CN205052256U - Edible mushroom cultivation uses intelligent cooling greenhouse - Google Patents

Abstract

The utility model relates to an agricultural greenhouse's technical field discloses an edible mushroom cultivation uses intelligent cooling greenhouse. Intelligence cooling greenhouse includes cascade, first fan, second fan, third fan, return water pond, a temperature sensor, the 2nd temperature sensor, humidity transducer, level sensor and controller. A temperature sensor, humidity transducer set up in the inside of big -arch shelter, the 2nd temperature sensor, level sensor set up in the return water pond, the controller is connected with a temperature sensor, the 2nd temperature sensor, humidity transducer, level sensor respectively. The utility model discloses structural design is simple, can carry out real -time supervision to the temperature and humidity of big -arch shelter inside to have the intelligent regulation function, ensure the domestic fungus and grow in the best ambient condition, the quality and the output of improvement domestic fungus.

Description

A kind of edible fungus culturing intelligent cooling booth

Technical field

The utility model relates to the technical field of agricultural booth, more specifically, relates to a kind of edible fungus culturing intelligent cooling booth.

Background technology

At present, the production of China most area edible mushroom generally concentrates on these three low temperature seasons of spring autumn and winter season, and high temperature season seldom fruiting in summer, this is inseparable with the environmental condition required for edible fungi growth.The environmental condition affecting edible fungi growth mainly comprises the conditions such as temperature, humidity, illumination, air and ventilation.Temperature is one of topmost environmental condition affecting edible fungi growth growth, and different kinds is in different growth and development stages, also different to temperature requirement.The temperature of general mycelial growth demands is higher, and at 20 ~ 26 DEG C, the temperature of sporophore growth demands is lower, generally at 13 ~ 18 DEG C.The time of bacterium, the time of fruiting and quality are sent out in the height impact of temperature, and therefore temperature decides success or failure and the economic benefit of production.Sunlight direct irradiation is not needed, so need to carry out shading treatment to booth in edible fungi growth process.In addition, humidity is also one of key factor affecting edible fungi growth.In the mycelial growth stage, relative air humidity will be advisable below 75%; And in the fruiting stage, require that relative air humidity is more than 90%.

Therefore, carry out in booth edible fungus culturing process in summer, needing environmental condition such as temperature, humidity and illumination etc. on affecting edible fungi growth to carry out artificial comprehensive adjustment, building optimum growing environment, improve the Quality and yield of edible mushroom.At present, many mushroom agricultures, due to the restriction of the condition such as fund, technology, are all the booths adopting manual type management plantation edible mushroom, namely rely on personal experience, regulate according to situations such as the temperature inside and outside booth, humidity.But the condition changes such as the temperature sometimes inside and outside booth, humidity are very fast, if administrative staff according to circumstances process not in time accordingly, then can affect the normal growth of edible mushroom, may cause the decline of its seed output and quality.In addition, manual type managerial demand relies on the personnel with plantation experience to be competent at, and along with the increase of cultivated area, the quantity of the technical staff required for labor intensive of this high effort consuming time, high can be difficult to meet the demands usually.

Summary of the invention

The purpose of this utility model is to overcome deficiency of the prior art, a kind of edible fungus culturing intelligent cooling booth is provided, described intelligent cooling booth can carry out Real-Time Monitoring to the temperature and humidity of booth inside, and there is self-regulating function, to guarantee that edible fungi growth is in the environmental condition of the best, improve the Quality and yield of edible mushroom.In addition, described intelligent cooling booth can recycle provided water resource, can realize again the collection of rainwater and recycle, reaching the object of saving water resource.

