CN106348801A - Preparing method of bio-fertilizer - Google Patents

Abstract

A method for preparing a bio-fertilizer comprises the steps of: collecting compost raw materials; pulverizing compost raw materials and remove impurities; mixing compost raw materials; adding the composting strain solution into compost raw materials; fermenting compost raw materials jointly and composting compost raw materials to obtain the bio-fertilizer.The preparing method of the above-mentioned bio-fertilizer can be used to prepare and yield a bio-fertilizer with high cleanliness.

Description

The preparation method of bio-fertilizer

Technical field

The present invention relates to fertilizer preparing technical field, more particularly to a kind of preparation method of bio-fertilizer.

Background technology

China, as a large agricultural country, becomes increasingly dependent on the use of chemical fertilizer at present, however, life-time service chemical fertilizer can bring Problems, for example, can lead to the physicochemical property of soil drastically to deteriorate, nutritional disorder, and the content of organic matter is fewer and feweri etc..

For the problems referred to above, apply bio-fertilizer using to agricultural land, can preferably solve the above problems, however, passing The bio-fertilizer of system, especially farm manure, the bio-fertilizer prepared using methods such as compost natural fermentations is it is more difficult to effective removal is wherein posted Infested worm's ovum and pathogenic microorganism etc., this leads to traditional bio-fertilizer cleannes relatively low, either in fertilizing operation still During plucking edible crops, all easily the health of human body is produced and threaten.

Content of the invention

Based on this it is necessary to provide a kind of preparation method that can prepare the higher bio-fertilizer of cleannes.

A kind of preparation method of bio-fertilizer, comprises the steps:

Collect composting material；

Pulverizing is carried out to described composting material and removes Slag treatment；

Mix and blend process is carried out to described composting material；

Compost strain liquid is added in described composting material；

Combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer.

Wherein in an embodiment, described compost strain liquid includes bacillus polymyxa and water.

Wherein in an embodiment, described compost strain liquid also includes Bacillus licheniformis.

Wherein in an embodiment, described compost strain liquid also includes bacillus thuringiensiss.

Wherein in an embodiment, the mass ratio of described compost strain liquid and described composting material be 1:(280～ 350).

Wherein in an embodiment, the mass ratio of described compost strain liquid and described composting material be 1:(300～ 320).

Wherein in an embodiment, described compost strain liquid is 1:315 with the mass ratio of described composting material.

The preparation method of above-mentioned bio-fertilizer is as follows: collects composting material；Described composting material is pulverized Remove Slag treatment；Mix and blend process is carried out to described composting material；Compost strain liquid is added in described composting material；To described Composting material carries out combined ferment compost treatment, obtains bio-fertilizer, can prepare the higher bio-fertilizer of cleannes.

Brief description

Fig. 1 is the flow chart of steps of the preparation method of the bio-fertilizer of an embodiment；

Fig. 2 is the flow chart of steps of the preparation method of the bio-fertilizer of another embodiment.

Specific embodiment

Understandable for enabling the above objects, features and advantages of the present invention to become apparent from, below in conjunction with the accompanying drawings to the present invention Specific embodiment be described in detail.Elaborate a lot of details in order to fully understand this in the following description Bright.But the present invention can be much to implement different from alternate manner described here, and those skilled in the art can be not Similar improvement is done, therefore the present invention is not embodied as being limited by following public in the case of running counter to intension of the present invention.

For example, refer to Fig. 1, a kind of preparation method of bio-fertilizer, comprise the steps: to collect composting material；To described Composting material carries out pulverizing and removes Slag treatment；Mix and blend process is carried out to described composting material；Add in described composting material Compost strain liquid；Combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer.

For example, the preparation method of the bio-fertilizer of another embodiment, comprises the steps: to collect composting material；To described Composting material carries out pulverizing and removes Slag treatment；Mix and blend process is carried out to described composting material；Add in described composting material Compost strain liquid；Assisted stack solution is added in described composting material；Combined ferment compost treatment is carried out to described composting material, Obtain bio-fertilizer；Under air-proof condition, described bio-fertilizer is stirred operating, and to institute during described stirring operation State bio-fertilizer and be passed through ozone, carry out sterilization processing and heavy metal ion oxidation processes；Electric current is applied to described bio-fertilizer, carries out depth Degree sterilization processing；There is provided separation net, often one layer of described separation net of laying, one layer of described bio-fertilizer of dispenser on described separation net, Adjacent described in two-layer between separation net for making the described bio-fertilizer of each layer be located at.

For example, the preparation method of the bio-fertilizer of another embodiment, comprises the steps: s110: collect composting material； S120: pulverizing is carried out to described composting material and removes Slag treatment；S130: mixing is carried out to the described composting material pulverized after removing slag and stirs Mix process；S140: add compost strain liquid in the described composting material after mix and blend；S150: in described composting material Add assisted stack solution；S160: combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer；S170: in sealing Under the conditions of, described bio-fertilizer is stirred operating, and is passed through ozone to described bio-fertilizer during described stirring operation, Carry out sterilization processing and heavy metal ion oxidation processes；S180: the described bio-fertilizer after ozone is processed applies electric current, carries out depth Degree sterilization processing；S190: separation net is provided, often lays one layer of described separation net, one layer of described life of dispenser on described separation net Thing is fertile, adjacent described in two-layer between separation net for making the described bio-fertilizer of each layer be located at.

