CN103277840B - Double-control dry and hot air processing storage and processing method implemented by same - Google Patents
Double-control dry and hot air processing storage and processing method implemented by same Download PDFInfo
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- CN103277840B CN103277840B CN201310221591.0A CN201310221591A CN103277840B CN 103277840 B CN103277840 B CN 103277840B CN 201310221591 A CN201310221591 A CN 201310221591A CN 103277840 B CN103277840 B CN 103277840B
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Abstract
The invention discloses a double-control dry and hot air processing storage which comprises an accommodating room and a dry and hot air supply room. The accommodating room is communicated with the dry and hot air supply room, materials or organisms can be placed in the accommodating room, a control system, an evaporator, combined air-conditioning unit, a heat source water tank, a fan and a condenser are arranged in the dry and hot air supply room, the evaporator is connected with the combined air-conditioning unit, the condenser is connected with the combined air-conditioning unit, the fan is arranged at a starting end of an air inlet pipeline, both a heat exchanger of the heat source water tank and a heat release pipe of the condenser transversely penetrate the air inlet pipeline in a through manner, and the evaporator, the combined air-conditioning unit, the heat source water tank, the fan and the condenser are connected to the control system. The invention further discloses a processing method implemented by the double-control dry and hot air processing storage. The double-control dry and hot air processing storage and the processing method have the advantages of simplicity and convenience in operation, stable effect, safety, reliability and capabilities of precisely controlling the temperature of the accommodating room and guaranteeing processing or storage for the materials or the organisms.
Description
Technical field
The present invention relates to Temperature Treatment technical field, be specifically related to a kind of dual control heated dry air process storehouse and processing method thereof.
Background technology
Pebrine disease is one of crushing flacherie in sericultural production, is to find at present uniquely to carry out a kind of flacherie of infecting, so be also a kind of epidemic disease the most serious in sericulture by semina.The feature of transovarial passage and peroral infection two routes of infection is had according to pebrine disease, and disease occurs and popular rule, " manufacture nontoxic silkworm egg " and be the essential measure of anti-disease of effecting a permanent cure, " integrated control " is the effective way of anti-disease of effecting a permanent cure, and " specification that strict implement silkworm egg is produced and managed " is the important guarantee of anti-disease of effecting a permanent cure.
The control of nosema bombycis, comprises sterilizing prevent disease and drug therapy two aspect, and wherein comparative maturity is chemicals sterilization and treatment aspect.The medicine reported and apply has bleaching powder, anti-micro-spirit, gram micro-spirit, the micro-spirit of purulence, protozoon is clean, TAAL, micro-poison are clever.But in silkworm egg is produced, these chemicalses due to use concentration and temporal limitation, result also in its instability in practical use, and in mulberry leaf spraying or the practice such as cleaning and sterilizing, also successively appearance effect stability low, corrosivity, toxic and side effect, cocoon quality variation, filial generation silkworm seed quality variation, affect the problems such as operator ' s health, food value of leaf variation.In physical treatment, also there is the method for some maturations, as lukewarm water pickling facture etc., but due to restrictions such as temperature control technique, automation mechanized operation and management systems, fail to enter well and produce anti-micro-application.
At present, sericulture there is still traditional advantage industry and the specialty industries of China, is the important industry of leading low developed area peasant programme, and research and develop a kind of technological means can preventing and treating pebrine disease germinal infection, tool is of great significance for this reason.
Summary of the invention
The deficiency that the present invention exists to overcome above prior art, provides a kind of easy and simple to handle, effect stability, safe and reliable dual control heated dry air process storehouse, accurately can control the temperature of accommodating chamber, ensures processing or the storage of material or biology.
Another object of the present invention is to the processing method that a kind of dual control heated dry air process storehouse is provided.
Object of the present invention is realized by following technical scheme: dual control heated dry air process storehouse, comprise the accommodating chamber and heated dry air supply room that are interconnected, material or biology are placed in described accommodating chamber, control system is provided with in heated dry air supply room, evaporimeter, unitary air handling unit, thermal source water tank, blower fan and condenser, described evaporimeter connects unitary air handling unit, condenser connects unitary air handling unit, the top of intake stack is located at by blower fan, the heat exchanger of thermal source water tank and the heat release pipe of condenser is all through passes across intake stack, evaporimeter, unitary air handling unit, thermal source water tank, blower fan and condenser are all connected to control system.
