected respectively remittance liquid pipe in corresponding ice device and converges steam pipe.

The cold supply system include its heat transferring medium go out, import respectively with each corresponding ice device of the energy storing system or Its remittance steam pipe and some heat exchangers of the corresponding connection of liquid pipe of converging.

Each corresponding helping for ice device that the cold supply system also includes corresponding respectively to energy storing system melts device, described to help Melting device includes managing then, and the circulating pump being connected between the ice storage pond and corresponding pipe then, and the pipe then includes freezing Interlayer between the icing on the coil pipe periphery of the coil pipe perisporium of device and the ice device in ice storage pond.

Described help melts device and also includes a Choked flow cover, and the Choked flow cover includes the coil pipe and icing pond located at corresponding ice device Between sleeve.

Return duct is connected with by corresponding U-tube between the remittance liquid pipe of its ice device of energy storing system and remittance steam pipe.

The bottom of the remittance liquid pipe of its ice device of energy storing system is connected with heating tube by corresponding throttle pipe, described to add Heat pipe is connected by control valve with remittance steam pipe.

The storage facilities include precooling room and freezer, and the surrounding of the precooling room or both sides are respectively equipped with corresponding water Line displays, and the going out of the cooling medium of the heat exchanger of the cold supply system, import are connected to the import and export of waterline array, supplies The going out of the cooling medium of the heat exchanger of cooling system, import is also attached to freezer or the corresponding disengaging of the heat exchanger of freezer Mouthful.

Corresponding blower fan and dehumidifier are provided between the precooling room and waterline array；The freezer is provided with freezer wind Machine；Its freezer is connected with freezer blast pipe air exhauster by corresponding control valve.

The Air-conditioning system also includes being connected to storage facilities or confession ozonizer, muffler, the CO2 kitchen sinks of its freezer And/or air supply pipe；The muffler is connected with public air bag, oxygen remove and/or operating condition parameter by corresponding blower fan and examined Measuring tank, described to be connected with ozone basin for ozonizer, the air supply pipe is connected with oxygen remove and CO2 kitchen sinks；

The adaptive fruit and vegetable air-conditioning storehouse of the present invention passes through its energy storage function, the fruit and vegetable air-conditioning storehouse of obvious energy conservation.Its phase changing energy storage is imitated Fruit is obvious, freezes, ice-melt speed is fast, is fast precooling, the timely controlled atmospheres of fruits and vegetables, by the field heat of fruits and vegetables within the extremely short time Remove, fruits and vegetables rapidly entered dormant state, substantially increased the quality of fruit and vegetable refrigerating and fresh-retaining.

Brief description of the drawings

Fig. 1 is one embodiment of the invention structural representation；Fig. 2 is the remittance liquid of the ice device in another embodiment of the present invention Pipe and heating tube attachment structure schematic diagram.

Embodiment

In order to further appreciate that technical scheme, the present invention is made into one by following examples combination accompanying drawing Walk explanation.As shown in figure 1, this adaptive fruit and vegetable air-conditioning storehouse includes storage facilities, and corresponding Air-conditioning system, its Air-conditioning system Including energy storing system and it is connected to storage facilities and corresponding cold supply system of energy storing system etc..It also includes intelligent controller 40.Intelligent controller is connected to each corresponding power set such as ice making compressor 23 and ice-melt minute-pressure machine 24 etc..Its energy storage System is cut with cold supply system by corresponding intelligent controller by the control of the corresponding power set of energy storing system and cold supply system Change operation.

The cold storing and fresh-keeping storage method of fruits and vegetables of the present invention is：Using an energy storing system to required cooling energy to freeze Mode is stored, then carries out adaptive controlled atmosphere cooling preservation to storage facilities, or according to season or electricity consumption peak, paddy period needs Cooling preservation is carried out to storage facilities.Its energy storing system passes through energy storing system and confession with cold supply system by corresponding intelligent controller The corresponding power set control switchover operation of cooling system.

Its energy storing system includes an ice storage pond 45, the multiple ice devices 27 being respectively arranged in ice storage pond 45 and leads to respectively Cross corresponding multiple condensers or ice making that corresponding ice making compressor 23 and throttle pipe 53 are correspondingly connected to multiple ice devices 27 The both ends of the refrigerant coil pipe of condenser 22.