In order to further illustrate the preparation method of above-mentioned bio-fertilizer, for example, refer to Fig. 2, an embodiment of the present invention The preparation method of bio-fertilizer, comprises the steps:

S110: collect composting material.

In order to reduce the potential safety hazard of bio-fertilizer, and improve its cleannes that is to say, that reduce bio-fertilizer in parasitic ovum, The content of pathogenic microorganism, by collecting composting material, controls the quality of composting material, to reduce the potential safety hazard of bio-fertilizer, And improve its cleannes.Meanwhile, the impact to biological fat power for the collection of composting material is also particularly important.

It is appreciated that the species of described composting material and composition for the bio-fertilizer subsequently preparing nutritional profile and Application purpose is even more important, in order to improve the quality of described composting material, for example, by being carried out subsequently using compound composting material Compost treatment, obtain that there is efficient fertility, and the bio-fertilizer of purposes more extensive organic trait, described compound composting material Including the first composting material, the second composting material and the 3rd composting material, will be former to described first composting material, described second compost Material and described 3rd composting material can get described compound composting material after carrying out compounding.It is to be particularly noted that it is described Composting material is not limited to using compound composting material, and certainly, described composting material can also merely adopt described first The composting material that composting material, described second composting material or described 3rd composting material use as follow-up compost.

In order to lift fertility and the quality of the described bio-fertilizer subsequently preparing, for example, described first composting material bag Include following component: Folium Bambusae, dry silkworm faeces, dried poultrymanure, plant ash, straw, cotton seed hullss, corn stalk, soil, brown sugar, rapeseed cake and water.

By selecting Folium Bambusae, the Folium Bambusae that drops in a large amount of bamboo groves can be turned waste into wealth, reduces cost, by selecting bamboo Leaf, straw, cotton seed hullss and corn stalk compound and carry out as the first composting material, and cost is lower, the bio-fertilizer subsequently preparing Nutrition be more beneficial for plant absorption, especially, be more beneficial for absorption and the growth of wheat seedling, additionally, cotton seed hullss contain 5% ～8% crude protein, with Folium Bambusae, straw, corn stalk together as the first composting material, when can significantly shorten follow-up compost Between.And pass through to add brown sugar, rapeseed cake, it is more beneficial for the growth of follow-up compost microbe, the nutrition enabling in compost becomes Divide and fully discharge.By adding soil, brown sugar, rapeseed cake, it is more beneficial for optimum ecological structure in follow-up cultivating soil, Follow-up compost microbe is made to be more conducive to improve follow-up cultivating soil.And pass through from dry silkworm faeces and dried poultrymanure, due to dry silkworm , after drying process, pathogenic microorganism therein and parasitic ovum are almost killed, and significantly reduce bio-fertilizer for excrement, dried poultrymanure Middle residual worm's ovum and the potential safety hazard of pathogenic microorganism.And pass through to add plant ash, the ph in follow-up compost environment can be stablized, It is more beneficial for reducing the residual quantity of pathogenic microorganism and parasitic ovum in the bio-fertilizer subsequently preparing.

By described first composting material from said components, can reduces cost, make the biology subsequently preparing Fertile nutrition is more beneficial for plant absorption, especially, is more beneficial for absorption and the growth of wheat seedling, can significantly shorten follow-up The compost time, be conducive to the growth of follow-up compost microbe, the nutritional labeling enabling in compost fully discharges, with And it is more beneficial for optimum ecological structure in follow-up cultivating soil, make follow-up compost microbe be more conducive to improve follow-up cultivation Soil is additionally it is possible to be greatly reduced the potential safety hazard of residual worm's ovum and pathogenic microorganism in bio-fertilizer.

So that the nutrition in the bio-fertilizer subsequently preparing more equalizes, for example, described first composting material contains Each component of following mass parts: 200 parts～350 parts of Folium Bambusae, 20 parts～36 parts of dry silkworm faeces, 15 parts～44 parts of dried poultrymanure, plant ash 20 parts～30 parts, 40 parts～50 parts of straw, 15 parts～25 parts of cotton seed hullss, 30 parts～38 parts of corn stalk, 200 parts～280 parts of soil, 40 parts～80 parts of brown sugar, 45 parts～85 parts of rapeseed cake and 800 parts～1000 parts of water.

By adding described first composting material of above-mentioned mass parts, it is possible to increase the battalion of the bio-fertilizer subsequently preparing Support harmony, more conducively the absorbing and grow up moreover it is possible to shorten the follow-up compost time of wheat seedling, compost effect is good, this Outward, can reduce in follow-up composting process to the pathogenic microorganism of wherein residual and the residual quantity of parasitic ovum.

And for example, described first composting material contains each component of following mass parts: 250 parts～270 parts of Folium Bambusae, dry silkworm faeces 31 Part～34 parts, 25 parts～28 parts of dried poultrymanure, 24 parts～26 parts of plant ash, 42 parts～44 parts of straw, 19 parts～21 parts of cotton seed hullss, jade 32 parts～34 parts of stalk of rice, 240 parts～250 parts of soil, 50 parts～60 parts of brown sugar, 55 parts～60 parts of rapeseed cake and water 850 parts～900 Part.By adding described first composting material of above-mentioned mass parts, can further improve the bio-fertilizer subsequently preparing Nutritional balance, more conducively the absorbing and grow up moreover it is possible to shorten follow-up compost time, compost effect of wheat seedling Good, furthermore it is possible to reduce in follow-up composting process to the pathogenic microorganism of wherein residual and the residual quantity of parasitic ovum.

