CN106105892A - Cultivation box and temperature-controlled process thereof - Google Patents

Abstract

Present invention is disclosed a kind of cultivation box and temperature-controlled process thereof, cultivation box includes the casing with inner space, it is arranged on casing and for connecting air intake passage and the air-out passage of inner space and space outerpace, for opening and closing air intake passage and/or the air door of air-out passage, humidity control system, and control system, humidity control system includes first temperature sensor of the internal temperature T1 for monitoring described inner space, for monitoring the second temperature sensor of ambient temperature T2 of described space outerpace, it is arranged in described cultivation box and for heat production so that the heating module that heats up of described inner space, and for refrigeration so that described inner space cooling refrigeration module；Described control system for according to described internal temperature T1, described ambient temperature T2 and the magnitude relationship of preset temperature value T0, control described heating module, described refrigeration module, described air door opening and closing so that T1=T0.The present invention can maintain temperature constant and optimal, and saves the energy.

Description

Cultivation box and temperature-controlled process thereof

Technical field

The present invention relates to a kind of cultivation box and temperature-controlled process thereof, belong to plant growing technical field.

Background technology

Along with the raising of people's living standard, health, green, environmental protection, easily life style are increasingly by people's Pursue, meet the demand of people in order to the home-use cultivation box of the plant such as planting vegetable, fruit to a certain extent.

It is known that illumination, temperature, gas, water, nutriment are the top 5 factors of green plants growth, the life of plant at any time Long, need the top 5 factor in cultivation box is controlled accordingly.

Wherein, the vital movement of plant is all had a major impact by the air quality such as temperature and gas concentration factor.Such as, plant The photosynthesis of thing mainly utilizes the CO in air₂As the gaseous fertilizer of growth, and CO₂Also it is plant respiration simultaneously Product.When illumination is more weak, at such as night, plant respiration is better than photosynthesis, causes CO in air₂Concentration increases, shadow Ring plant respiration；When illumination is stronger, plant respiration is weaker than photosynthesis, causes CO in air₂Concentration reduces, shadow Ring photosynthesis of plant.Accordingly, it would be desirable to the CO in regulation cultivation box₂Concentration so that the air ambient of cultivation box meets plant Survivability requirement.

Plant has optimal survival temperature, temperature too low or too high in the case of all cannot well grow.And distinguish In the regulation and control voluntarily of the Nature, the plant cultivated in cultivation box, along with the carrying out of plant its life activity and to temperature Gas exchange inside and outside casing during regulation and control, all can cause the change of plantation the temperature inside the box, and how ensure that cultivation box maintains preferably Temperature, be also an important topic.

Summary of the invention

It is at least to solve one of above-mentioned technical problem, it is an object of the invention to provide a kind of cultivation box and temperature controls Method, it is achieved maintain the effect of the optimum temperature of plant growing in cultivation box.

One of for achieving the above object, an embodiment of the present invention provides a kind of cultivation box, including having inside The casing in space, it is arranged on described casing and for connecting the air intake passage of described inner space and casing space outerpace and going out Wind passage, for air intake passage described in opening and closing and/or the air door of described air-out passage, humidity control system and control system, Described humidity control system includes first temperature sensor of the internal temperature T1 for monitoring described inner space, for monitoring Second temperature sensor of ambient temperature T2 of described space outerpace, be arranged at described cultivation box in and for heat production so that described Inner space heat up heating module and for refrigeration so that described inner space cooling refrigeration module；Described control is System, for according to described internal temperature T1, described ambient temperature T2 and the magnitude relationship of preset temperature value T0, controls described heating Module, described refrigeration module, described air door opening and closing so that T1=T0.

As the further improvement of an embodiment of the present invention, as T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, described control System controls described door opening so that forming exchange air-flow between described inner space and described space outerpace until T1=T0； As T1 ＞ T2 ＞ T0 or T1 ＜ T2 ＜ T0, described control system controls described door opening so that described inner space is with described Form exchange air-flow between space outerpace, rear control described air door and close and control the unlatching of described refrigeration module so that described inside Space cooling or described heating module open so that heating up until T1=T0 in described inner space；As T2 ＞ T1 ＞ T0 or T2 ＜ T1 During ＜ T0, described control system controls described air door and closes and control the unlatching of described refrigeration module so that described inner space lowers the temperature Or described heating module opens so that heat up in described inner space until T1=T0.

