CN203478478U - Air-conditioning system special for agaricus bisporus industrial cultivation - Google Patents
Air-conditioning system special for agaricus bisporus industrial cultivation Download PDFInfo
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- CN203478478U CN203478478U CN201320461938.4U CN201320461938U CN203478478U CN 203478478 U CN203478478 U CN 203478478U CN 201320461938 U CN201320461938 U CN 201320461938U CN 203478478 U CN203478478 U CN 203478478U
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Abstract
The utility model belongs to the field of air conditioners, and particularly relates to an air-conditioning system special for agaricus bisporus industrial cultivation. Each indoor machine of the air-conditioning system comprises a frame, wherein an indoor air inlet is formed in one end of the frame; a fresh air inlet valve is arranged at the upper end of the indoor air inlet; an air inlet mixing valve is arranged behind the indoor air inlet; a surface air cooler is arranged behind the air inlet mixing valve; a steam spray nozzle is arranged behind the surface air cooler; a heat exchange water inlet is formed in the lower end of the surface air cooler, connected with the working cycle water outlet of a compressor, and used for heat exchange water input; a heat exchange water outlet is formed in the lower end of the surface air cooler, connected with the working cycle water inlet of the compressor, and used for heat exchange water output after heat exchange; an indoor blower is arranged behind the surface air cooler and connected with an air outlet; a condensed water outlet is formed in the lower part of the surface air cooler and used for condensed water discharge. The air-conditioning system can be controlled to work in an internal cycle mode, an external cycle mode, or an air exhaust mode conveniently. When oxygen is needed to replenish the interior of a room, the fresh air inlet valve can be opened to allow outdoor air to enter the interior so as to achieve the purpose of replenishing the interior with the oxygen.
Description
Technical field
The utility model belongs to field of air conditioning, is specifically related to a kind of agaricus bisporus industrialized cultivation Special air-conditioning system.
Background technology
In agaricus bisporus production process, need to make temperature to each stage of growing and control.After strain sowing, cultural hypha phase temperature need control to 24-26 ℃, is beneficial to mycelial growth.After earthing, need to control temperature to 26-28 ℃.When long mushroom, need to control temperature to 16-18 ℃, when agaricus bisporus grows into diameter 8-10mm, need cool to 13-14 ℃, with being beneficial to raising output.In agaricus bisporus artificial culture, need to consume oxygen, when the oxygen in agaricus bisporus growing environment and humidity reduce, be unfavorable for agaricus bisporus growth, to the growing environment of sealing, need have oxygenating and humidification measure.Because natural environment temperature can not meet agaricus bisporus growth demand, need be to increasing air-conditioning system in agaricus bisporus growing environment.Conventional air-conditioning system does not generally support temperature adjusting on a large scale at present, cannot meet oxygenating and the humidification demand in agaricus bisporus production process simultaneously.
Utility model content
The utility model provides a kind of agaricus bisporus industrialized cultivation Special air-conditioning system for above-mentioned weak point, and the temperature that can meet scope in agaricus bisporus production process regulates, and can supplement the oxygen in agaricus bisporus production environment and humidity simultaneously.
The utility model is to realize like this, a kind of agaricus bisporus industrialized cultivation Special air-conditioning system, comprise controller, temperature sensor, humidity sensor, carbon dioxide sensor, compressor, work water pipe, circulating water pipe and indoor set, it is characterized in that indoor set comprises frame, frame one end arranges indoor air inlet, indoor air inlet upper end arranges new wind air inlet valve, air intake mixing valve is set after indoor air inlet, after air intake mixing valve, surface cooler is set, steam jet is set after surface cooler, surface cooler lower end arranges heat exchange water inlet and is connected for inputting heat exchange water with compressor operating circulating outlet, surface cooler lower end also arranges heat exchange delivery port and is connected for exporting the heat exchange water after heat exchange with compressor operating circulation water inlet, indoor fan is set after surface cooler, indoor fan is connected with air outlet, surface cooler below is provided for discharging the condensed water delivery port of condensed water.