And for example, described first composting material contains each component of following mass parts: 260 parts of Folium Bambusae, 32 parts of dry silkworm faeces, dry chicken 26 parts of excrement, 25 parts of plant ash, 43 parts of straw, 20 parts of cotton seed hullss, 33 parts of corn stalk, 245 parts of soil, 52 parts of brown sugar, rapeseed cake 57 Part and 870 parts of water.By adding described first composting material of above-mentioned mass parts, can further improve and subsequently prepare Bio-fertilizer nutritional balance, more conducively the absorbing and grow up moreover it is possible to shorten follow-up compost time, heap fertilizer efficiency of plant Really good, furthermore it is possible to reduce in follow-up composting process to the pathogenic microorganism of wherein residual and the residual quantity of parasitic ovum.

In order that the quality of described bio-fertilizer subsequently preparing and fertility, and it is made to be more conducive to the suction of legume Receive, for example, described second composting material contains following component: Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf, peanut stem leaf, Folium Musae, phragmites communiss, Dry cow dung, dry pig manure, soil, brown sugar, bean cake, plant ash and water.

By adding Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf, tradition can be given up the Semen Glyciness stem and leaf falling, Semen phaseoli radiati stem and leaf makes full use of Get up, provide legume more absorbent nutrition, the trophophase of legume can be shortened.By adding peanut stem leaf, energy The follow-up compost time enough making Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf shortens, and compost effect is more preferable.By adding Folium Musae, can make The compost time of Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf and peanut stem leaf shortens further.And pass through to add phragmites communiss, can drop further Low cost, and together with Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf, peanut stem leaf, Folium Musae during compost, nutrition can discharge more abundant. By from dry cow dung, dry pig manure, because cattle manure, pig manure are after drying, pathogenic microorganism therein and parasitic ovum remain Amount is greatly decreased, and reduces the potential safety hazard of the bio-fertilizer subsequently preparing.Additionally, by adding brown sugar, bean cake, more favorably In follow-up compost operation.By adding soil, plant ash, it is more beneficial for optimum ecological structure in follow-up cultivating soil, makes Follow-up compost microbe is more conducive to improve follow-up cultivating soil.Additionally, by adding plant ash, follow-up compost can be stablized Ph in environment, is more beneficial for reducing the residual quantity of pathogenic microorganism and parasitic ovum in the bio-fertilizer subsequently preparing.

By adding described second composting material of said components, tradition can be given up the Semen Glyciness stem and leaf falling, Semen phaseoli radiati stem Leaf fully utilizes, and provides legume more absorbent nutrition, can shorten the trophophase of legume, can be further Reduces cost, can make the follow-up compost time shorten, and compost effect is more preferably, nutrition can be made to discharge more abundant, can subtract The potential safety hazard of the low bio-fertilizer subsequently preparing, can be conducive to optimum ecological structure in follow-up cultivating soil, after making Continuous compost microbe is more conducive to improve follow-up cultivating soil.

In order that the bio-fertilizer fertility subsequently preparing more equalizes, it is more beneficial for the growth of legume, for example, described Second composting material contains each component of following mass parts: 40 parts～60 parts of Semen Glyciness stem and leaf, 35 parts～55 parts of Semen phaseoli radiati stem and leaf, Semen arachidis hypogaeae 25 parts～40 parts of stem and leaf, 15 parts～20 parts of Folium Musae, 40 parts～50 parts of phragmites communiss, 20 parts～30 parts of dry cow dung, 25 parts of dry pig manure～ 35 parts, 140 parts～160 parts of soil, 30 parts～60 parts of brown sugar, 40 parts～65 parts of bean cake, 15 parts～28 parts of plant ash and 700 parts of water ～800 parts, by adding described second composting material of above-mentioned mass parts, the bio-fertilizer fertility subsequently preparing can be made more Equilibrium, is more beneficial for the growth of legume, the follow-up compost time can be made to shorten, and compost effect is more preferably, can make nutrition Discharge more abundant, the potential safety hazard of the bio-fertilizer subsequently preparing can be lowered, can be conducive in follow-up cultivating soil Optimum ecological structure, makes follow-up compost microbe be more conducive to improve follow-up cultivating soil.

And for example, described second composting material contains each component of following mass parts: 55 parts～58 parts of Semen Glyciness stem and leaf, Semen phaseoli radiati stem 45 parts～50 parts of leaf, 32 parts～35 parts of peanut stem leaf, 17 parts～19 parts of Folium Musae, 44 parts～47 parts of phragmites communiss, 24 parts of dry cow dung～ 28 parts, 29 parts～31 parts of dry pig manure, 150 parts～152 parts of soil, 45 parts～50 parts of brown sugar, 55 parts～60 parts of bean cake, plant ash 20 Part～24 parts and 750 parts～780 parts of water, by adding described second composting material of above-mentioned mass parts, can further make The bio-fertilizer fertility subsequently preparing more equalizes, and is more beneficial for the growth of legume, and the follow-up compost time can be made to shorten, And compost effect is more preferably, nutrition can be made to discharge more abundant, can lower the potential safety hazard of the bio-fertilizer subsequently preparing, Optimum ecological structure in follow-up cultivating soil can be conducive to, make follow-up compost microbe be more conducive to improve follow-up cultivation Soil.

