WO2011085592A1 - Energy-saving culture room for fungus - Google Patents

Abstract

An energy-saving culture room for fungus includes a culture room (1) for cultivating fungus. Shelves (2) for fungus cultivation are mounted in the culture room. A temperature adjustment device and a ventilation device (3) are mounted in the culture room. The culture room not only can efficiently decrease diseases and insect pests generated during the fungus cultivation procedure therefore decreasing the use of pesticides, but also make the best use of renewable energy sources therefore is energy-saving and environment-friendly.

Description

 Fungus energy-saving culture room

Technical field

 The invention relates to a fungus cultivation room, in particular to a fungus energy-saving culture room capable of reducing pesticide use and energy saving. Background technique

 Gutian County, Fujian Province is a well-known Chinese and foreign "hometown of edible fungi". In the 1995 and 1997 bienniums, it was awarded the honorary title of "Hometown of Edible Fungi" by the Development Center of the State Council and the Ministry of Agriculture. The total annual output of edible fungi is 340,000 tons of fresh products, ranking first in the country, among which silver fungus accounts for 50% (production and sales rank first in the world), shiitake mushrooms account for 25%, and other fungi account for 25%. Gutian County shiitake mushroom, bamboo stalk and white fungus won the gold medal of the first and second China Agricultural Expo. In 1999, "Gutian Tremella" was recognized as a famous brand product by the 99 China International Agricultural Expo. In 2000, it was awarded as a famous brand agricultural product by the Fujian Provincial Government.

At present, Gutian County mostly uses the original thatch scaffold for the cultivation of edible fungi. This cultivation method is not only unsanitary, but also because the cultivation room is not sealed, although it can meet the ventilation requirements of the edible fungus during the growth process, it is not conducive to pest control. Especially in the growth process of Tremella, the "Aphid" will produce eggs in the ears of Tremella. When the larvae hatch, they will feed on the white fungus, causing the white fungus to rot and cause losses. In order to kill pests, farmers have to spray a large amount of pesticides, which leads to excessive levels of highly toxic pesticides in the white fungus. On the one hand, it affects the further deep processing of the white fungus, and also affects the export of products, which creates a huge economy for farmers. Damaged content The object of the present invention is to provide a fungus energy-saving culture room, which not only can effectively reduce the pests and diseases generated by the fungus in the cultivation process, reduce the use of pesticides, but also fully utilizes renewable energy, saves energy and protects the environment, and has high Practicality and economic promotion value.

 The technical solution of the present invention is: a fungus energy-saving culture room, comprising a culture room for cultivating fungi, characterized in that: the culture room is provided with a fungus culture shelf, and the culture room is further provided with a temperature adjustment device. And ventilation.

 The invention has the advantages that: 1. The invention adopts biogas and solar energy to raise the temperature in the culture chamber, not only solves the problem of environmental pollution inside and outside the cultivation, but also does not generate pollutants, can fully utilize resources, and is energy-saving, environmentally-friendly and efficient.

 2. The culture room is provided with a number of tempered glass exterior walls or roofs. The tempered glass is coated with thin-film solar cell modules, and small outdoor solar power generation equipment can be installed outside the culture room to generate electricity by absorbing light energy; or using biogas to generate electricity. This will drive the air conditioning in the room to adjust the temperature, make full use of natural green energy, and have no pollution to the environment.

 3. There are 3 insect-proof and disinfection sterilization doors at each end of the culture room. The person entering the culture room needs to be disinfected and sterilized, which can effectively prevent the introduction or entry of pests and diseases during the cultivation of edible fungi, and ensure that the pesticides are not used in the culture process. Therefore, the problem of excessive pesticide residues in edible fungi is solved.

 4. The culture room is equipped with temperature and humidity monitoring devices, which can monitor the temperature and humidity in the culture room from time to time to ensure that the edible fungi grow under suitable conditions. DRAWINGS

Figure 1 is a schematic view of the structure of the present invention. detailed description

 The present invention includes a culture room 1 for cultivating a fungus, characterized in that: the culture room is provided with a fungus culture shelf 2, and the culture room is further provided with a temperature adjustment device and a ventilation device 3.

 The temperature regulating device is a heating and cooling air conditioner 4, which is powered by an energy supply device disposed in the energy saving culture chamber, which is a solar power generating device or a biogas power generating device or directly connected to the power grid.