For improving compressor cooling effectiveness, agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, is also to comprise cooling tower, and compressor auxiliary circulation delivery port is connected with cooling tower water inlet; Compressor auxiliary circulation water inlet is connected with cooling tower delivery port.
Balanced for meeting large area indoor temperature, indoor set arranges more than 2, also comprises heat supply water inlet and supplies hot water outlet; Described heat supply water inlet is connected with the heat exchange water inlet of indoor set, and the described hot water outlet that supplies is connected with the heat exchange delivery port of indoor set.
Agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, arranges new wind air inlet valve by indoor air inlet upper end, can conveniently control air-conditioning system and work in inner loop mode or outer circulation mode or air draft mode.When indoor, while needing oxygenating, open new wind air inlet valve, outdoor air is entered indoor to reach delivery of supplemental oxygen object.Balanced for meeting large area indoor temperature, indoor set arranges more than 2, when air-conditioning system heats, can be connected with municipal administration or own boiler heating system, reduces operating cost.
Accompanying drawing explanation
Fig. 1 is the utility model indoor set top view.
Fig. 2 is the A-A cutaway view of Fig. 1.
Fig. 3 is embodiment 1 the utility model system construction drawing.
Fig. 4 is embodiment 2 the utility model system construction drawings.
In accompanying drawing: 1-indoor air inlet, 2-air intake mixing valve, 3-heat exchange delivery port, 4-heat exchange water inlet, 5-condensed water delivery port, 6-air outlet, 7-indoor fan, 8-surface cooler, 9-frame, the new wind air inlet valve of 10-, 11-compressor operating circulating outlet, 12-compressor operating circulation water inlet, 13-compressor auxiliary circulation water inlet, 14-compressor auxiliary circulation delivery port, 15-cooling tower water inlet, 16-cooling tower delivery port, 17-is for hot water outlet, 18-heat supply water inlet, 19-steam jet.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail; but the utility model is not limited to following embodiment; any change of making in the present embodiment principle or replacement scheme, all fall among the claimed scope of the utility model.
Embodiment 1, 1 arrive Fig. 3 by reference to the accompanying drawings, a kind of agaricus bisporus industrialized cultivation Special air-conditioning system, comprise controller, temperature sensor, humidity sensor, carbon dioxide sensor, compressor, work water pipe, circulating water pipe and indoor set, it is characterized in that indoor set comprises frame 9, frame 9 one end arrange indoor air inlet 1, indoor air inlet 1 upper end arranges new wind air inlet valve 10, air intake mixing valve 2 is set after indoor air inlet 1, surface cooler 8 is set after air intake mixing valve 2, steam jet 19 is set after surface cooler 8, surface cooler 8 lower ends arrange heat exchange water inlet 4 and are connected for inputting heat exchange water with compressor operating circulating outlet 11, surface cooler 8 lower ends also arrange heat exchange delivery port 3 and are connected for exporting the heat exchange water after heat exchange with compressor operating circulation water inlet 12, indoor fan 7 is set after surface cooler 8, indoor fan 7 is connected with air outlet 6, surface cooler 8 belows are provided for discharging the condensed water delivery port 5 of condensed water.
For improving compressor cooling effectiveness, agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, is also to comprise cooling tower, and compressor auxiliary circulation delivery port 14 is connected with cooling tower water inlet 15; Compressor auxiliary circulation water inlet 13 is connected with cooling tower delivery port 16.
When need of work freezes, what compressor operating circulation was exported is cold water, and auxiliary circulation is output as hot water, working cycles cold water is lowered the temperature to room air by indoor set, output cold wind, auxiliary circulation output hot water, returns compressor after lowering the temperature carry out cooling by cooling tower.When needs heat, compressor operating circulation output hot water, heats to indoor by indoor set through working cycles, and auxiliary circulation output cold water absorbs heat by cooling tower from outdoor air again.When indoor air humidity is too low, steam jet 19 ejection water vapours, enter supply air system by air outlet of indoor set 6, in order to supplement indoor air humidity.