The purpose of this utility model is achieved through the following technical solutions:

A kind of edible fungus culturing intelligent cooling booth, comprises cascade, the first blower fan, the second blower fan, the 3rd blower fan, cold water source device, water pump, water inlet pipe, water-supply-pipe, heat-insulation layer, water injector, water leg, sterilizing unit, back pool, the first temperature sensor, the second temperature sensor, humidity sensor, liquid level sensor and controller; Described first blower fan embeds and is arranged on booth one sidewall; Described cascade is arranged at the front of the first blower fan; The front of described cascade arranges the second blower fan; Described 3rd blower fan embeds and is arranged on the booth sidewall on the opposite of cascade; The outside of described booth is coated with plastic film; The outer side covers of described plastic film has heat-insulation layer, and the coverage of described heat-insulation layer is booth top and all the other 2 sides except the booth two ends at the first blower fan and the 3rd blower fan place; Described water injector is arranged at the outside of heat-insulation layer and is positioned at the centre at booth top; Described water inlet pipe one end is connected with the water inlet at cascade top and water injector respectively, and the other end is connected to cold water source device and back pool respectively by water pump; Described water-supply-pipe one end is connected with the delivery port of water leg, and the other end is connected with back pool by sterilizing unit; Delivery port bottom described cascade is connected with water leg; The first valve, the second valve, the 3rd valve is respectively equipped with between described water pump and cold water source device, back pool, water injector; Described first temperature sensor is arranged at the inside of booth; Described second temperature sensor is arranged in back pool; Described humidity sensor is arranged at the inside of booth; Described liquid level sensor is arranged in back pool; Described controller is arranged in booth exterior side wall.

The operation principle of this booth is as follows: during work, the second temperature sensor in the first temperature sensor, humidity sensor and back pool in booth, liquid level sensor send the air temperature signal detected, air humidity signal, coolant-temperature gage signal, water liquid level signal to controller respectively, and the air temperature signal received, air humidity signal, coolant-temperature gage signal and water liquid level signal are compared analysis with the air temperature range value, air humidity value range, coolant-temperature gage value range and the water liquid level value range that set separately by controller respectively.The air temperature signal value of the first temperature sensor received when controller is greater than the air temperature range value of setting, the coolant-temperature gage signal value of the second temperature sensor is less than the coolant-temperature gage value range of setting, the water liquid level signal value of liquid level sensor is greater than the water liquid level value range of setting, when the air humidity signal value of humidity sensor is greater than the air humidity value range of setting, controller will send signal instruction and draw water from back pool and be supplied to cascade and water injector and use, namely water pump is opened, second valve, 3rd valve, first blower fan, second blower fan, 3rd blower fan, close the first valve.

Cold water to be delivered to water inlet and the water injector at cascade top because of water pump effect by water inlet pipe, the cold water at cascade top because of Action of Gravity Field slow in cascade flows from top to bottom, from water injector ejection or the cold water that flows out along the heat-insulation layer at booth top slowly to booth flows, take away the heat of insulation layer surface, avoid heat to continue to booth internal delivery.Air outside booth is sucked by the first blower fan and blows to cascade, to make that temperature reduces, humidity increases through the air of cascade because of water evaporation endothermic, the cold air flowed out from cascade via the second blower fan to the transmission of the booth other end.Meanwhile, the hot-air of booth inside is discharged to booth outside by the 3rd blower fan, promotes the flowing of air, reduces booth inner air humidity.If controller selects cut out first blower fan and the 3rd blower fan, the space that then booth inside formation one is comparatively airtight, draught head can be formed in the front and back of cascade during the second blower fan work, make the air at cascade rear because the large active flow of air pressure is through cascade, cold air after cooling process, can realize booth internal cooling to the transmission of the booth other end equally via the second blower fan.After cascade, remaining water is disposed to water leg from the delivery port bottom cascade, also water leg is come together in from the water booth overhead stream, water in water leg is delivered to sterilizing unit by the water-supply-pipe be connected with water leg delivery port, is delivered to back pool and stores after sterilization processing.When the water liquid level signal value of coolant-temperature gage value range or liquid level sensor that the coolant-temperature gage signal value of the second temperature sensor received is greater than setting by controller is less than the water liquid level value range of setting, controller will send signal instruction and draw water from cold water source device, namely open the first valve, close the second valve.If when the air humidity signal value of the humidity sensor that work middle controller receives is less than the air humidity value range of setting, then controller will send signal instruction and cut out the 3rd blower fan.