Its ice device of energy storing system is connected to a remittance steam pipe 32 by its upper end, if lower end is connected to the dry pan of a remittance liquid pipe 33 Pipe or coiled pipe 48 are formed, and each ice device is respectively placed in ice storage pond.The going out of its refrigerant coil pipe of ice making condenser 22, import point The bottom remittance liquid pipe 33 and top remittance steam pipe 32 of ice device 27 are not connected to through throttle pipe 53 and ice making compressor 23.Each ice device Remittance liquid pipe and converge return duct 31 be connected with by corresponding U-tube between steam pipe.

The cold supply system in the adaptive fruit and vegetable air-conditioning storehouse of the present invention goes out including its heat transferring medium, import is respectively through corresponding dynamic Power apparatus and each corresponding ice device of energy storing system or its remittance steam pipe and some heat exchangers of the remittance corresponding connection of liquid pipe（Coil pipe changes Hot device）25, in addition to correspond respectively to each corresponding helping for ice device of energy storing system and melt device.It, which is helped, melts device and sets respectively In in ice storage pond.The cooling medium loop of each coil heat exchanger 25 is connected to the freezer 5 and precooling room 21 of storeroom.Disk Heat exchange of heat pipe 25 includes tank body and its medium coil pipe 39 in tank body, and forming its heat exchange by the two-port of medium coil pipe 39 is situated between Matter goes out, import.

In this example, the going out of the heat transferring medium of its each coil heat exchanger 25 of cold supply system, import are micro- through corresponding ice-melt respectively The remittance steam pipe 32 of press 24 and ice-melt medium pump 29 and each corresponding ice device 27 of energy storing system and converge 33 corresponding company of liquid pipe Connect.The going out of the cooling medium of each coil heat exchanger 25 of cold supply system, import are connected respectively in freezer and precooling room Respective inlets and outlet.

It helps and melts device and include pipe 49 then cold supply system, and is connected to satisfying for ice storage pond 45 and corresponding ice device Circulating pump 28 between pipe 49, its circulating pump 28 are an axial-flow pump；Then each coil pipe perisporium and ice storage pond of the pipe by ice device The ice device each coil pipe periphery icing between ice-melt formed interlayer form.

Then manage and corresponding site in ice storage pond on the top that each ice device 27 of isolation or ice device are respectively equipped with ice storage pond Frozen water Choked flow cover 26, Choked flow cover 26 by be sheathed on each corresponding ice device or its some coiled pipe by remittance steam pipe one end Sleeve is formed.

Each axial-flow pump of cold supply system is arranged at the top Choked flow cover of corresponding ice device, and the import of axial-flow pump is connected to Then manage, outlet is connected to ice storage pond.

This its storage facilities of adaptive fruit and vegetable air-conditioning storehouse includes freezer 5 and precooling room 21, the surrounding of precooling room or both sides Corresponding waterline display 19 is respectively equipped with, the outlet of the cooling medium of each coil heat exchanger 25 of cold supply system is successively through cooling matchmaker Matter pump 18, disinfection tank 20 and corresponding precooling room cooling valve 30 are connected to the upper entrance of waterline array 19, cold supply system it is each The import of the cooling medium of coil heat exchanger 25 is connected to the lower part outlet of waterline array 19 or precooling room 21.Precooling room 21 it is upper Precooling room blower fan 41 and precooling room dehumidifier 42 are provided between portion and waterline array.

Its freezer 5 is provided with heat exchanger 12, the lower liquid import of the heat exchanger by corresponding cooling valve 11 with The outlet connection of disinfection tank 20, the outlet of heat exchanger upper liquid are connected to the import of the cooling medium of coil heat exchanger 25.

The air inlet of freezer is connected with freezer blast pipe air exhauster 47 by corresponding atmosphere valve, in freezer Provided with cold store temperature detector 43, temperature detector 44 is provided with the outlet of heat exchanger 12.

Air-conditioning system also includes being connected to freezer 5 by corresponding steam supply valve 6, for ozone valve 7 and return-air valve 8 respectively For ozonizer 1, muffler 2 and air supply pipe 3.CO2 kitchen sinks 16, muffler are connected with by corresponding freezer return-air pipe blower 46 Operating condition parameter detecting case 17 and respectively by modulating accordingly by gas steam supply valve 35, oxygen remove air outlet valve 36 and oxygen remove Port valve 38 is connected with public air bag 14, oxygen remove 15 and CO2 kitchen sinks 16.Oxygen remove 15 passes through corresponding oxygen remove intake valve 37 It is connected with air supply pipe 3, is connected for ozonizer through ozone steam supply valve 34 with ozone basin 13.