And for example, described second composting material contains each component of following mass parts: 57 parts of Semen Glyciness stem and leaf, Semen phaseoli radiati stem and leaf 48 Part, 33 parts of peanut stem leaf, 18 parts of Folium Musae, 45 parts of phragmites communiss, 26 parts of dry cow dung, 30 parts of dry pig manure, 151 parts of soil, 48 parts of brown sugar, 57 parts of bean cake, 22 parts of plant ash and 765 parts of water, by adding described second composting material of above-mentioned mass parts, can be further So that the bio-fertilizer fertility subsequently preparing more is equalized, be more beneficial for the growth of legume, the follow-up compost time can be made Shorten, and compost effect is more preferably, nutrition can be made to discharge more abundant, can lower the safety of the bio-fertilizer subsequently preparing Hidden danger, can be conducive to optimum ecological structure in follow-up cultivating soil, make follow-up compost microbe be more conducive to improve subsequently Cultivating soil.

In order that the bio-fertilizer subsequently preparing makes the quality of described bio-fertilizer subsequently preparing and fertility, and make It is more conducive to the absorption of fruit tree, and improves the fertility of bio-fertilizer subsequently preparing, and for example, described 3rd composting material contains There is following component: wood flour, apple leaf, leaf of pear tree, Semen Juglandiss leaveves leaf, Qinggang leaveves, barnyard grass, parthenocissuss, Citrus leaf, dry sheep Excrement, dry silkworm faeces, bean dregs, plant ash, brown sugar, soil and water.

By adding wood flour, it is possible to increase recycling so as to be converted to the humic that fruit tree is easier to absorb to wood flour Soil, by adding apple leaf, leaf of pear tree, Semen Juglandiss leaveves leaf, the growth that can make fruit tree is more preferably moreover it is possible to accelerate wood flour to be transformed into Become fertile soil, and add Qinggang leaveves, compost cost can be reduced, and the 3rd composting material is easy to get, by adding barnyard grass, energy Enough shorten wood flour, apple leaf, leaf of pear tree, Semen Juglandiss leaveves leaf, the follow-up compost time of Qinggang leaveves so that fertility is more preferable.Logical Cross addition parthenocissuss, Citrus leaf, wood flour, apple leaf, leaf of pear tree, Semen Juglandiss leaveves leaf, Qinggang leaveves, barnyard grass can be reduced follow-up Foul smell during compost is additionally it is possible to further lift the fertility of the bio-fertilizer subsequently preparing.By from dry sheep manure, dry Silkworm faeces, because sheep stool, silkworm faeces are after drying, pathogenic microorganism therein and parasitic ovum mortality, reduce follow-up system The potential safety hazard of the standby bio-fertilizer obtaining.Additionally, by adding bean dregs, brown sugar so that follow-up wood flour, apple leaf, pear tree Leaf, Semen Juglandiss leaveves leaf, Qinggang leaveves, barnyard grass, parthenocissuss, Citrus leaf, dry sheep manure, dry silkworm faeces compost effect more preferably, can contract The short compost time.Especially, the microorganism containing in rotten bean dregs has facilitation to compost effect so that follow-up prepare The absorption of the more favourable fruit tree of bio-fertilizer obtaining and utilization.And pass through to add soil, plant ash, so that the holding effect of nutrition is more held Long, be also beneficial to optimum ecological structure in follow-up cultivating soil simultaneously, make follow-up compost microbe be more conducive to improve follow-up Cultivating soil.Additionally, addition plant ash, enable in follow-up composting process, kill most of parasitic ovum, reduce follow-up The potential safety hazard of the bio-fertilizer preparing.

By adding described 3rd composting material of said components, it is possible to increase the recycling to wood flour is so as to change It is easier the fertile soil absorbing for fruit tree, and wood flour can also be accelerated to be transformed into become fertile soil, compost cost can be reduced, can Reduce foul smell during follow-up compost additionally it is possible to further lift the fertility of the bio-fertilizer subsequently preparing, can reduce The potential safety hazard of the bio-fertilizer subsequently preparing, so that compost effect is good, can shorten the compost time so that being subsequently prepared into The absorption of the more favourable fruit tree of bio-fertilizer arrived and utilization, make the holding effect of nutrition more longlasting, are also beneficial to follow-up cultivation soil simultaneously In earth, optimum ecological structure, makes follow-up compost microbe be more conducive to improve follow-up cultivating soil.

In order that the bio-fertilizer fertility subsequently preparing more equalizes, it is more beneficial for the growth of fruit tree, for example, the described 3rd Composting material contains each component of following mass parts: 80 parts～100 parts of wood flour, 40 parts～60 parts of apple leaf, 30 parts of leaf of pear tree ～55 parts, Semen Juglandiss leaveves 25 leaf part～40 part, 60 parts～75 parts of Qinggang leaveves, 35 parts～50 parts of barnyard grass, parthenocissuss 20 parts～40 Part, 33 parts～40 parts of Citrus leaf, 25 parts～35 parts of dry sheep manure, 30 parts～40 parts of dry silkworm faeces, 40 parts～52 parts of bean dregs, plant ash 25 Part～35 parts, 35 parts～50 parts of brown sugar, 110 parts～140 parts of soil and 820 parts～900 parts of water, by adding above-mentioned mass parts Described 3rd composting material, can make the bio-fertilizer fertility subsequently preparing more equalize, be more beneficial for the growth of fruit tree, can Reduce compost cost, foul smell during follow-up compost can be reduced additionally it is possible to further lift the biology subsequently preparing Fertile fertility, can reduce the potential safety hazard of the bio-fertilizer subsequently preparing so that compost effect is good, when can shorten compost Between so that the absorption of the more favourable fruit tree of bio-fertilizer that subsequently prepares and utilization, make the holding effect of nutrition more longlasting, simultaneously Also it is beneficial to optimum ecological structure in follow-up cultivating soil, make follow-up compost microbe be more conducive to improve follow-up cultivation soil Earth.