Regulate to realize temperature voluntarily in booth inside, and do not need could realize temperature adjustment by outside air.Further, the inlet scoop place of described first blower fan is provided with electric guard board.

For guarantee controller and each communication between devices smooth and easy, realize the Based Intelligent Control of canopy temperature, humidity.Further, described controller adopts wired or wireless communication to be connected with between the first blower fan, the second blower fan, the 3rd blower fan, water pump, electric guard board, the first valve, the second valve, the 3rd valve, the first temperature sensor, the second temperature sensor, humidity sensor, liquid level sensor.

In order to the temperature of Real-time Collection booth inner air and the temperature of backwater pool inner water, ensure that the real-time transmission of data is with accurate.Further, described first temperature sensor, the second temperature sensor are one or more in thermocouple sensor, thermal resistance sensor, infrared temperature-test sensor.

In order to the humidity information of Real-time Collection booth inner air, guarantee that edible fungi growth is in optimum environment.Further, described humidity sensor is one or more in lithium chloride humidity sensor, carbon dew cell, aluminium oxide moisture meter, Ceramic Humidity Sensor.

In order to the storage capacity information of Real-time Collection backwater pool inner water, for booth way of supplying water provides decision-making.Further, described liquid level sensor is one or more in float-type liquid level sensor, floating ball type liquid level sensor, static pressure type liquid level sensor.

In order to show the information such as temperature, liquid level of canopy temperature, humidity and backwater pool inner water in real time, the acquisition of convenient management and information.Further, display unit is included in described controller.

In order to the impurity comprised in filtering water, guarantee the normal work of the equipment such as water pipe and water injector.Further, filter is provided with between described sterilizing unit and water leg.

For getting rid of the interference of contained miscellaneous bacteria in water, the water after sterilization simultaneously can not affect the normal growth of edible mushroom.Further, described sterilizing unit is one or more in ozone sterilization, chlorbenside bacterium, ultraviolet sterilization.

Normally can work under given conditions in order to ensure valve, booth Based Intelligent Control process is realized smoothly.Further, described first valve, the second valve, the 3rd valve are one or more in motor-driven valve, pneumatic operated valve, hydraulic operated valve.

For ensureing that air forward blows to cascade and forwards, promote air flowing.Further, described first blower fan, the second blower fan, the 3rd blower fan are one or more in axial flow blower, centrifugal blower, diagonal flow fan.

In order to effectively reduce the temperature of the heat-insulation layer of booth outside, reduce the heat of booth outside to booth internal delivery.Further, described water injector is metal tube or the plastic tube that automatic sprinkler or surrounding have multiple eyelet.

In order to realize carrying out effective insulation to booth, extend the service life of plastic film simultaneously.Further, described heat-insulation layer is followed successively by woollen blanket and black waterproofing membrane from inside to outside.

The temperature of the water of cascade is flowed through in order to effectively reduce, simultaneously can not be too high thus booth cannot be supplied use because of the temperature of backwater pool inner water.Further, refrigerating plant is provided with in described back pool.

For effectively reduction is installed on the water pipe of booth outside because the conditions such as extraneous solar radiation are on the impact of water pipe, thus promote the temperature of water.Further, the outer side covers of described water inlet pipe and water-supply-pipe has heat-preservation cotton.

For effectively regulating the water yield size of water pump, supply exceed demand to avoid the water demand of cascade, saving water resource.Further, described water pump is connected with variable-frequency motor.

In order to effectively reduce the temperature flowing through the water of cascade, promote cooling-down effect.Further, described cold water source device is well or the pond being provided with refrigerating plant.

In order to make the air after cascade cooling process rapidly flow toward each corner of booth, realize booth internal temperature even.Further, the middle part of described booth is provided with accessory fan.

