CN202635156U - Growth automatic control system used for industrially cultivated needle mushrooms - Google Patents

Abstract

The utility model relates to the technical field of fungus cultivation device and particularly to a growth automatic control system used for industrially cultivated needle mushrooms. The growth automatic control system used for industrially cultivated needle mushrooms comprises an automatic control system electricity box, wherein the automatic control system electricity box are respectively in control connection with a temperature control system, an illumination control system, a humidity control system, a suppression control system and a ventilation control system. According to the utility model, temperature, illumination, water and air are uniformly arranged in one electricity box to be connected with the device through circuits, and a relay control system is adopted to automatically adjust the temperature, the illumination, the water and the air needed by the needle mushrooms at each stage. Finally, the grown needle mushrooms have the stems in consistent length, mushroom caps in uniform size, compact and round mushroom feet, jade white mushroom color, and fragrant, sweet, crisp and tender edible taste.

Description

A kind of factory culture Asparagus growth robot control system(RCS)

Technical field

The utility model relates to the fungi cultivation equipment technical field, particularly relates to a kind of factory culture Asparagus growth robot control system(RCS).

Background technology

Growth of Flammulina Velutipes is divided into two stages: the last stage is mycelial growth; After-stage is sporophore growth, and whole growth cycle needs about 55 days, and in this process of growth of 55 days, Asparagus is all different to demands such as temperature, light, water, gas every day.In the tradition Asparagus planting process, temperature, light, water, gas all are that workload is large by manual adjustment, complicated operation, and the operator is very arduous again.

Tradition greenhouse cultivation Asparagus, the needed temperature of growing, adopting installs an air-conditioner in the canopy more regulates, and need to enter in the cultivation house when checking temperature and just can see, and personnel repeatedly pass in and out heat insulation effect and can be affected; Many employings of illumination activity Fluorescent lamp bracket, by artificial timing installation and removal, very loaded down with trivial details; Humidity adopts artificial watering or spraying to carry out, and efficient is low, and intensity is large, and space humidity is inhomogeneous; The many employings of the air gravity-flow ventilation of windowing manually, ventilation time needs Artificial Control, bad assurance.

Mostly tradition greenhouse cultivation Asparagus, the required temperature of growing, light, water, gas are that efficient is low, intensity is large, effect is undesirable by artificial implementation and operation in person.Out needle mushroom handle of plantation is different in size, mushroom cap size is uneven, the mushroom pin lax at random, color is delicate not.

Summary of the invention

The purpose of this utility model is to avoid weak point of the prior art and provides a kind of factory culture Asparagus with growing robot control system(RCS), the needed temperature of process of growth, light, water, the gas condition that need over a long period of time manually to go to follow the tracks of at any time Asparagus have been solved, the defective loaded down with trivial details, that intensity is large, efficient is low, of poor benefits of working, can correctly grasp at any time the situation of change of each supplemental characteristic in the golden mushroom plantation process, regulate so that Asparagus can carry out at any time automation by its growing environment that needs.

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

A kind of factory culture Asparagus comprises the robot control system(RCS) electronic box with the growth robot control system(RCS), and described robot control system(RCS) electronic box is control connection temperature control system, illumination control system, moisture control system, inhibitory control system and ventilated control system respectively.

Further, temperature control system comprises temperature controller, and the refrigeration machine and the evaporator that are connected with described temperature controller.

Further, set temperature indicator lamp on the robot control system(RCS) electronic box.

Further, illumination control system comprises light source and the irradiation relay that is connected with described light source.

Further, irradiation indicator lamp and irradiation timer are set on the robot control system(RCS) electronic box.

Further, moisture control system comprises ultrasonic humidifier and the humidification relay that is connected with described ultrasonic humidifier.

Further, humidification indicator lamp and humidification timer are set on the robot control system(RCS) electronic box.

Further, the inhibitory control system comprises inhibition blower fan and the inhibition blower fan relay that is connected with described inhibition blower fan.

Further, ventilated control system comprises fan blower and the new wind relay that is connected with described fan blower.

Further, new wind indicator lamp and new wind timer are set on the robot control system(RCS) electronic box.

The beneficial effects of the utility model:

A kind of factory culture Asparagus of the present utility model growth robot control system(RCS), by with four Unitings such as temperature, light, water, gas in an electronic box, by being connected of circuit and equipment, adopt relay control system automatically to regulate the required temperature of each stage Asparagus, light, water, gas.At last, the needle mushroom handle length that grows out is consistent, mushroom cap size evenly, mushroom pin consolidation rounding, the mushroom look as white as polished jade, eating mouth feel is fragrant and sweet tender and crisp.

Description of drawings

Utilize accompanying drawing that the utility model is described further, but the content in the accompanying drawing does not consist of any restriction of the present utility model.

Fig. 1 is the structural representation that a kind of factory culture Asparagus of the present utility model is used the electronic box of growth robot control system(RCS).

In Fig. 1, include:

1---the robot control system(RCS) electronic box,

2---screen display,

3---temperature indicator,

4---the irradiation timer,

5---the irradiation indicator lamp,

6---the humidification timer,

7---the humidification indicator lamp,

8---the inhibition indicator lamp,

9---inhibition blower fan timer,

10---new wind indicator lamp,

11---new wind timer.

