JP2007044034A - Hybrid bio-chip - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hybrid bio-chip utilizing a chip material such as a white cedar, a Japan cedar or a bamboo and widely utilizable for an activator for plants, etc., a deodorizer for barns, a disease prophylactic agent for fruits, etc., a sewage purifying agent, etc. <P>SOLUTION: The hybrid bio-chip 1 is formed by inoculating the chip material 8 such as the white cedar, Japan cedar or bamboo with bio-bacteria, introducing a culture material thereinto and injecting a nutriment for the bio-bacteria. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a hybrid biochip which is effective for active agents such as plants and disease prevention, soil conditioner, deodorization of livestock products, purification of sewage and the like and is relatively easy to manufacture.

Conventionally, there are various types of biochips formed by injecting biobacteria into chips such as wood as activators, sewage purification agents, and odor prevention purification agents. Such a thing is mentioned.
JP 2000-128680 A (Claim 1)

  The above-mentioned “Patent Document 1”, “JP 2000-128680”, “Invention of a New Long Life and Odorless Bacteria Bed of Garbage Disposer”, this bio fungus, wood chip and rice husk are mixed and watered, It is an invention to make a kind of fungus bed that is formed by heating and then stirring to form something similar to the present invention in that it uses wood or bio fungi, It is not suitable for a wide range of uses, such as plant bioactive agents, soil improvers, deodorizers, and sewage purification agents, as in the case of hybrid biochips in the past, and is always kept sealed and used only when necessary, handling However, it is not something that can be active for a long time. Moreover, as a conventional biochip, as in the present invention, there is no biochip that is easy to handle and is effective in various directions and relatively easy to manufacture.

  The present invention has been invented in view of the above circumstances, and an object thereof is to provide a hybrid biochip that is easy to manufacture and is used as a wide range of purifier improvers and deodorizers.

  In order to achieve the above object, the present invention is characterized in that a biofungus is planted on a bamboo chip, cedar, and bamboo chip, and a culture agent necessary for high concentration growth and spores of the fungus is injected therein. In addition, it is formed by injecting fungal nutrients, and is sealed when not in use.

  The invention of claim 2 is characterized in that the culture agent is silicic acid or calcium.

  The invention of claim 3 is characterized in that the nutrient is an amino acid solution.

  According to the hybrid biochip of claim 1 of the present invention, the hybrid biochip of the present invention uses raw materials such as persimmon, cedar, bamboo, etc., which are relatively easily available, and is effective for biobacteria and fungus culture and nutrients. It is made by adding various materials, and it is stored in a sealed state after completion. It is effective against bacteria and strong, and can be stored for a long time because it is used only when used.

  Moreover, according to the hybrid biochip of claim 2 of the present invention, the culture agent is relatively easily available and can be implemented at low cost.

  In addition, according to the hybrid biochip of claim 3 of the present invention, an easily available nutrient is used, which can be implemented at a relatively low cost.

Hereinafter, embodiments of the hybrid biochip of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic diagram showing a storage state of a finished hybrid biochip 1. The finished hybrid biochip 1 is enclosed in a bag 2 and stored in a sealed state. In this state, the bacterium is in a dormant state, and the bacterium is active only after opening. The activity period is about 10 months.

FIG. 2 shows a schematic structure of a manufacturing apparatus for making the hybrid biochip 1 of the present invention.
The biochip manufacturing apparatus 100 includes a culture tank 3, a stirring tank 4, an air supply source 5, a circulation pump 6, and the like. In addition, an opening / closing valve is appropriately provided in the pipe body connecting these elements.

  In FIG. 2, the culture tank 3 is a box, an aerobic tank 3 a is formed on the upper side, an anaerobic tank 3 b is formed on the lower side, and these are partitioned by a filter 7. Both tanks 3a and 3b are filled with chip materials 8 such as straw, cedar and bamboo. Air from the air supply source 5 is introduced into the aerobic tank 3a.

  On the other hand, biobacteria and an amino acid solution are injected into the stirring tank 4 and air from the air supply source 5 is supplied. Further, the agitation tank 4 incorporates a stirring means (not shown). The stirring tank 4 and the culture tank 3 are connected via an on-off valve 13.

  The circulation pump 6 is connected to the culture tank 3 through on-off valves 9, 10, 11, and 12 to supply water into the aerobic tank 3a and the anaerobic tank 3b.

  By operating the biochip manufacturing apparatus 100 described above, the hybrid biochip 1 of the present invention is manufactured in the culture tank 3 and sealed in the bag 2 shown in FIG.

  Next, the manufacturing method of the hybrid biochip 1 of the present invention will be described with reference to the flowchart of FIG. First, the chip material 8 such as firewood, cedar and bamboo is dried to a moisture content of 30% or less (step 100). Next, this chip material is put into the culture tank 3 (step 101). Water is poured into the culture tank 3 to such an extent that the chip material 8 is immersed in water (step 102). A small amount of air is sent to the aerobic tank 3a divided into upper and lower parts (step 103). In this state, the circulation pump 6 is operated to circulate and supply an appropriate amount of water (step 104). The water temperature should not be 10 ° C or lower. In this state, curing is performed for about 10 days (step 105), and the planting of the fungus is completed (step 106). The treated chip material 8 is taken out from the culture tank 3 and filled in the bag 2, sealed at room temperature, and put into a dormant state (step 107). Thus, the manufacture of the hybrid biochip 1 is completed. When the hybrid biochip 1 is used, the hybrid biochip 1 is taken out from the bag and supplied to the target object. As described above, the activity survival time of the hybrid biochip 1 is about 10 months.

  Next, the use of the hybrid biochip 1 manufactured by the above process will be described. First, it is used as an active agent for plants and vegetables, and its usage is almost the same as fertilizer. It is also used as a soil conditioner and enables continuous cropping. Moreover, it is used as a deodorizer for livestock products, and is used, for example, in a livestock barn. Moreover, it is utilized as a sewage purification agent, and by passing the sewage through the hybrid biochip 1, nitrogen, phosphorus, etc. can be reduced and the sewage can be made purified water below the river discharge standard value. It is also used as an agent for preventing plant diseases. Specifically, the hybrid biochip 1 may be buried around the plant. It is also used as an activator for planting parks and roads, and for preventing diseases of fruit trees such as pears, apples, peaches, and grapes. Further, as described above, the sewage purification action has an effect of removing nitrogen, phosphorus, etc., and it becomes possible to purify below the river discharge standard value.

Industrial application fields

  Although the hybrid biochip of the present invention can be used in various directions as described above, it can also be applied to the other directions described above and has a wide range of uses.

The schematic diagram which shows the form at the time of distribution | circulation of the hybrid biochip of this invention. The block diagram which shows schematic structure of the manufacturing apparatus of the hybrid biochip of this invention. The flowchart for demonstrating the manufacturing method of the hybrid biochip of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hybrid biochip 2 Bag 3 Culture tank 3a Aerobic tank 3b Anaerobic tank 4 Stirring tank 5 Air supply source 6 Circulating pump 7 Filter 8 Chip material 9 Open / close valve 10 Open / close valve 11 Open / close valve 12 Open / close valve 13 Open / close valve 100 Manufacturing apparatus

Claims (3)

  It is formed by planting bio-fungi on wood, cedar and bamboo chips, injecting the culture medium necessary for high-growth and spore growth of the fungus, and injecting the nutrients of the fungus. A hybrid biochip characterized by being made.   The hybrid biochip according to claim 1, wherein the culture agent is silicic acid or calcium. The hybrid biochip according to claim 1, wherein the nutrient is an amino acid solution.

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