As the further improvement of an embodiment of the present invention, as T1 ＞ T2 ＞ T0 or T1 ＜ T2 ＜ T0, described control System controls described door opening so that forming exchange air-flow between described inner space and described space outerpace until T1=T2, The described air door of rear control is closed and is controlled described refrigeration module and opens so that the cooling of described inner space or described heating module are opened Open so that heating up until T1=T0 in described inner space.

As the further improvement of an embodiment of the present invention, described cultivation box also includes being arranged at described air intake passage And/or the blower fan at described air-out passage, described control system controls the unlatching Tong Bu with described air door of described blower fan.

As the further improvement of an embodiment of the present invention, described control system includes acquisition module, described collection mould Block is for gathering corresponding described preset temperature value T0 according to the floristics in described cultivation box.

One of for achieving the above object, an embodiment of the present invention provides the temperature of a kind of cultivation box as above Degree control method, described method includes step:

The internal temperature T1 of monitoring cultivation box inner space and ambient temperature T2 of cultivation box space outerpace；

Judge the magnitude relationship of described internal temperature T1, described ambient temperature T2 and preset temperature value T0；

According to described magnitude relationship control heating module, refrigeration module, air door opening and closing so that T1=T0.

As the further improvement of an embodiment of the present invention, described step " controls heated mould according to described magnitude relationship Group, refrigeration module, air door opening and closing so that T1=T0 " including:

As T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, control described door opening so that described inner space and described outside Exchange air-flow is formed until T1=T0 between space；

As T1 ＞ T2 ＞ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow, rear control described air door and closes and control described refrigeration module and open so that described inner space lowers the temperature until T1= T0；

As T1 ＜ T2 ＜ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow, rear control described air door and closes and control described heating module and open so that the intensification of described inner space is until T1= T0；

As T2 ＞ T1 ＞ T0, control described air door and close and control described refrigeration module and open so that described inner space Cooling is until T1=T0；

As T2 ＜ T1 ＜ T0, control described air door and close and control described heating module and open so that described inner space Heat up until T1=T0.

As the further improvement of an embodiment of the present invention, described step " as T1 ＞ T2 ＞ T0, controls described air door Opening so that forming exchange air-flow between described inner space and described space outerpace, the described air door of rear control is closed and controls institute State refrigeration module to open so that the cooling of described inner space is until T1=T0 " including:

As T1 ＞ T2 ＞ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow is until T1=T2, and the described air door of rear control is closed and controlled described refrigeration module and opens so that described inner space drops Temperature is until T1=T0；

Described step " as T1 ＜ T2 ＜ T0, controls described door opening so that described inner space is outside empty with described Form exchange air-flow between, rear control described air door and close and control the unlatching of described heating module so that described inner space liter Temperature is until T1=T0 " including:

As T1 ＜ T2 ＜ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow until T1=T2, rear control described air door and closes and control the unlatching of described heating module so that described inner space liter Temperature is until T1=T0.

As the further improvement of an embodiment of the present invention, described method further comprises the steps of:

Corresponding preset temperature value T0 is gathered according to the floristics in described cultivation box.

Compared with prior art, the present invention has following Advantageous Effects: by cultivation box inner space and outside Space carries out temperature monitoring respectively, uses many-sided regulation and control of heating module, refrigeration module and air door, maintains the sky in cultivation box Gas keeps temperature constant and optimal, provides optimal temperature conditions for plant growing.

Accompanying drawing explanation

Fig. 1 is the flow chart of the temperature-controlled process of the cultivation box of an embodiment of the present invention.

Detailed description of the invention

Describe the present invention below with reference to detailed description of the invention shown in the drawings.But these embodiments are also It is not intended to the present invention, structure that those of ordinary skill in the art is made, method or functionally according to these embodiments Conversion is all contained in protection scope of the present invention.

An embodiment of the present invention provides a kind of cultivation box in order to the plant such as planting vegetable, fruit.Described cultivation box In cuboid, it includes having the casing of inner space, is connected on described casing and for the door of box opening described in opening and closing Body, be arranged on described inner space in and in order at least one of which bearing part of planting plants, gas exchange systems, temperature regulation system System and control system.

Described gas exchange systems includes air intake passage, air-out passage and air door.Described air intake passage and described air-out Passage is respectively arranged on described casing and for connecting the space outerpace of described inner space and described casing.

Described air door may be configured as one or more, and for air intake passage and/or described air-out passage described in opening and closing.? An embodiment of the present invention, described air door is provided for the inlet air door of wind inlet channel described in opening and closing and for switching station State the air-out air door of exhaust air flue.Preferably, described inlet air door and the linkage of described air-out air door are arranged.