Embodiment

The utility model is described in further detail with the following Examples.

Embodiment 1:

As shown in Figure 1, a kind of factory culture Asparagus described in the utility model growth robot control system(RCS), comprise robot control system(RCS) electronic box 1, robot control system(RCS) electronic box 1 is control connection temperature control system, illumination control system, moisture control system, inhibitory control system and ventilated control system respectively.

Temperature control system comprises temperature controller, refrigeration machine and the evaporator that is connected.Temperature control is automatically to be controlled by electronic box main frame and air-cooler system, and peripheral hardware connects refrigeration machine, evaporator device, and real-time temperature can show at screen display 2.During use, automatically regulate temperature to reach the temperature required condition of different phase Growth of Flammulina Velutipes, set temperature indicator lamp 3 on the robot control system(RCS) electronic box 1 by temperature controller.

Illumination control system comprises light source and the irradiation relay that is connected.Illumination control is by the control of electronic box irradiation system, is connected with mushroom room inner light source.During use, controlled with the automatic or manual pattern by the irradiation relay, irradiation timer 4 arranges the required irradiation time, to reach the required illumination condition of different phase Growth of Flammulina Velutipes, irradiation indicator lamp 5 and irradiation timer 4 is set on the robot control system(RCS) electronic box 1.

Moisture control system comprises ultrasonic humidifier and the humidification relay that is connected, and humidity control is automatically to be controlled by the electronic box humidifying system, the peripheral hardware supersonic humidifier.During use, controlled with the automatic or manual pattern by the humidification relay, humidification timer 6 arranges the required humidification time, to reach different phase Growth of Flammulina Velutipes desired moisture level condition, humidification indicator lamp 7 and humidification timer 6 is set on the robot control system(RCS) electronic box 1.

The inhibitory control system comprises inhibition blower fan and the inhibition blower fan relay that is connected, and humidity control is automatically to be controlled by the electronic box humidifying system, the peripheral hardware supersonic humidifier.During use, controlled with the automatic or manual pattern by the humidification relay, arrange on the robot control system(RCS) electronic box 1 and suppress indicator lamp 8 and suppress blower fan timer 9.

Ventilated control system comprises the fan blower that is connected, new wind relay, and Ventilation Control is automatically to be controlled by the electronic box VMC, the peripheral hardware fan blower.During use, controlled with the automatic or manual pattern by new wind relay, new wind timer 11 arranges the required new wind time, to reach the required oxygen of different phase Growth of Flammulina Velutipes or carbon dioxide conditions, new wind indicator lamp 10 and new wind timer 11 is set on the robot control system(RCS) electronic box 1.

A kind of factory culture Asparagus of the present utility model growth robot control system(RCS), by with four Unitings such as temperature, light, water, gas in an electronic box, by being connected of circuit and equipment, adopt relay control system automatically to regulate the required temperature of each stage Asparagus, light, water, gas.At last, the needle mushroom handle length that grows out is consistent, mushroom cap size evenly, mushroom pin consolidation rounding, the mushroom look as white as polished jade, eating mouth feel is fragrant and sweet tender and crisp.

It should be noted that at last: above only is preferred embodiment of the present utility model, be not limited to the utility model, although with reference to embodiment the utility model is had been described in detail, for a person skilled in the art, it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. a factory culture Asparagus is with the growth robot control system(RCS), it is characterized in that, comprise the robot control system(RCS) electronic box, described robot control system(RCS) electronic box is control connection temperature control system, illumination control system, moisture control system, inhibitory control system and ventilated control system respectively.

2. a kind of factory culture Asparagus according to claim 1 is characterized in that with the growth robot control system(RCS), and described temperature control system comprises temperature controller, and the refrigeration machine and the evaporator that are connected with described temperature controller.

3. a kind of factory culture Asparagus according to claim 2 is characterized in that set temperature indicator lamp on the described robot control system(RCS) electronic box with the growth robot control system(RCS).

4. a kind of factory culture Asparagus according to claim 1 is characterized in that with the growth robot control system(RCS), and described illumination control system comprises light source and the irradiation relay that is connected with described light source.

5. a kind of factory culture Asparagus according to claim 4 is characterized in that with the growth robot control system(RCS), and irradiation indicator lamp and irradiation timer are set on the described robot control system(RCS) electronic box.

6. a kind of factory culture Asparagus according to claim 1 is characterized in that with the growth robot control system(RCS), and described moisture control system comprises ultrasonic humidifier and the humidification relay that is connected with described ultrasonic humidifier.

7. a kind of factory culture Asparagus according to claim 6 is characterized in that with the growth robot control system(RCS), and humidification indicator lamp and humidification timer are set on the described robot control system(RCS) electronic box.

8. a kind of factory culture Asparagus according to claim 1 is characterized in that with the growth robot control system(RCS), and described inhibitory control system comprises and suppresses blower fan and the inhibition blower fan relay that is connected with described inhibition blower fan.

9. a kind of factory culture Asparagus according to claim 1 is characterized in that with the growth robot control system(RCS), and described ventilated control system comprises fan blower and the new wind relay that is connected with described fan blower.

10. a kind of factory culture Asparagus according to claim 9 is characterized in that with the growth robot control system(RCS), and new wind indicator lamp and new wind timer are set on the described robot control system(RCS) electronic box.

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