Compared with prior art, the utility model has following beneficial effect:

Described edible fungus culturing intelligent cooling booth can carry out Real-Time Monitoring to the temperature and humidity of booth inside, and has self-regulating function, to guarantee that edible fungi growth is in the environmental condition of the best, improves the Quality and yield of edible mushroom.In addition, described intelligent cooling booth can recycle provided water resource, can realize again the collection and use of rainwater, reaches the object of saving water resource.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of intelligent cooling booth.

Embodiment

Below in conjunction with embodiment, the utility model is further described.Wherein, accompanying drawing only for exemplary illustration, expression be only schematic diagram, but not pictorial diagram, can not be interpreted as the restriction to this patent; In order to embodiment of the present utility model is described better, some parts of accompanying drawing have omission, zoom in or out, and do not represent the size of actual product; For a person skilled in the art, in accompanying drawing, some known features and explanation thereof may be omitted is understandable.

embodiment 1

As shown in Figure 1, a kind of edible fungus culturing intelligent cooling booth, comprises cascade 1, first blower fan 2, second blower fan 3, the 3rd blower fan 4, cold water source device 5, water pump 6, variable-frequency motor 7, water inlet pipe 8, water-supply-pipe 9, plastic film 10, heat-insulation layer 11, baffle plate 12, water injector 13, water leg 14, sterilizing unit 15, back pool 16, first valve 17, second valve 18, the 3rd valve 19, first temperature sensor 20, second temperature sensor 22, humidity sensor 21, liquid level sensor 23 and controller 24.First blower fan 2 embeds and is arranged on booth one sidewall; Cascade 1 is arranged at the front of the first blower fan 2; The front of cascade 1 arranges the second blower fan 3; 3rd blower fan 4 embeds and is arranged on the booth sidewall on the opposite of cascade 1; The outside of booth is coated with plastic film 10; The outer side covers of plastic film 10 has heat-insulation layer 11, and the coverage of heat-insulation layer 11 is booth top and all the other 2 sides except the booth two ends at the first blower fan 2 and the 3rd blower fan 4 place; Water injector 13 is arranged at the outside of heat-insulation layer 11 and is positioned at the centre at booth top; Water inlet pipe 8 one end is connected with the water inlet at cascade 1 top and water injector 13 respectively, and the other end is connected to cold water source device 5 and back pool 16 respectively by water pump 6; Water-supply-pipe 9 one end is connected with the delivery port of water leg 14, and the other end is connected with back pool 16 by sterilizing unit 15; Filter is provided with between sterilizing unit 15 and water leg 14; Delivery port bottom cascade 1 is connected with water leg 14; The first valve 17, second valve 18, the 3rd valve 19 is respectively equipped with between water pump 6 and cold water source device 5, back pool 16, water injector 13; First temperature sensor 20 is arranged at the inside of booth; Second temperature sensor 22 is arranged in back pool 16; Humidity sensor 21 is arranged at the inside of booth; Liquid level sensor 23 is arranged in back pool 16; Controller 24 is arranged in booth exterior side wall, includes display unit in controller 24.

Wherein, water leg 14 is provided with 2, lays respectively at the bottom of booth 2 sides that heat-insulation layer 11 covers; The top of water leg 14 is hatch frame, and bottom and surrounding are closed structure; Water leg 14 one end is provided with delivery port near bottom position place, and water leg 14 is provided with level height bottom delivery port one end lower than the level height bottom the water leg other end; Back pool 16 is arranged at below ground surface, and its shape is cuboid; Water inlet pipe 8 has heat-preservation cotton with the outer side covers of water-supply-pipe 9; The inlet scoop place of the first blower fan 2 is provided with electric guard board 12; Controller 24 adopts radio communication to be connected with between the first blower fan 2, second blower fan 3, the 3rd blower fan 4, water pump 6, electric guard board 12, first valve 17, second valve 18, the 3rd valve 19, first temperature sensor 20, second temperature sensor 22, humidity sensor 21, liquid level sensor 23.