Be provided with analog bracket or rotary bracket in described accommodating chamber, the top, the push rod room of being suspended in of rotary bracket, push rod connects motor.Rotary bracket 304# is stainless steel welded shaping.
Described accommodating chamber configuration thermal insulating door thermally insulated door, the material of thermal insulating door thermally insulated door is polyurethane, and thermal insulating door thermally insulated door is provided with double glazing observation window, can observe the ruuning situation of accommodating chamber when not opening polyurethane heat-insulation door.
Be provided with ultraviolet lamp and at least 4 temperature sensors in described accommodating chamber, ultraviolet lamp and temperature sensor connection control system, ultraviolet lamp is installed on accommodating chamber inner top, and temperature sensor can be positioned at each position being arranged at accommodating chamber as required.
The base plate of described accommodating chamber is stainless steel hot blast pod apertures plate, and the top board of accommodating chamber is provided with hot return air flame plate window, and hot return air flame plate window is provided with disconnectable dust filtration film device, and hot return air flame plate window is communicated with hot return air duct.Easily cause the blocking of hot return air flame plate window and the pollution of heated dry air supply room based on the dust in accommodating chamber, hot return air flame plate window installs disconnectable dust filtration film device.
Described thermal source water tank configures 4 groups of electrothermal tubes, condenser arrangement 3 groups of heat release pipes.
Water supply line communication loop water pump, water supply electromagnetic valve and the heat exchanger successively of described thermal source water tank.
The processing method in dual control heated dry air process storehouse, comprises the following steps:
(1) open described control system, open the electrothermal tube of thermal source water tank, water circulating pump, water supply electromagnetic valve, the heat release pipe of condenser, blower fan and evaporimeter;
Thermal source water tank internal hot-water is circulated by water circulating pump, water supply electromagnetic valve and heat exchanger, and blower fan is blown, and air-flow is through the heat release pipe of over-heat-exchanger and condenser, and temperature raises, and air-flow enters accommodating chamber by intake stack and stainless steel hot blast pod apertures plate;
The warm-humid air of accommodating chamber enters hot return air duct, enter evaporimeter to carry out lowering the temperature and dehumidifying, the heat absorption of evaporimeter interior liquid cold-producing medium flashes to refrigerant vapour, the heat release pipe that refrigerant vapour pumps to condenser by unitary air handling unit carries out heat release, heat recovery and utilization, refrigerant vapour is condensed into as liquid refrigerant, by unitary air handling unit pumping cycle to evaporimeter;
(2) time point putting into analog bracket or rotary bracket with material or biology is started at, at setting-up time T1, accommodating chamber internal temperature reaches design temperature C1, after reaching design temperature C1, electrothermal tube, water circulating pump, water supply electromagnetic valve and heat exchanger are closed, reduce unitary air handling unit power, only finely tune heat supply by condenser;
(3) material or biology are incubated under design temperature scope C1, and in insulating process, accommodating chamber temperature is less than C1, and control system intelligence strengthens unitary air handling unit power, makes accommodating chamber temperature return to C1, again reduces unitary air handling unit power;
(4) after reaching temperature retention time T2, control system closes all devices automatically, is disposed.
Described T1 is 15min, C1 be 46 ± 0.5 ° of C, T2 is 60min, and biology is the ovum silkworm egg of age within 12 hours.
Or described T1 is 15min, C1 be 47 ± 0.5 ° of C, T2 is 40min, and biology is the ovum silkworm egg of age within 12 hours.
The present invention has following advantage relative to prior art:
1, this dual control heated dry air process storehouse, provides heated dry air, accurately can control the temperature of accommodating chamber, ensures processing or the storage of material or biology.Control system controls operation and the stopping of all facilities in storehouse automatically, control temperature, running time, unexpected situation automatic alarm, monitoring storehouse and the real time data of equipment.
2, evaporimeter has two purposes, lowers the temperature and dehumidifies on the one hand, utilize heat by refrigerant-recovery to the air-flow of accommodating chamber backflow, on the other hand, combination of flow formula air-conditioner set after the air-flow cooling of backflow, lowers the temperature to it, avoids machine to cross cause thermal damage in enclosure space.