In indoor set, indoor air inlet 1 upper end arranges new wind air inlet valve 10, outdoor air enters indoor set by new wind air inlet valve 10, in empty, air enters indoor set by indoor air inlet 1, air intake mixing valve 2 is set after indoor air inlet 1, indoor set may work as interior circulation, outer circulation, or interior circulation and outer circulation are carried out simultaneously.When carbon dioxide sensor detects the carbon dioxide concentration in air when higher, the new wind air inlet valve 10 of indoor set is opened, and indoor set is from the new wind of outdoor suction, in order to supplement indoor oxygen, in order to reduce gas concentration lwevel.Winter is too high when indoor temperature, in the time of need to lowering the temperature, also can stop compressor operating, by the outer new wind of suction chamber to reach cooling object.
Embodiment 2: by reference to the accompanying drawings 1, Fig. 2 and Fig. 4, a kind of agaricus bisporus industrialized cultivation Special air-conditioning system, comprise controller, temperature sensor, humidity sensor, compressor, work water pipe, circulating water pipe and indoor set, it is characterized in that indoor set comprises frame 9, frame 9 one end arrange indoor air inlet 1, indoor air inlet 1 upper end arranges new wind air inlet valve 10, air intake mixing valve 2 is set after indoor air inlet 1, surface cooler 8 is set after air intake mixing valve 2, steam jet 19 is set after surface cooler 8, surface cooler 8 lower ends arrange heat exchange water inlet 4 and are connected for inputting heat exchange water with compressor operating circulating outlet 11, surface cooler 8 lower ends also arrange heat exchange delivery port 3 and are connected for exporting the heat exchange water after heat exchange with compressor operating circulation water inlet 12, indoor fan 7 is set after surface cooler 8, indoor fan 7 is connected with air outlet 6, surface cooler 8 belows are provided for discharging the condensed water delivery port 5 of condensed water.
For improving compressor cooling effectiveness, agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, is also to comprise cooling tower, and compressor auxiliary circulation delivery port 14 is connected with cooling tower water inlet 15; Compressor auxiliary circulation water inlet 13 is connected with cooling tower delivery port 16.
Agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, arranges more than 2 indoor sets in indoor a plurality of positions, can meet large area indoor temperature harmonious.Native system also comprises heat supply water inlet 18 and supplies hot water outlet 17 simultaneously, and heat supply water inlet 18 is connected with the heat exchange water inlet 4 of indoor set, for hot water outlet 17, is connected with the heat exchange delivery port 3 of indoor set.Meanwhile, also can close the compressor of agaricus bisporus industrialized cultivation Special air-conditioning system of the present utility model, heat supply water inlet 18 and confession hot water outlet 17 are linked into respectively municipal administration or an own pot of heating system of being jealous of, thereby reduce operating cost.
When need of work freezes, what compressor operating circulation was exported is cold water, and auxiliary circulation is output as hot water, working cycles cold water is lowered the temperature to room air by indoor set, output cold wind, auxiliary circulation output hot water, returns compressor after lowering the temperature carry out cooling by cooling tower.When needs heat, compressor operating circulation output hot water, heats to indoor by indoor set through working cycles, and auxiliary circulation output cold water absorbs heat by cooling tower from outdoor air again.In the time of need to heating, also can close compressor, heat supply water inlet 18 and be linked into respectively the heating system of municipal administration or own boiler for hot water outlet 17, provides hot water to indoor set by municipal heating system, in order to reduce moving row cost.When indoor air humidity is too low, steam jet 19 ejection water vapours, enter supply air system by air outlet of indoor set 6, in order to supplement indoor air humidity.
In indoor set, indoor air inlet 1 upper end arranges new wind air inlet valve 10, outdoor air enters indoor set by new wind air inlet valve 10, in empty, air enters indoor set by indoor air inlet 1, air intake mixing valve 2 is set after indoor air inlet 1, indoor set may work as interior circulation, outer circulation, or interior circulation and outer circulation are carried out simultaneously.When carbon dioxide sensor detects the carbon dioxide concentration in air when higher, the new wind air inlet valve 10 of indoor set is opened, and indoor set is from the new wind of outdoor suction, in order to supplement indoor oxygen, in order to reduce gas concentration lwevel.Winter is too high when indoor temperature, in the time of need to lowering the temperature, also can stop compressor operating, by the outer new wind of suction chamber to reach cooling object.