In the present embodiment, first blower fan 2, second blower fan 3 and the 3rd blower fan 4 are centrifugal blower, first temperature sensor 20 and the second temperature sensor 22 are thermocouple temperature sensor, first valve 17, second valve 18 and the 3rd valve 19 are motor-driven valve, humidity sensor 21 is lithium chloride humidity sensor, liquid level sensor 23 is float-type liquid level sensor, water pump 6 is connected with variable-frequency motor 7 water yield regulating water pump 6, the metal tube of water injector 13 multiple eyelet for surrounding has, cold water source device 5 is well, and sterilizing unit 15 is ultraviolet sterilization.

During work, the first temperature sensor 20 in booth, the second temperature sensor 22 in humidity sensor 21 and back pool 16, the air temperature signal that liquid level sensor 23 will detect respectively, air humidity signal, coolant-temperature gage signal, water liquid level signal sends controller 24 to, the air temperature signal that controller 24 will receive, air humidity signal, show in a display device after coolant-temperature gage signal and the process of water liquid level signal, and respectively with the air temperature range value a set separately, air humidity value range b, coolant-temperature gage value range c and water liquid level value range d compares analysis.The air temperature signal value of the first temperature sensor 20 received when controller 24 is greater than the air temperature range value a of setting, the coolant-temperature gage signal value of the second temperature sensor 22 is less than the coolant-temperature gage value range c of setting, the water liquid level signal value of liquid level sensor 23 is greater than setting water liquid level value range d, when the air humidity signal value of humidity sensor 21 is greater than the air humidity value range b of setting, controller 24 will send signal instruction and draw water from back pool 16 and be supplied to cascade 1 and water injector 13 uses, namely water pump 6 is opened, second valve 18, 3rd valve 19, first blower fan 2, second blower fan 3, 3rd blower fan 4, electric guard board 12, close the first valve 17.Cold water acts on water inlet and the water injector 13 being delivered to cascade 1 top by water inlet pipe 8 because of water pump 6, the cold water at cascade 1 top because of Action of Gravity Field slow in cascade flows from top to bottom, the cold water of ejection or outflow from water injector 13 is slow in booth flows along the heat-insulation layer 11 at booth top, take away the heat of insulation layer surface, avoid heat further to booth internal delivery.Air outside booth is sucked by the first blower fan 2 and blows to cascade 1, and through the air of cascade 1, because of water evaporation endothermic, temperature reduces, the cold air flowed out from cascade via the second blower fan 3 and the accessory fan that is arranged in the middle part of booth to the transmission of the booth other end.Meanwhile, the hot-air of booth inside is discharged to booth outside by the 3rd blower fan 4, promotes the flowing of air, reduces booth inner air humidity.If the air humidity signal value of the humidity sensor 21 that controller 24 receives be less than the air humidity value range b of setting and the air temperature signal value of the first temperature sensor 20 received is greater than the air temperature range value a of setting time, signal instruction will be sent and close the first blower fan 2, 3rd blower fan 4 and electric guard board 12, the space that then booth inside formation one is comparatively airtight, draught head can be formed in the front and back of cascade 1 when second blower fan 3 works, make the air at cascade rear because the large active flow of air pressure is through cascade, cold air after cooling process via the second blower fan 3 and the accessory fan that is arranged in the middle part of booth to the transmission of the booth other end, can realize equally booth internal cooling.After cascade, remaining water is disposed to water leg 14 from the delivery port bottom cascade, also water leg 14 is come together in from the water booth overhead stream, water in water leg 14 is conveyed through filter and sterilizing unit 15 by water-supply-pipe 9 successively that be connected with water leg delivery port, is delivered to back pool 16 and stores after sterilization processing.When the water liquid level signal value of coolant-temperature gage value range c or liquid level sensor 23 that the coolant-temperature gage signal value of the second temperature sensor 22 received is greater than setting by controller 24 is less than the water liquid level value range d of setting, controller 24 will send signal instruction and draw water from cold water source device 5 for cascade 1 and water injector 13, namely open the first valve 17, close the second valve 18.

In addition, described variable-frequency motor 7, by the control to water pump 6, effectively can regulate the water yield size of water pump, and supply exceed demand to avoid the water demand of cascade, saving water resource.