And for example, described 3rd composting material contains each component of following mass parts: 90 parts～95 parts of wood flour, apple leaf 50 Part～55 parts, 45 parts～50 parts of leaf of pear tree, Semen Juglandiss leaveves 29 leaf part～33 part, 65 parts～68 parts of Qinggang leaveves, 40 parts of barnyard grass～ 45 parts, 26 parts～29 parts of parthenocissuss, 35 parts～38 parts of Citrus leaf, 29 parts～31 parts of dry sheep manure, 35 parts～38 parts of dry silkworm faeces, bean dregs 47 parts～49 parts, 30 parts～33 parts of plant ash, 40 parts～44 parts of brown sugar, 125 parts～129 parts of soil and 840 parts～860 parts of water, By adding described 3rd composting material of above-mentioned mass parts, can further make the bio-fertilizer fertility subsequently preparing more Equilibrium, is more beneficial for the growth of fruit tree, can reduce compost cost, can reduce foul smell during follow-up compost additionally it is possible to enter The fertility of the bio-fertilizer that one step ground lifting subsequently prepares, can reduce the potential safety hazard of the bio-fertilizer subsequently preparing, Make compost effect good, the compost time can be shortened so that the absorption of the more favourable fruit tree of bio-fertilizer that subsequently prepares and profit With making the holding effect of nutrition more longlasting, being also beneficial to optimum ecological structure in follow-up cultivating soil, make follow-up compost simultaneously Microorganism is more conducive to improve follow-up cultivating soil.

And for example, described 3rd composting material contains each component of following mass parts: 92 parts of wood flour, 53 parts of apple leaf, pears 47 parts of leaveves, 31 parts of Semen Juglandiss leaveves, 66 parts of Qinggang leaveves, 43 parts of barnyard grass, 27 parts of parthenocissuss, 36 parts of Citrus leaf, 30 parts of dry sheep manure, 37 parts of dry silkworm faeces, 48 parts of bean dregs, 32 parts of plant ash, 41 parts of brown sugar, 127 parts of soil and 852 parts of water, by adding above-mentioned mass parts Described 3rd composting material, so that the bio-fertilizer fertility subsequently preparing more is equalized, be more beneficial for fruit tree Growth, compost cost can be reduced, foul smell during follow-up compost can be reduced additionally it is possible to further lift follow-up preparation The fertility of the bio-fertilizer obtaining, can reduce the potential safety hazard of the bio-fertilizer subsequently preparing so that compost effect is good, can Shorten the compost time so that the absorption of the more favourable fruit tree of bio-fertilizer that subsequently prepares and utilization, make the holding effect of nutrition More longlasting, also it is beneficial to optimum ecological structure in follow-up cultivating soil, after making follow-up compost microbe be more conducive to improve simultaneously Continuous cultivating soil.

It is further preferred that from described 3rd composting material as the composting material subsequently carrying out compost treatment, It is more suitable for the preparation method of described bio-fertilizer that is to say, that the preparation method of described bio-fertilizer adopts described 3rd compost former Material carries out compost treatment, can obtain the described bio-fertilizer being extremely applicable to fruit tree.

Certainly, in order to improve described bio-fertilizer to the universality of various crops and comprehensive, for example, using described compound Composting material carries out the composting material needed for follow-up compost treatment, and for example, described compound composting material includes following mass parts Each component: 200 parts～350 parts of Folium Bambusae, 50 parts～76 parts of dry silkworm faeces, 15 parts～44 parts of dried poultrymanure, 60 parts～94 parts of plant ash, 40 parts～50 parts of straw, 15 parts～25 parts of cotton seed hullss, 30 parts～38 parts of corn stalk, 450 parts～580 parts of soil, 105 parts of brown sugar～ 190 parts, 45 parts～85 parts of rapeseed cake, 40 parts～60 parts of Semen Glyciness stem and leaf, 35 parts～55 parts of Semen phaseoli radiati stem and leaf, peanut stem leaf 25 parts～40 Part, 15 parts～20 parts of Folium Musae, 40 parts～50 parts of phragmites communiss, 20 parts～30 parts of dry cow dung, 25 parts～35 parts of dry pig manure, 40 parts of bean cake ～65 parts, 80 parts～100 parts of wood flour, 40 parts～60 parts of apple leaf, 30 parts～55 parts of leaf of pear tree, Semen Juglandiss leaveves 25 leaf part～40 Part, 60 parts～75 parts of Qinggang leaveves, 35 parts～50 parts of barnyard grass, 20 parts～40 parts of parthenocissuss, 33 parts～40 parts of Citrus leaf, dry sheep manure 25 parts～35 parts, 40 parts～52 parts of bean dregs and 2320 parts～2700 parts of water, so, after compounding by above-mentioned each component, obtain institute State compound composting material, it is possible to increase described bio-fertilizer to the universality of various crops and comprehensive additionally it is possible to effectively change It is apt to because of the hardening soil problem after fertilizer application.

For example, in described compound composting material, described first composting material, described second composting material and described 3rd heap The mass ratio of fertile raw material is 1:1:1.

S120: pulverizing is carried out to described composting material and removes Slag treatment.