3, two heating technique means of thermal source water tank and condenser, both open simultaneously at the beginning, accommodating chamber is rapidly heated, because specific heat of water holds larger, heat exchanger release amount of heat, and the heat release pipe adjustability of condenser is high, control system can regulate efficiently to it, so condenser plays the effect of fine setting temperature, this pair of heating technique means provide precise and stable object temperature for accommodating chamber, in whole operating process, in storehouse, temperature is all no more than object temperature ± 0.5 ° C up and down, ensures processing or the storage of material or biology.
4, present treatment storehouse is applicable to process silkworm seed to prevent and treat granulosis, achieve the goal temperature in 15min, ensure that ovum is process 40min under silkworm egg within 12 hours processes 60min or 47 ° C ± 0.5 ° C under object temperature 46 ° of C ± 0.5 ° C age, thus can realize reaching 95%-100% to the silkworm egg cure rate of granulosis germinal infection, practical incubation rate 93% the above object, manufacture nontoxic silkworm egg, the harm of control pebrine disease, significantly improves economic benefit and the social benefit of silkworm egg production.
Accompanying drawing explanation
Fig. 1 is dual control heated dry air process storehouse of the present invention cut-away view.
Fig. 2 is the right view of Fig. 1.
Detailed description of the invention
Below in conjunction with drawings and Examples, the invention will be further described.
Embodiment 1:
Dual control heated dry air process storehouse as depicted in figs. 1 and 2, comprise the accommodating chamber 1 and heated dry air supply room 2 that are interconnected, the ovum silkworm egg of age within 12 hours is placed in described accommodating chamber 1, control system 3 is provided with in heated dry air supply room 2, evaporimeter 4, unitary air handling unit 5, thermal source water tank 6, blower fan 7 and condenser 8, evaporimeter 4 connects unitary air handling unit 5, condenser 8 connects unitary air handling unit 5, the top of intake stack 9 is located at by blower fan 7, the heat exchanger 10 of thermal source the water tank 6 and heat release pipe 11 of condenser 8 is all through passes across intake stack 9, evaporimeter 4, unitary air handling unit 5, thermal source water tank 6, blower fan 7 and condenser 8 are all connected to control system 3.
Be provided with rotary bracket 12 in accommodating chamber 1, the top, the push rod room of being suspended in of rotary bracket 12, push rod connects motor 13.Rotary bracket 12 is stainless steel welded shaping with 304#.The specification of rotary bracket 12 is long 1150 × wide by 1150 × high 1620mm, three layers, places 4 cover grid casees for every layer.The heap(ed) capacity of rotary bracket 12 is the first cross silkworm egg of 2400 (600 open greatly).
Accommodating chamber 1 configures thermal insulating door thermally insulated door 14, and the material of thermal insulating door thermally insulated door 14 is polyurethane, and thermal insulating door thermally insulated door 14 is provided with double glazing observation window 15, can observe the ruuning situation of accommodating chamber when not opening polyurethane heat-insulation door.
The external molded dimension in storehouse is long 2800 × wide by 2000 × high 2400mm, clear height 2100mm in storehouse, and storehouse body selects the thick two-sided stainless steel polyurethane heat-insulation Sandwich materials of 0.6mm to do wallboard, the thick 75mm of wallboard, and density is 30-35kg/m
3, thermal conductivity factor is 0.23w/m × k, and flame retardant rating reaches fire-fighting fire-proof requirement.The thick 75mm of maintenance of equipment door 25, is of a size of high by 1600 × wide 600mm, and the thick 75mm of polyurethane heat-insulation door is of a size of high by 1800 × wide 900mm, and double glazing observation window is of a size of high by 800 × wide 300mm.Thermal insulating door thermally insulated door specification: 1800(H) × 900 × 75mm.
Be provided with ultraviolet lamp 16 and 4 temperature sensors 17 in accommodating chamber 1, ultraviolet lamp 16 and temperature sensor 17 connection control system 3, ultraviolet lamp 16 is installed on accommodating chamber 1 inner top, temperature sensor 17 each 2 at rotary bracket about 12.