During the growth cycle of fungi, temperature is one of the main influencing factors. For example, in Tremella cultivation, the temperature should be maintained at 25~27 °C, if it is lower than 23 °C or higher than 30 °. C is hyphae unable to grow, or even die; when the hyphae mass production period is reached, the temperature should be reduced to 23~25 °C _; to the ear stage temperature should be controlled at 2 (T25 °C, in order to ensure high-speed health of the white fungus In the present invention, the solar power generation device or the biogas power generation device is used to supply the heating and cooling air conditioner in the cultivation room. If the power is insufficient, the power supply can be directly used by the power grid to achieve convenient and accurate temperature adjustment, and ensure that the fungus grows at the optimum temperature. To increase production.

 The temperature regulating device is a heat exchanger 5 connected to the heating device, and a blower 6 is disposed beside the heat exchanger for raising the temperature in the culture chamber, and the heating device is a solar water heater 7 or a biogas boiler 8 Or an air-powered water heater with low power consumption.

At present, the edible fungus culture medium in Gutian County is mostly built in mountainous or hilly areas, and the summer temperature can still meet the growth needs of edible fungi, and the temperature in winter is lowered, and the power consumption of the air conditioner alone is large, so the present invention The heating room is equipped with heating equipment. The solar water heater or the biogas heating boiler is used to heat the hot water heated by the boiler during the circulation process. The hot air is blown into the culture chamber through the radiator and the blower, thereby increasing the temperature of the culture chamber. At present, the vast rural biogas digesters 10 are almost common equipments for households. On the other hand, the remaining culture medium after fungal harvesting, or broken edible fungi, can be used to generate biogas, which can be used to generate biogas. Use can save energy and protect the environment.

 The cultivating chamber is provided with one or more transparent shells, and the transparent shell is provided with a visor 11 for shielding light. The transparent shell is made of tempered glass, and the tempered glass is coated with a thin film solar cell module 12, when the fungus The visor is lowered at a stage where it is desired to be protected from light to shield the sunlight, while the solar thin film battery assembly is not hindered from absorbing light energy.

 The solar power supply or heating device used in the present invention can adopt conventional single crystal silicon or polycrystalline silicon panel for photoelectric energy conversion, and can also adopt a novel solar thin film battery assembly.

 In order to constantly monitor the temperature and humidity in the culture room, the temperature is raised or lowered, humidified or dehumidified, thereby creating an environment suitable for the growth of edible fungi, and the temperature and humidity monitoring device 13 is provided in the culture chamber.

 In order to prevent the pests or bacteria from entering the culture room during the process of entering and leaving the culture room, the bacteria are contaminated or infected with pests and diseases, and the two sides of the culture chamber are respectively provided with a plurality of insect control and sterilization sterilization doors 14 .

 The above are only the preferred embodiments of the present invention, and all changes and modifications made by the scope of the present invention should be construed as the scope of the present invention.

Claims

Claim

 A fungus energy-saving culture chamber comprising a culture room for cultivating fungi, characterized in that: the culture room is provided with a fungus culture shelf, and the culture room is further provided with a temperature adjustment device and a ventilation device.

 The fungal energy-saving culture chamber according to claim 1, wherein the temperature adjusting device is a heating and cooling air conditioner, which is powered by an energy-supplied device provided in the energy-saving culture chamber.

 3. The fungal energy-saving culture chamber according to claim 2, wherein the energy supply device is a solar power generation device or a biogas power generation device or directly connected to the power grid.

 4. The fungus energy-saving culture chamber according to claim 1, wherein: the temperature adjusting device is a heat exchanger connected to the heating device, and a blower is disposed beside the heat exchanger for lifting the culture chamber temperature.

 The fungus energy-saving culture room according to claim 4, wherein the heating device is a solar water heater or a biogas boiler or an air energy water heater with low power consumption.

 6. The fungal energy-saving culture chamber according to claim 1, wherein the culture chamber is provided with one or more transparent shells, and the transparent shell is provided with a light shielding plate.

 The fungal energy-saving culture chamber according to claim 6, wherein the transparent outer casing is made of tempered glass, and the tempered glass is plated with a thin film solar cell module.

 8. The fungal energy-saving culture chamber according to claim 1, wherein: the culture chamber is provided with a temperature and humidity monitoring device.

 9. The fungus energy-saving culture chamber according to claim 1, wherein: the two sides of the culture chamber are respectively provided with a plurality of insect-proof and disinfection sterilization doors.