In order to reduce the residual quantity of pathogenic microorganism and parasitic ovum in the bio-fertilizer subsequently preparing, to described compost Raw material carries out pretreatment, and for example, described pretreatment is to smash operation, enables to described composting material and becomes finely ground particle substance, It is convenient to follow-up compost operation so that pathogenic microorganism and parasitic ovum will not be excessive because of material, compost is not thorough and big The problem of width residual.

By carrying out Slag treatment, for example, remove the larger stone of particle-removing, be more beneficial for follow-up compost treatment, obtain More uniform described bio-fertilizer.

S130: mix and blend process is carried out to the described composting material pulverized after removing slag.

Mix and blend process is carried out by the described composting material pulverized after removing slag, can make each in described composting material Component is mixedly more uniform, beneficial to the fermentation uniformity of the combined ferment in follow-up composting process, for because of regional area One or more constituent content is too high, produces the problem of compost diversity.

S140: add compost strain liquid in the described composting material after mix and blend.

In order to further shorten the compost time, lift the fertility of the bio-fertilizer subsequently preparing, by pre- to carrying out Add compost strain liquid in described composting material after process, to shorten the compost time, lift the bio-fertilizer subsequently preparing Fertility so that the bio-fertilizer subsequently preparing is more beneficial for the growth of plant.For example, described compost strain liquid contain as follows Each component: bacillus polymyxa, Bacillus licheniformis, bacillus subtilises, bacillus thuringiensiss, Clostridium thermocellum and water.

By add bacillus polymyxa, compost effect can be lifted well, especially, bacillus polymyxa root, In the plant body such as stem, leaf, there is very strong colonization ability, pathogen infection plant can be stoped by site competition, simultaneously many viscous buds Constantly oozy broad-spectrum antiseptic material can suppress or kill pathogen spore bacillus, additionally, bacillus polymyxa can also induce plant Thing produces disease resistance.By adding Bacillus licheniformis, based on its stronger energy for growth, composting material of can effectively degrading In nutrient protein, be converted into plant be easier absorb small molecule composition.Bacillus licheniformis are with bacillus polymyxa altogether During with using, mutual growth-promoting effect is particularly evident, can preferably shorten the compost time, lifts compost effect.Pass through Add bacillus subtilises, fibre composition, more conducively plant absorption in composting material of can effectively degrading, bacillus subtilises The subtilin of generation, polymyxin, nystatin, Gramicidin isoreactivity material, these active matters during thalli growth Confrontation pathogenic microorganism has obvious inhibitory action, additionally, bacillus subtilises and Bacillus licheniformis and bacillus polymyxa When being used in conjunction with, there is stronger protease, Digestive Enzyme, diastatic activity, promote nutrition in composting material to divide greatly further Son degraded, makes absorbing of Plant To Nutrient more fully thorough.By adding Bacillus thuringiensis, parasitic ovum can be produced Certain toxicity, the residual quantity of parasitic ovum in the bio-fertilizer that effective minimizing subsequently prepares, additionally, Bacillus thuringiensis produce Main active be insecticidal crystal protein, to insecticides such as Lepidoptera, coleoptera, Diptera, Hymenoptera, Homopteras, and The arthropods such as animals and plants nematicide, acarian have specific cytotoxicity, can strengthen the insect resistace of plant.By adding heat Fine clostridium, can further decompose the cellulose in composting material, especially with bacillus polymyxa, lichens spore bar When bacterium, bacillus subtilises, bacillus thuringiensiss use cooperatively, the ability of its decomposition of cellulose is strengthened, and carries further The fertility of bio-fertilizer that height subsequently prepares, and produce that ethanol content is low, injures less to the growth of plant.

By adding the compost strain liquid of said components, compost effect can be lifted well moreover it is possible to induction plant produces Disease resistance, the nutrient protein that can effectively degrade in composting material, it is converted into the small molecule composition that plant is easier to absorb, The compost time can preferably be shortened, can have obvious inhibitory action to pathogenic microorganism, the insect resistace of plant can be strengthened.

In order to improve follow-up compost effect, for example, described bacillus polymyxa, Bacillus licheniformis, bacillus subtilis The mass ratio of bacterium, bacillus thuringiensiss, Clostridium thermocellum and water is: (10～15): (7～9): (20～28): (7～12): (11 ～15): (3500～4500), it is possible to increase follow-up compost effect, and the follow-up compost time can be shortened, reduce follow-up preparation Pathogenic microorganism in the bio-fertilizer obtaining and the residual quantity of parasitic ovum.

And for example, described bacillus polymyxa, Bacillus licheniformis, bacillus subtilises, bacillus thuringiensiss, heat fibre shuttle The mass ratio of bacterium and water is: (11～12): (8～8.5): (24～26): (10～11): (12～13): (4100～4200), energy Enough improve follow-up compost effect further, and the follow-up compost time can be shortened, reduce in the bio-fertilizer subsequently preparing Pathogenic microorganism and parasitic ovum residual quantity.

And for example, described bacillus polymyxa, Bacillus licheniformis, bacillus subtilises, bacillus thuringiensiss, heat fibre shuttle The mass ratio of bacterium and water is: 11.5:8.2:24.5:10.6:12.2:4180, can improve follow-up compost effect further, and Can shortening follow-up compost time, the pathogenic microorganism in the bio-fertilizer that reduction subsequently prepares and the residual of parasitic ovum Amount.