When described door opening, described inner space and described space outerpace can form exchange air-flow.Concrete, described Inlet air door is opened, and the gas of described space outerpace can enter described inner space by described wind inlet channel；Described air-out wind Door is opened, and the gas of described inner space can enter described space outerpace by described exhaust air flue.Due to described space outerpace Being far longer than described inner space, therefore along with the flowing of exchange air-flow, the temperature of described inner space can be gradually with described Space outerpace is consistent.

In an embodiment of the present invention, described humidity control system includes the first temperature sensor, the second temperature sensing Device, heating module and refrigeration module.

In described first temperature sensor is arranged at described cultivation box and for the real-time inside monitoring described inner space Temperature T1, described second temperature sensor is arranged at outside described cultivation box and for the real-time environment temperature monitoring described space outerpace Degree T2.

Described heating module is arranged in described cultivation box, and when described heating module is opened, described heating module can produce Heat is so that heating up in described inner space.In an embodiment of the present invention, described heating module is set to energising and gets final product heat production Heater strip.

Described refrigeration module is used for refrigeration so that described inner space lowers the temperature.In an embodiment of the present invention, described system Chill group includes compressor, vaporizer and condenser, and when described compressor is opened, described vaporizer can produce cold and by institute State cold to provide to described inner space, to reach the purpose of refrigeration cool-down.

In an embodiment of the present invention, described control system is for according to described internal temperature T1, described ambient temperature T2 and the magnitude relationship of preset temperature value T0, control described heating module, described refrigeration module, described air door opening and closing so that institute State internal temperature T1=T0.

So, the cultivation box of an embodiment of the present invention, carry out temperature prison respectively by internal volume and space outerpace Survey, use many-sided regulation and control of heating module, refrigeration module and air door, maintain the air in cultivation box to keep temperature constant and Good, can be that plant growing provides optimal temperature conditions.

Further, close according to the size of described internal temperature T1, described ambient temperature T2 and described preset temperature value T0 System, described cultivation box has four kinds of different working modes, including shutdown mode, full remuneration pattern, quasicompensation pattern and start Pattern.

As T1=T0, described cultivation box performs shutdown mode: described internal temperature T1 is exactly suitable for plant growth Optimum temperature, it is not necessary to the air of described inner space is carried out homoiothermic, and described control system controls described heating module, described system Chill group and described air door are in closed mode.

As T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, described cultivation box is performed both by full remuneration pattern: concrete, described control System processed controls described door opening so that forming exchange air-flow, described exchange between described inner space and described space outerpace Air-flow makes the temperature of described space outerpace gradually compensate the temperature of described inner space, finally makes T1=T0, namely described The temperature of inner space reaches plant optimum growth temp, and the described air door of rear control is closed.So, described cultivation box performs described During full remuneration pattern, the temperature in available extraneous natural temperature regulation cultivation box keeps optimal, has saved the energy；With Time, by introducing the gas of space outerpace, in also can making cultivation box, keep preferably CO₂The life of concentration value, beneficially plant is lived Dynamic.

As T1 ＞ T2 ＞ T0 or T1 ＜ T2 ＜ T0, described cultivation box is performed both by quasicompensation pattern: concrete, as T1 ＞ T2 During ＞ T0, described control system controls described door opening so that forming exchange between described inner space and described space outerpace Air-flow, described exchange air-flow makes the temperature of described space outerpace gradually compensate the temperature of described inner space, until T1=T2, Now cultivation box internal and external temperature is identical, then controls described air door and closes and control described refrigeration module and open so that described inside Space cooling is until T1=T0, and the described refrigeration module of rear control is closed；Similar, as T1 ＜ T2 ＜ T0, control described wind Door is opened so that forming exchange air-flow between described inner space and described space outerpace, until T1=T2, controls described wind afterwards Door is closed and is controlled described heating module and opens so that heating up until T1=T0 in described inner space.So, described cultivation box is held Row described quasicompensation pattern time, can make full use of the external world natural temperature regulation cultivation box in temperature, until natural temperature without Method reaches to restart refrigerating/heating during regulation effect, not only makes temperature keep optimal, and has fully saved the energy；Meanwhile, logical Cross the gas introducing space outerpace, in also can making cultivation box, keep preferably CO₂The vital movement of concentration value, beneficially plant.

As T2 ＞ T1 ＞ T0 or T2 ＜ T1 ＜ T0, described cultivation box performs power on mode: concrete, as T2 ＞ T1 ＞ T0 Time, control described air door and close and control described refrigeration module and open so that the cooling of described inner space is until T1=T0；Work as T2 During ＜ T1 ＜ T0, control described air door and close and control described heating module and open so that heating up until T1=in described inner space T0。

The cultivation box of an embodiment of the present invention, by arranging four kinds of different working modes, makes cultivation box according to environment temperature Degree and the difference of internal temperature, accomplish the best adjustment to temperature；And according to environment is different Appropriate application ambient temperature Compensating action, save the energy.