Originally the controlled atmosphere progress control method in adaptive fruit and vegetable air-conditioning storehouse is：Ice storage and ice-melt, constant humidity cooling, fast precooling and Quick controlled atmosphere etc..Specifically include：

First, ice storage and ice-melt

There is substantial amounts of trough-electricity in China, is that one of emphasis of this technology, the easy ice-melt of ice storage are difficult, especially using trough-electricity ice storage Fruits and vegetables fast precooling operates, and the water of a large amount of nearly zero degree of domestic demand, this technology ice storage are in an ice storage pond 45, lay N in short-term Platform（It is or some）The ice device 27 of coil pipe type, during ice storage operation, intelligent controller 40 open ice making compressor 23. to coil pipe type The remittance steam pipe 32 of the top of ice device 27 is evacuated, because remittance steam pipe 32 connects every coiled pipe 48, so that refrigerant steams in every coiled pipe 48 Hair, caused steam are transported to the coil pipe in refrigerant condenser 22, after cooling down water cooling, condensation through the boosting of ice making compressor 23 The remittance liquid pipe 33 of the bottom of ice device 27 of coil pipe type is delivered into liquid, through the throttling of throttle pipe 53, refrigerant liquid is divided equally to every Coiled pipe 48, evaporation of being absorbed heat in coiled pipe 48, go round and begin again.With heat constantly takes away, in pond liquid it is more and more cold, to making every The outer surface of coiled pipe 48 starts icing, as the ice on the deep of refrigeration, coiled pipe 48 is more and more big, eventually forms one very big Ice cube, because there is the ice device 27 of N platform coil pipe types in ice storage pond, because than that can store sizable cold.

People sent a large amount of fruits and vegetables just plucked, needed a large amount of low temperature colds to carry out fast precooling to fruits and vegetables daytime（Go to field Heat）, the de-icing method that this technology is taken is：After intelligent controller 40 receives precooling application, ice-melt minute-pressure machine 24 is driven first, is opened Cooling medium pump 18, precooling room cooling valve 30 is opened, drive ice-melt medium pump 29, its medium absorption coil heat exchanger in coil pipe 39 The heat of liquid in 25 and evaporate, through ice-melt minute-pressure machine 24 boost deliver to coil pipe type ice device 27 remittance steam pipe 32, to coiled pipe 48 heating, while intelligent controller 40 opens heat control valve 51, steam heats to ice-melt heating tube 50 simultaneously, plan and control 20 Minute, converging steam pipe 32 through coiled pipe, until bottom remittance liquid pipe 33 melts out N roots, pipe 49 leads directly to bottom remittance liquid pipe 33 and added by ice-melt then The passage that heat pipe melts out communicates pipe then with the aqueous solution in ice storage pond., the axial-flow pump 28 of the unlatching of intelligent controller 40 afterwards, constantly Water in N roots then pipe 49 is extracted out, the water of bottom is continuously replenished, pipe 49 then that liquid flow is formed via ice, and convection current friction accelerates Melting for ice, due to N root coiled pipes areas is very big and ice storage pond 45 in have the ice devices 27 of N platform coil pipe types, therefore ice-melt speed Quickly, so as to solving the problems, such as that fast precooling needs low temperature cold very big.

2nd, constant humidity cooling

Preserving fruit and vegetable utilizing requires that environment high humidity, this technology moisturizing cooling are achieved in that when computer board receives certain refrigeration in storehouse After storehouse is put into some type of fruits and vegetables, refrigeration requirements of the computer according to needed for the fruits and vegetables, starts ice-melt operation, start cooling medium pump 18th, freezer circulating fan 10 is started, drives cooling valve 11, cold wind is passed through into fruits and vegetables gap, the heat of fruits and vegetables is taken out of and is transmitted to cold Storehouse heat exchanger 12, the medium in cold storage heat exchanger 12 is heated up, due to the effect of cooling medium pump 18, make refrigerant circulation, The heat of freezer is constantly transmitted to ice-melt operating unit, during freezer constantly cools, intelligent controller 40 all the time The temperature difference for monitoring 44 2 points of the air-out temperature measuring point of freezer temperature measuring point 43 and cold storage heat exchanger 12 is no more than 2 DEG C, when more than 2 DEG C when, otherwise intelligent controller 40 tunes up the rotating speed of freezer blower fan 10 turns down（The timing of 12 cooling load of heat exchanger one, wind is big, The temperature difference is small）.