The base plate of accommodating chamber 1 is stainless steel hot blast pod apertures plate 18, and the top board of accommodating chamber 1 is provided with hot return air flame plate window 19, and hot return air flame plate window 19 is provided with disconnectable dust filtration film device 20, and hot return air flame plate window 19 is communicated with hot return air duct 21.Easily cause the blocking of hot return air flame plate window 19 and the pollution of heated dry air supply room 2 based on the dust in accommodating chamber, hot return air flame plate window 19 installs disconnectable dust filtration film device 20.
Thermal source water tank 6 configures 4 groups of electrothermal tubes 22, and condenser 8 configures 3 groups of heat release pipes 11.
Water supply line communication loop water pump 23, water supply electromagnetic valve 24 and the heat exchanger 10 successively of thermal source water tank 6.
The processing method in dual control heated dry air process storehouse, comprises the following steps:
(1) open described control system, open the electrothermal tube of thermal source water tank, water circulating pump, water supply electromagnetic valve, the heat release pipe of condenser, blower fan and evaporimeter;
Thermal source water tank internal hot-water is circulated by water circulating pump, water supply electromagnetic valve and heat exchanger, and blower fan is blown, and air-flow is through the heat release pipe of over-heat-exchanger and condenser, and temperature raises, and air-flow enters accommodating chamber by intake stack and stainless steel hot blast pod apertures plate;
The warm-humid air of accommodating chamber enters hot return air duct, enter evaporimeter to carry out lowering the temperature and dehumidifying, the heat absorption of evaporimeter interior liquid cold-producing medium flashes to refrigerant vapour, the heat release pipe that refrigerant vapour pumps to condenser by unitary air handling unit carries out heat release, heat recovery and utilization, refrigerant vapour is condensed into as liquid refrigerant, by unitary air handling unit pumping cycle to evaporimeter;
(2) time point putting into analog bracket or rotary bracket with the ovum silkworm egg of age within 12 hours is started at, at setting-up time T1, accommodating chamber internal temperature reaches design temperature C1, after reaching design temperature C1, electrothermal tube, water circulating pump, water supply electromagnetic valve and heat exchanger are closed, reduce unitary air handling unit power, only finely tune heat supply by condenser;
(3) silkworm egg is incubated under design temperature scope C1, and in insulating process, accommodating chamber temperature is less than C1, and control system intelligence strengthens unitary air handling unit power, makes accommodating chamber temperature return to C1, again reduces unitary air handling unit power;
(4) after reaching temperature retention time T2, control system closes all devices automatically, is disposed.
Described T1 is 15min, C1 be 46 ± 0.5 ° of C, T2 is 60min.
Embodiment 2:
Embodiment 2 is with the difference of embodiment 1: T1 is 15min, C1 be 47 ± 0.5 ° of C, T2 is 40min.
Above-mentioned detailed description of the invention is the preferred embodiments of the present invention, can not limit the present invention, and any of other does not deviate from technical scheme of the present invention and the substitute mode of the change made or other equivalence, is included within protection scope of the present invention.
Claims (10)
1. dual control heated dry air process storehouse, it is characterized in that: comprise the accommodating chamber and heated dry air supply room that are interconnected, material or biology are placed in described accommodating chamber, control system is provided with in heated dry air supply room, evaporimeter, unitary air handling unit, thermal source water tank, blower fan and condenser, described evaporimeter connects unitary air handling unit, condenser connects unitary air handling unit, the top of intake stack is located at by blower fan, the heat exchanger of thermal source water tank and the heat release pipe of condenser is all through passes across intake stack, evaporimeter, unitary air handling unit, thermal source water tank, blower fan and condenser are all connected to control system.
2. dual control heated dry air process storehouse according to claim 1, is characterized in that: be provided with analog bracket or rotary bracket in described accommodating chamber, and the top, the push rod room of being suspended in of described rotary bracket, push rod connects motor.
3. dual control heated dry air process storehouse according to claim 2, is characterized in that: described accommodating chamber configuration thermal insulating door thermally insulated door, the material of thermal insulating door thermally insulated door is polyurethane, and thermal insulating door thermally insulated door is provided with double glazing observation window.