And for example, described compost strain liquid and the mass ratio of described composting material are 1:(280～350), and for example, described compost The mass ratio of strain liquid and described composting material is 1:(300～320), and for example, described compost strain liquid and described composting material Mass ratio be 1:315, can further improve follow-up compost effect, and can shorten the follow-up compost time, reduction Pathogenic microorganism in the bio-fertilizer subsequently preparing and the residual quantity of parasitic ovum, and reduce the cost of compost strain liquid.

S150: add assisted stack solution in described composting material.

In order to be more beneficial for the growth of the microorganism in follow-up composting process, for example, beneficial to each bacterium in compost strain liquid The growth of class, for improving follow-up compost effect, by adding auxiliary to the described composting material after addition compost strain liquid Heap solution, to improve the growth activity of compost microbe in follow-up composting process, and to improve follow-up compost effect.For example, Described assisted stack solution contains each component of following mass parts: 20 parts～30 parts of Semen Maydis powder, 15 parts～22 parts of white sugar, sodium chloride 2 Part～7 parts, 4 parts～9 parts of peptone, 0.5 part～1.5 parts of ammonium sulfate, 2 parts～2.8 parts of magnesium chloride, alkyl polyglucoside 0.1 part～0.6 Part and 400 parts～550 parts of water.

By adding 20 parts～30 parts of Semen Maydis powder, 15 parts～22 parts of white sugar, 4 parts～9 parts of peptone, it is possible to increase follow-up heap The growth activity of compost microbe during fertilizer, and improve follow-up compost effect, by adding ammonium sulfate 0.5 part～1.5 Part, 2 parts～2.8 parts of magnesium chloride, 0.1 part～0.6 part of alkyl polyglucoside, can reduce the product of odorous gas in follow-up composting process Raw, for example, the ammonia in suppression composting process produces.

By adding the described assisted stack solution of above-mentioned mass parts, it is possible to increase compost microbe in follow-up composting process Growth activity, and improve follow-up compost effect, and the generation of odorous gas in follow-up composting process, example can be reduced As the ammonia in suppression composting process produces.

And for example, described assisted stack solution contains each component of following mass parts: 25 parts～28 parts of Semen Maydis powder, 19 parts of white sugar～ 21 parts, 3 parts～5 parts of sodium chloride, 6 parts～7 parts of peptone, 1.2 parts～1.4 parts of ammonium sulfate, 2.4 parts～2.6 parts of magnesium chloride, alkyl 0.3 part～0.5 part of glucosides and 420 parts～440 parts of water.

By adding the described assisted stack solution of above-mentioned mass parts, can further improve compost in follow-up composting process The growth activity of microorganism, and improve follow-up compost effect, and odorous gas in follow-up composting process can be reduced Produce, for example, the ammonia in suppression composting process produces.

And for example, described assisted stack solution contains each component of following mass parts: 27 parts of Semen Maydis powder, 20 parts of white sugar, sodium chloride 3.7 parts, 6.5 parts of peptone, 1.3 parts of ammonium sulfate, 2.5 parts of magnesium chloride, 0.4 part of alkyl polyglucoside and 410 parts of water.

By adding the described assisted stack solution of above-mentioned mass parts, can further improve compost in follow-up composting process The growth activity of microorganism, and improve follow-up compost effect, and odorous gas in follow-up composting process can be reduced Produce, for example, the ammonia in suppression composting process produces.

And for example, described assisted stack solution and the mass ratio of described composting material are 1:(100～140), and for example, described auxiliary The mass ratio of heap solution and described composting material is 1:(120～130), and for example, described assisted stack solution and described composting material Mass ratio be 1:125, can further improve the growth activity of compost microbe in follow-up composting process, and improve after Continuous compost effect.

S160: combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer.

Combined ferment compost treatment is carried out by described composting material, the fertility of the bio-fertilizer preparing can be lifted, And the residual quantity of the parasitic ovum of described bio-fertilizer can be reduced.

In order to lift the fertility of the bio-fertilizer preparing, and the residual of the parasitic ovum of described bio-fertilizer can be reduced Amount, for example, the time of described combined ferment compost treatment operation is 20 days～30 days；And for example, described combined ferment compost treatment The time of operation is 25 days～28 days；And for example, the time of described combined ferment compost treatment operation is 27 days, in such manner, it is possible to carry Rise the fertility of the bio-fertilizer preparing, and the residual quantity of the parasitic ovum of described bio-fertilizer can be reduced.

In order to lift the fertility of the bio-fertilizer preparing, and the residual of the parasitic ovum of described bio-fertilizer can be reduced Amount, for example, described combined ferment compost treatment operation specifically includes following steps: described composting material is carried out sealing and fermenting, Obtain compost base material；Under conditions of outdoor and gravity-flow ventilation, assisted fermentation is carried out to described compost base material, so, it is possible to reach To preferable compost effect, and the bio-fertilizer obtaining after compost to the life of plant in good, the parasitic ovum after compost in addition of promotion property Residual quantity be also greatly reduced.

In order to lift the fertility of the bio-fertilizer preparing, and the residual of the parasitic ovum of described bio-fertilizer can be reduced Amount, for example, the time of described sealing and fermenting is 24 hours～48 hours；And for example, the time of described assisted fermentation is 19 days～29 My god, in such manner, it is possible to reach preferable compost effect, and the bio-fertilizer obtaining after compost is good in promotion property to the life of plant, in addition After compost, the residual quantity of parasitic ovum is also greatly reduced.