3rd, fast precooling

Precooling process with the cooling process of freezer its ice-melt operation be as, open by precooling room cooling valve 30, will be pre- After cold blower fan 41 starts, precooling is operated except that 1. precooling chilling requirements are very big, there is N platform coil pipe types in ice storage pond 45 Ice device 27, intelligent controller 40 according to the quantity for opening precooling room 21 simultaneously and decision is opened the ice device 27 of coil pipe type and melted The quantity of ice operation.2. the early stage of pre-cooling, mid-term is higher than the temperature of frozen water in ice storage pond 45 due to fruits and vegetables field heat temperature very much Degree, ice-melt minute-pressure machine 24 can not be opened, and fruits and vegetables field heat takes coil heat exchanger 25 to circulating liquid, makes cold in coil pipe 39 Matchmaker is evaporated, and caused steam is through ice-melt minute-pressure machine 24（The minute-pressure machine is a high pressure positive blower or vortex air exhauster）In gap from The ice device 27 of coil pipe type is so pressed to, the gas under the cooling of frozen water, in coiled pipe 48 is condensed into liquid, converges into the knot of bottom Ice device remittance liquid pipe 33, the coil pipe 39 being drawn to by ice-melt medium pump 29 in coil heat exchanger 25, heat absorption evaporation, goes round and begins again.With The removing of field heat, the temperature for the circulating refrigerant being sent in coil heat exchanger 25 also constantly reduces, and is store relatively when dropping to When ice water solution temperature only has seven, the octave temperature difference, ice-melt minute-pressure machine 24 starts, and forces to press to steam into the ice device of coil pipe type Go to condense in 27, move in circles, until reaching temperature needed for precooling.3. whole precooling process, intelligent controller 40 all monitor in advance The humidity of cold circulated air and controlled 90-95% high humidity scope,（Also can be adjusted according to being actually needed）The process Completed by dehumidifier 42.4. each precooling operation, all need artificial to the circulating liquid in disinfection tank 20 or be automatically added to once smelly Oxygen sterilization operation.

4th, quick controlled atmosphere

Fruits and vegetables after precooling, into cellar type freezer 5, rapidly enter resting state, can effectively improve fruits and vegetables fresh quality, The nutrition of fruits and vegetables is kept not lose, be extremely important.

The controlled atmosphere mode of this air-conditioned cold store run including：Intelligent controller 40 receive certain freezer want inbound/outbound process operate when, Open the atmosphere valve 9 of the freezer, open return-air valve 8, open public air bag valve 35, open air exhauster 46, by low temperature, low The freezer gas of oxygen is pumped into public air bag 14, while by atmosphere valve tonifying Qi, since being opened air exhauster, intelligent controller 40 timing, reach stipulated time blowing-out machine, air bag valve 35, freezer return-air valve 8, the grade of atmosphere valve 9 are closed, waited cold by computer Hide fruits and vegetables to hang out, lifted up into after fresh fruit of vegetables is pre-cooled, after covering the big lid 4 of freezer, hair one is instructed to intelligent controller 40, intelligence control Atmosphere valve 9, freezer return-air valve 8, the public grade of air bag valve 35 are opened, drive air exhauster 47, freezer 5 is taken out by device 40 processed Gas, by the public tonifying Qi of air bag 14, reach the stipulated time, blowing-out machine 47, close all valves, computer opens cooling medium pump 18. Drive cooling valve 11, drive ice-melt minute-pressure machine 24, ice-melt medium pump 29, and freezer circulating fan 10, due to fruits and vegetables are pre-cooled, And the gas being pumped into be also cold air therefore need only a few minutes, temperature of ice house drops down to refrigerated storage temperature.Intelligent controller 40 is first By the steam supply valve 6 in the storehouse, return-air valve 8 is opened, then the steam supply valve 6 by the higher fruit and vegetable refrigerating storehouse of freezer oxygen content, back-steam valve 8 are beaten Open, start blower fan 46, after a few minutes, the gaseous mixtures of these freezers reaches balanced, and computer board returns the steam supply valve 6 in these storehouses The Close All of air valve 8, by freezer（Freezer includes tens fruit and vegetable refrigerating storehouses）The half of the higher freezer of middle oxygen content is virtual Remove, by the steam supply valve 6 in this half storehouse, back-steam valve 8 is opened, then all steam supply valves 6 of the freezer relatively low with oxygen content, return-air Valve 8 is opened, starts blower fan 46, opens a few minutes, and oxygen content is balanced in these freezers, closes all valves, and computer board is again by void Second half freezer that the freezer of plan removal is higher with oxygen content virtually merges, and all steam supply valves 6 of these freezers return Air valve 8 is fully open, starts blower fan 46, and the oxygen in hyperoxic half freezer and second half hypoxic freezer contains Amount is well mixed.By mixing several times, a small amount of oxygen that inbound/outbound process is brought into gives each storehouse, this oxygen and precisely hypoxemia Necessary to breathing, cause and effect vegetable dormant state still necessarily provides oxygen and sustained life.If there is more inbound/outbound process operation on the same day, oxygen contains Computer board can automatically turn on oxygen remove deoxidation when measuring exceeded, until up to standard.