4. dual control heated dry air process storehouse according to claim 3, is characterized in that: be provided with ultraviolet lamp and at least 4 temperature sensors in described accommodating chamber, ultraviolet lamp and temperature sensor connection control system.
5. dual control heated dry air process storehouse according to claim 4, it is characterized in that: the base plate of described accommodating chamber is stainless steel hot blast pod apertures plate, the top board of accommodating chamber is provided with hot return air flame plate window, hot return air flame plate window is provided with disconnectable dust filtration film device, and hot return air flame plate window is communicated with hot return air duct.
6. dual control heated dry air process storehouse according to claim 5, is characterized in that: described thermal source water tank configures 4 groups of electrothermal tubes, condenser arrangement 3 groups of heat release pipes.
7. dual control heated dry air process storehouse according to claim 6, is characterized in that: water supply line communication loop water pump, water supply electromagnetic valve and the heat exchanger successively of described thermal source water tank.
8. the processing method in dual control heated dry air process storehouse according to claim 7, is characterized in that: comprise the following steps:
(1) open described control system, open the electrothermal tube of thermal source water tank, water circulating pump, water supply electromagnetic valve, the heat release pipe of condenser, blower fan and evaporimeter;
Thermal source water tank internal hot-water is circulated by water circulating pump, water supply electromagnetic valve and heat exchanger, and blower fan is blown, and air-flow is through the heat release pipe of over-heat-exchanger and condenser, and temperature raises, and air-flow enters accommodating chamber by intake stack and stainless steel hot blast pod apertures plate;
The warm-humid air of accommodating chamber enters hot return air duct, enter evaporimeter to carry out lowering the temperature and dehumidifying, the heat absorption of evaporimeter interior liquid cold-producing medium flashes to refrigerant vapour, the heat release pipe that refrigerant vapour pumps to condenser by unitary air handling unit carries out heat release, heat recovery and utilization, refrigerant vapour is condensed into as liquid refrigerant, by unitary air handling unit pumping cycle to evaporimeter;
(2) time point putting into analog bracket or rotary bracket with material or biology is started at, at setting-up time T1, after accommodating chamber internal temperature reaches design temperature C1, electrothermal tube, water circulating pump, water supply electromagnetic valve and heat exchanger are closed, reduce unitary air handling unit power, only finely tune heat supply by condenser;
(3) material or biology are incubated under design temperature scope C1, and in insulating process, accommodating chamber temperature is less than C1, and control system intelligence strengthens unitary air handling unit power, makes accommodating chamber temperature return to C1, again reduces unitary air handling unit power;
(4) after reaching temperature retention time T2, control system closes all devices automatically, is disposed.
9. the processing method in dual control heated dry air process storehouse according to claim 8, is characterized in that: described T1 is 15min, C1 be 46 ± 0.5 ° of C, T2 is 60min, and biology is the ovum silkworm egg of age within 12 hours.
10. the processing method in dual control heated dry air process storehouse according to claim 8, is characterized in that: described T1 is 15min, C1 be 47 ± 0.5 ° of C, T2 is 40min, and biology is the ovum silkworm egg of age within 12 hours.
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1731032A (en) * | 2005-08-22 | 2006-02-08 | 无锡华润微电子有限公司 | Flow pattern of air conditioning and purifying system in cleaning room |
CN1810131A (en) * | 2006-01-12 | 2006-08-02 | 上海大生泰保鲜设备有限公司 | Edible fungus antistaling method and apparatus |
CN203336710U (en) * | 2013-06-06 | 2013-12-11 | 广东省蚕业技术推广中心 | Double-control dry hot air treatment bin |
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JP3994798B2 (en) * | 2002-06-10 | 2007-10-24 | ダイキン工業株式会社 | Waste heat recovery system for distributed power supply |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN1731032A (en) * | 2005-08-22 | 2006-02-08 | 无锡华润微电子有限公司 | Flow pattern of air conditioning and purifying system in cleaning room |
CN1810131A (en) * | 2006-01-12 | 2006-08-02 | 上海大生泰保鲜设备有限公司 | Edible fungus antistaling method and apparatus |
CN203336710U (en) * | 2013-06-06 | 2013-12-11 | 广东省蚕业技术推广中心 | Double-control dry hot air treatment bin |
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