Further, in an embodiment of the present invention, described gas exchange systems also includes blower fan, and described blower fan is arranged At described air intake passage and/or described air-out passage, when described door opening, described control system can control described blower fan Synchronize to open, to increase the flow velocity of the exchange air-flow between described inner space and described space outerpace, accelerate temperature-compensating Rate of change, and keep the temperature uniformity of described inner space.

Further, described control system includes acquisition module, and described acquisition module is for according in described cultivation box Floristics gathers corresponding described preset temperature value T0.

The present invention another embodiment further provides the temperature-controlled process of a kind of described cultivation box, described method includes step Rapid:

The internal temperature T1 of monitoring cultivation box inner space and ambient temperature T2 of cultivation box space outerpace；

Judge the magnitude relationship of described internal temperature T1, described ambient temperature T2 and preset temperature value T0；

According to described magnitude relationship control heating module, refrigeration module, air door opening and closing so that T1=T0.

So, the temperature-controlled process of the cultivation box of an embodiment of the present invention, by internal volume and space outerpace Carry out temperature monitoring respectively, use many-sided regulation and control of heating module, refrigeration module and air door, maintain the air in cultivation box to protect Hold temperature constant and optimal, can be that plant growing provides optimal temperature conditions.

Further, described step " according to described magnitude relationship control heating module, refrigeration module, air door opening and closing with Make T1=T0 " including:

As T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, control described door opening so that described inner space and described outside Exchange air-flow is formed until T1=T0 between space；

As T1 ＞ T2 ＞ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow is until T1=T2, and the described air door of rear control is closed and controlled described refrigeration module and opens so that described inner space drops Temperature is until T1=T0；

As T1 ＜ T2 ＜ T0, control described door opening so that being formed between described inner space and described space outerpace Exchange air-flow until T1=T2, rear control described air door and closes and control the unlatching of described heating module so that described inner space liter Temperature is until T1=T0；

As T2 ＞ T1 ＞ T0, control described air door and close and control described refrigeration module and open so that described inner space Cooling is until T1=T0；

As T2 ＜ T1 ＜ T0, control described air door and close and control described heating module and open so that described inner space Heat up until T1=T0；

As T1=T0, control described heating module, described refrigeration module, described air door are in closed mode.

So, described cultivation box can make full use of the temperature in the natural temperature regulation cultivation box in the external world, and combine and add The refrigeration heating/freeze module of thermal module, not only makes temperature keep optimal, and has fully saved the energy；It addition, by drawing Enter the gas of space outerpace, in also can making cultivation box, keep preferably CO₂The vital movement of concentration value, beneficially plant.

Further, in an embodiment of the present invention, described method also includes:

Whenever described door opening, control described blower fan and synchronize to open.So, it is possible to increase described inner space with described outside The flow velocity of the exchange air-flow between space, portion, accelerates the rate of change of temperature-compensating, and keeps the temperature of described inner space equal One property.

Further, in an embodiment of the present invention, described method further comprises the steps of:

Corresponding preset temperature value T0 is gathered according to the floristics in described cultivation box.

So, different preset temperature value T0 can be gathered according to the floristic difference in described cultivation box, strengthen institute State the versatility of cultivation box.

Compared with prior art, the beneficial effects of the present invention is: by cultivation box inner space and space outerpace are divided Do not carry out temperature monitoring, use many-sided regulation and control of heating module, refrigeration module and air door, maintain the air in cultivation box to keep Temperature constant and optimal, provides optimal temperature conditions for plant growing.

Those listed above detailed description is only for illustrating of the feasibility embodiment of the present invention, and they are also Being not used to limit the scope of the invention, all equivalent implementations or changes made without departing from skill of the present invention spirit all should Within being included in protection scope of the present invention.

Claims (9)

1. a cultivation box, including having the casing of inner space, being arranged on described casing and described internal empty for connecting Between with the air intake passage of casing space outerpace and air-out passage, for air intake passage described in opening and closing and/or described air-out passage Air door, humidity control system and control system, it is characterised in that described humidity control system include for monitor described in First temperature sensor of the internal temperature T1 in space, portion, for monitoring the second temperature of ambient temperature T2 of described space outerpace Sensor, it is arranged in described cultivation box and for heat production so that the heating module that heats up of described inner space and for making Cold so that described inner space cooling refrigeration module；Described control system is for according to described internal temperature T1, described environment Temperature T2 and the magnitude relationship of preset temperature value T0, control described heating module, described refrigeration module, described air door opening and closing with Make T1=T0.