Obviously, above-described embodiment is only for the technical solution of the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.

Claims (10)

1. an edible fungus culturing intelligent cooling booth, it is characterized in that, comprise cascade (1), the first blower fan (2), the second blower fan (3), the 3rd blower fan (4), cold water source device (5), water pump (6), water inlet pipe (8), water-supply-pipe (9), heat-insulation layer (11), water injector (13), water leg (14), sterilizing unit (15), back pool (16), the first temperature sensor (20), the second temperature sensor (22), humidity sensor (21), liquid level sensor (23) and controller (24); The embedding of described first blower fan (2) is arranged on booth one sidewall; Described cascade (1) is arranged at the front of the first blower fan (2); The front of described cascade (1) arranges the second blower fan (3); Described 3rd blower fan (4) embeds and is arranged on the booth sidewall on the opposite of cascade (1); The outside of described booth is coated with plastic film (10); The outer side covers of described plastic film (10) has heat-insulation layer (11), and the coverage of described heat-insulation layer is booth top and all the other 2 sides except the booth two ends at the first blower fan (2) and the 3rd blower fan (4) place; Described water injector (13) is arranged at the outside of heat-insulation layer (11) and is positioned at the centre at booth top; Described water inlet pipe (8) one end is connected with the water inlet at cascade (1) top and the water inlet of water injector (13) respectively, and the other end is connected to cold water source device (5) and back pool (16) respectively by water pump (6); Described water-supply-pipe (9) one end is connected with the delivery port of water leg (14), and the other end is connected with back pool (16) by sterilizing unit (15); The delivery port of described cascade (1) bottom is connected with water leg (14); The first valve (17), the second valve (18), the 3rd valve (19) is respectively equipped with between described water pump (6) and cold water source device (5), back pool (16), water injector (13); Described first temperature sensor (20) is arranged at the inside of booth; Described second temperature sensor (22) is arranged in back pool; Described humidity sensor (21) is arranged at the inside of booth; Described liquid level sensor (23) is arranged in back pool; Described controller (24) is arranged in booth exterior side wall.

2. edible fungus culturing intelligent cooling booth according to claim 1, it is characterized in that, the inlet scoop place of described first blower fan (2) is provided with electric guard board (12).

3. edible fungus culturing intelligent cooling booth according to claim 2, it is characterized in that, described controller (24) adopts wired or wireless communication to be connected with the first blower fan (2), the second blower fan (3), the 3rd blower fan (4), water pump (6), electric guard board (12), the first valve (17), the second valve (18), the 3rd valve (19), the first temperature sensor (20), the second temperature sensor (22), humidity sensor (21), liquid level sensor between (23).

4. edible fungus culturing intelligent cooling booth according to claim 3, it is characterized in that, described first temperature sensor (20), the second temperature sensor (22) they are thermocouple sensor, one or more in thermal resistance sensor, infrared temperature-test sensor.

5. edible fungus culturing intelligent cooling booth according to claim 4, is characterized in that, described humidity sensor (21) is lithium chloride humidity sensor, one or more in carbon dew cell, aluminium oxide moisture meter, Ceramic Humidity Sensor.

6. edible fungus culturing intelligent cooling booth according to claim 5, is characterized in that, described liquid level sensor (23) is float-type liquid level sensor, one or more in floating ball type liquid level sensor, static pressure type liquid level sensor.

7. edible fungus culturing intelligent cooling booth according to claim 6, it is characterized in that, described controller includes display unit in (24).

8. edible fungus culturing intelligent cooling booth according to claim 7, is characterized in that, be provided with filter between described sterilizing unit (15) and water leg (14).

9. edible fungus culturing intelligent cooling booth according to claim 8, it is characterized in that, described sterilizing unit (15) is ozone sterilization, chlorbenside bacterium, one or more in ultraviolet sterilization.

10. edible fungus culturing intelligent cooling booth according to claim 9, is characterized in that, described first valve (17), the second valve (18), the 3rd valve (19) are motor-driven valve, one or more in pneumatic operated valve, hydraulic operated valve.