In another embodiment of the present invention, as shown in Fig. 2 each ice device of cold supply system its converge liquid pipe bottom pass through it is corresponding Throttle pipe be connected with heating tube, heating tube is connected by control valve with converging steam pipe.Ice device i.e. in ice storage pond its converge liquid pipe Bottom be provided with the heating tube 50 that remittance liquid pipe is connected to by corresponding throttle pipe 53, heating tube 50 also passes through heat control valve 51 It is connected with the remittance steam pipe of the ice device.Remaining structure of this example and corresponding controlled atmosphere methods can be similar with above-described embodiment.

Claims (10)

1. a kind of adaptive fruit and vegetable air-conditioning storehouse, including storage facilities, and corresponding Air-conditioning system, it is characterized in that the controlled atmosphere system System includes energy storing system and is connected to corresponding cold supply system of the storeroom with energy storing system, and the energy storing system includes one Ice storage pond, some ice devices in the ice storage pond and is connected respectively in some corresponding of each ice device Condenser.

2. adaptive fruit and vegetable air-conditioning storehouse according to claim 1, it is characterized in that the ice device of the energy storing system includes passing through If converging steam pipe and the dry coil pipe that is connected in parallel with each other of liquid pipe that converges accordingly, the condenser its go out, import be connected respectively in The remittance liquid pipe of corresponding ice device and remittance steam pipe.

3. adaptive fruit and vegetable air-conditioning storehouse according to claim 1, it is characterized in that the cold supply system go out including its heat transferring medium, Import respectively with each corresponding ice device of the energy storing system or its converge steam pipe and converge the corresponding connection of liquid pipe some heat exchangers.

4. according to the adaptive fruit and vegetable air-conditioning storehouse of claim 1 or 3, it is characterized in that the cold supply system also includes corresponding to respectively Melt device in each corresponding helping for ice device of energy storing system, described help melts device and include managing then, and is connected to the ice storage Circulating pump between pond and corresponding pipe then, the pipe then include the disk of the coil pipe perisporium of ice device and the ice device in ice storage pond Interlayer between the icing on pipe periphery.

5. adaptive fruit and vegetable air-conditioning storehouse according to claim 4, it is characterized in that described help melts device and also includes a Choked flow cover, should Choked flow cover includes the sleeve between the coil pipe of corresponding ice device and icing pond.

6. the adaptive fruit and vegetable air-conditioning storehouse according to Claims 2 or 3, it is characterized in that the remittance liquid of its ice device of energy storing system Return duct is connected with by corresponding U-tube between pipe and remittance steam pipe.

7. the adaptive fruit and vegetable air-conditioning storehouse according to Claims 2 or 3, it is characterized in that the remittance liquid of its ice device of energy storing system The bottom of pipe is connected with heating tube by corresponding throttle pipe, and the heating tube is connected by control valve with remittance steam pipe.

8. adaptive fruit and vegetable air-conditioning storehouse according to claim 1, it is characterized in that the storage facilities include precooling room and refrigeration Storehouse, the surrounding of the precooling room or both sides are respectively equipped with corresponding waterline display, and the cooling of the heat exchanger of the cold supply system is situated between The going out of matter, import are connected to the import and export of waterline array, and the going out of the cooling medium of the heat exchanger of cold supply system, import are also It is connected to the corresponding inlet and outlet of the heat exchanger of freezer or freezer.

9. adaptive fruit and vegetable air-conditioning storehouse according to claim 8, it is characterized in that being provided between the precooling room and waterline array Corresponding blower fan and dehumidifier；The freezer is provided with freezer blower fan；Its freezer is connected with freezer by corresponding control valve Blast pipe air exhauster.

10. adaptive fruit and vegetable air-conditioning storehouse according to claim 1, it is characterized in that the Air-conditioning system also includes being connected to storage Confession ozonizer, muffler, CO2 kitchen sinks and/or the air supply pipe of device or its freezer；The muffler passes through corresponding blower fan Public air bag, oxygen remove and/or operating condition parameter detecting case are connected with, it is described to be connected with ozone basin for ozonizer, it is described Air supply pipe is connected with oxygen remove and CO2 kitchen sinks.