Cultivation box the most according to claim 1, it is characterised in that as T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, described control System processed controls described door opening so that forming exchange air-flow between described inner space and described space outerpace until T1= T0；As T1 ＞ T2 ＞ T0 or T1 ＜ T2 ＜ T0, described control system control described door opening so that described inner space with Form exchange air-flow between described space outerpace, rear control described air door and close and control the unlatching of described refrigeration module so that described Inner space cooling or described heating module open so that heating up until T1=T0 in described inner space；As T2 ＞ T1 ＞ T0 or T2 During ＜ T1 ＜ T0, described control system controls described air door and closes and control the unlatching of described refrigeration module so that described inner space Cooling or described heating module open so that heating up until T1=T0 in described inner space.

Cultivation box the most according to claim 2, it is characterised in that as T1 ＞ T2 ＞ T0 or T1 ＜ T2 ＜ T0, described control System processed controls described door opening so that forming exchange air-flow between described inner space and described space outerpace until T1= T2, the described air door of rear control is closed and is controlled described refrigeration module and opens so that described inner space lowers the temperature or described heating module Open so that heating up until T1=T0 in described inner space.

Cultivation box the most according to claim 1, it is characterised in that described cultivation box also includes being arranged at described air intake passage And/or the blower fan at described air-out passage, described control system controls the unlatching Tong Bu with described air door of described blower fan.

Cultivation box the most according to claim 1, it is characterised in that described control system includes acquisition module, described collection Module is for gathering corresponding described preset temperature value T0 according to the floristics in described cultivation box.

6. the temperature-controlled process of the cultivation box as described in any one of Claims 1 to 5, it is characterised in that described method Including step:

The internal temperature T1 of monitoring cultivation box inner space and ambient temperature T2 of cultivation box space outerpace；

Judge the magnitude relationship of described internal temperature T1, described ambient temperature T2 and preset temperature value T0；

According to described magnitude relationship control heating module, refrigeration module, air door opening and closing so that T1=T0.

The temperature-controlled process of cultivation box the most according to claim 6, it is characterised in that described step " according to described greatly Little relation control heating module, refrigeration module, air door opening and closing so that T1=T0 " including:

As T1 ＞ T0 >=T2 or T1 ＜ T0≤T2, control described door opening so that described inner space and described space outerpace Between form exchange air-flow until T1=T0；

As T1 ＞ T2 ＞ T0, control described door opening so that forming exchange between described inner space and described space outerpace Air-flow, rear control described air door and closes and control described refrigeration module and open so that described inner space lowers the temperature until T1=T0；

As T1 ＜ T2 ＜ T0, control described door opening so that forming exchange between described inner space and described space outerpace Air-flow, rear control described air door and closes and control described heating module and open so that the intensification of described inner space is until T1=T0；

As T2 ＞ T1 ＞ T0, control described air door and close and control the unlatching of described refrigeration module so that described inner space lowers the temperature Until T1=T0；

As T2 ＜ T1 ＜ T0, control described air door and close and control the unlatching of described heating module so that heating up in described inner space Until T1=T0.

The temperature-controlled process of cultivation box the most according to claim 7, it is characterised in that described step is " as T1 ＞ T2 ＞ During T0, controlling described door opening so that forming exchange air-flow between described inner space and described space outerpace, controlling institute afterwards State air door close and control described refrigeration module open so that the cooling of described inner space is until T1=T0 " including:

As T1 ＞ T2 ＞ T0, control described door opening so that forming exchange between described inner space and described space outerpace Air-flow is until T1=T2, and the described air door of rear control is closed and controlled described refrigeration module and opens so that the cooling of described inner space is straight To T1=T0；

Described step " as T1 ＜ T2 ＜ T0, control described door opening so that described inner space and described space outerpace it Between form exchange air-flow, rear control described air door and close and control the unlatching of described heating module so that described inner space heating direct To T1=T0 " including:

As T1 ＜ T2 ＜ T0, control described door opening so that forming exchange between described inner space and described space outerpace Air-flow until T1=T2, rear control described air door and closes and control the unlatching of described heating module so that described inner space heating direct To T1=T0.

The temperature-controlled process of cultivation box the most according to claim 6, it is characterised in that described method further comprises the steps of:

Corresponding preset temperature value T0 is gathered according to the floristics in described cultivation box.