Claims (4)
1. an agaricus bisporus industrialized cultivation Special air-conditioning system, comprise controller, temperature sensor, humidity sensor, carbon dioxide sensor, compressor, work water pipe, circulating water pipe and indoor set, it is characterized in that indoor set comprises frame (9), frame (9) one end arranges indoor air inlet (1), indoor air inlet (1) upper end arranges new wind air inlet valve (10), air intake mixing valve (2) is set after indoor air inlet (1), surface cooler (8) is set after air intake mixing valve (2), steam jet (19) is set after surface cooler (8), surface cooler (8) lower end arranges heat exchange water inlet (4) and is connected for inputting heat exchange water with compressor operating circulating outlet (11), surface cooler (8) lower end also arranges heat exchange delivery port (3) and is connected with compressor operating circulation water inlet (12) for exporting the heat exchange water after heat exchange, indoor fan (7) is set after surface cooler (8), indoor fan (7) is connected with air outlet (6), surface cooler (8) below is provided for discharging the condensed water delivery port (5) of condensed water.
2. agaricus bisporus industrialized cultivation Special air-conditioning system according to claim 1, is characterized in that also comprising cooling tower, and compressor auxiliary circulation delivery port (14) is connected with cooling tower water inlet (15); Compressor auxiliary circulation water inlet (13) is connected with cooling tower delivery port (16).
3. agaricus bisporus industrialized cultivation Special air-conditioning system according to claim 2, is characterized in that indoor set arranges more than 2.
4. agaricus bisporus industrialized cultivation Special air-conditioning system according to claim 3, is characterized in that also comprising heat supply water inlet (18) and supplies hot water outlet (17); Described heat supply water inlet (18) is connected with the heat exchange water inlet (4) of indoor set, and the described hot water outlet (17) that supplies is connected with the heat exchange delivery port (3) of indoor set.
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CN201320461938.4U CN203478478U (en) | 2013-07-27 | 2013-07-27 | Air-conditioning system special for agaricus bisporus industrial cultivation |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104298271A (en) * | 2014-10-09 | 2015-01-21 | 高密市惠德农产品有限公司 | Culture room temperature control system and method |
CN104885822A (en) * | 2015-06-29 | 2015-09-09 | 南京市浦口区天和自动化设备有限公司 | Mushroom house fresh air ventilation control device |
CN108522157A (en) * | 2017-12-12 | 2018-09-14 | 承德兴春和农业股份有限公司 | A kind of White mushroom culture control system |
CN114391428A (en) * | 2021-12-09 | 2022-04-26 | 贵州省山地资源研究所 | Karst cave morchella four-season cultivation environment system and system regulation and control method |
-
2013
- 2013-07-27 CN CN201320461938.4U patent/CN203478478U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104298271A (en) * | 2014-10-09 | 2015-01-21 | 高密市惠德农产品有限公司 | Culture room temperature control system and method |
CN104885822A (en) * | 2015-06-29 | 2015-09-09 | 南京市浦口区天和自动化设备有限公司 | Mushroom house fresh air ventilation control device |
CN108522157A (en) * | 2017-12-12 | 2018-09-14 | 承德兴春和农业股份有限公司 | A kind of White mushroom culture control system |
CN114391428A (en) * | 2021-12-09 | 2022-04-26 | 贵州省山地资源研究所 | Karst cave morchella four-season cultivation environment system and system regulation and control method |
CN114391428B (en) * | 2021-12-09 | 2023-03-14 | 贵州省山地资源研究所 | Karst cave morchella four-season cultivation environment system and system regulation and control method |
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Granted publication date: 20140312 Termination date: 20150727 |
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