S170: under air-proof condition, by described bio-fertilizer be stirred operate, and during described stirring operation to Described bio-fertilizer is passed through ozone, carries out sterilization processing and heavy metal ion oxidation processes.

By under air-proof condition, described bio-fertilizer being stirred operating, and during described stirring operation Be passed through ozone to described bio-fertilizer, carry out sterilization processing and heavy metal ion oxidation processes, described bio-fertilizer can be played into The sterilization processing of one step, for reducing the harmful microorganism in described bio-fertilizer further, e.g., reduces thin in described bio-fertilizer Bacterium, virus and roundworm egg, are conducive to improving the cleannes of described bio-fertilizer.Further, since described bio-fertilizer adopted described Composting material contains some animal wastes, contains certain heavy metal ion in these animal wastes, e.g., containing aluminum, hydrargyrum, chromium and The heavy metal ion such as arsenic, using the oxidation characteristic of described ozone, can aoxidize these heavy metal ion, reduce crops to these The absorbance of heavy metal ion, can improve the safety of described bio-fertilizer further.

In order to improve the treatment effect of described ozone, for example, at a temperature of 35 degrees Celsius～55 degrees Celsius, to described life It is passed through ozone in thing fertilizer；And for example, at a temperature of 41 degrees Celsius～48 degrees Celsius, in described bio-fertilizer, it is passed through ozone；And for example, At a temperature of 45.5 degrees Celsius, in described bio-fertilizer, it is passed through ozone, in such manner, it is possible to improve the treatment effect of described ozone.

In order to improve the treatment effect of described ozone, for example, when described bio-fertilizer is stirred with operation, it is spaced successively Carry out forward stirring operation and reverse stirring operation；And for example, the rotating speed of described forward stirring operation is less than described reverse stirring behaviour The rotating speed made；And for example, carry out described in forward stirring operation time be more than described reverse stirring operation time, in such manner, it is possible to Improve the exposure level of described ozone and described bio-fertilizer, beneficial to the treatment effect improving described ozone.

S180: the described bio-fertilizer after ozone is processed applies electric current, carries out depth sterilization processing.

Electric current is applied by the described bio-fertilizer after processing to ozone, that can kill that depths in described bio-fertilizer exists is thin Bacterium and virus are it will be understood that electric current itself can not play bactericidal effect, but are applied by the described bio-fertilizer after ozone is processed Plus electric current, electrical effect can be produced, the resistance being existed based on antibacterial itself, based on the presence of resistance, the electric current being passed through can produce Pressure drop, i.e. electrical effect, now, antibacterial will produce " heat effect " or electrolytic effect because of energising, thus playing the work of sterilization With for improving the cleannes of described bio-fertilizer further.

In order to improve further described energising after depth sterilization processing, for example, to described bio-fertilizer apply electric current it Before, also comprise the steps: to configure conductive liquid, wherein, described conductive liquid is made up of sodium chloride and water；Described bio-fertilizer is carried out Stir process, in whipping process, sprays conductive liquid to described bio-fertilizer；And for example, described conductive liquid includes following mass parts Each component: 1～1.5 part of sodium chloride and 100 parts～500 parts of water；And for example, described conductive liquid and the mass ratio of described bio-fertilizer are 1: (50～250), so, the sodium chloride of addition on described bio-fertilizer using generation impact, but will not can play enhancing again Conductivity degree, for improving the depth sterilization processing after described energising further.And for example, after carrying out depth sterilization processing, to institute State bio-fertilizer and carry out outdoor air dry operation, for removing the moisture because adding conductive liquid to introduce.

Improve the depth sterilization processing after described energising further, for example, described applying current practice specifically includes as follows Step: powered wire netting is provided；Described bio-fertilizer is continuously added into described wire netting, based on described bio-fertilizer itself Gravity, can flow out from the hole of described wire netting；And for example, described wire netting is carried out shaking rolling process, to prevent described biology Fertilizer is deposited on described wire netting.

S190: separation net is provided, often lays one layer of described separation net, one layer of described biology of dispenser on described separation net Fertilizer is adjacent described in two-layer between separation net for making the described bio-fertilizer of each layer be located at.

By make the described bio-fertilizer of each layer be located at adjacent described in two-layer between separation net it can be ensured that described bio-fertilizer Loft, it is to avoid the described bio-fertilizer of accumulation produces the problem of caking, and also can also play necessarily described separation net Moisture absorption gas effect, can preferably keep the quality of described bio-fertilizer.

For example, the material of described separation net is cotton gauze；And for example, the material of described separation net is sponge gauze, so, Hygroscopicity can be improved further.

For example, every a Preset Time, described separation net is carried out pullling rocking operation, asks for reducing caking further The generation of topic, keeps loft.

The preparation method of above-mentioned bio-fertilizer is as follows: s110: collects composting material；S120: former to described compost Material carries out pulverizing and removes Slag treatment；S130: mix and blend process is carried out to the described composting material pulverized after removing slag；S140: to mixed Close and in the described composting material after stirring, add compost strain liquid；S150: add assisted stack solution in described composting material； S160: combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer；S170: under air-proof condition, by described life Thing fertilizer is stirred operating, and is passed through ozone to described bio-fertilizer during described stirring operation, carry out sterilization processing and Heavy metal ion oxidation processes；S180: the described bio-fertilizer after ozone is processed applies electric current, carries out depth sterilization processing； S190: separation net is provided, often lays one layer of described separation net, one layer of described bio-fertilizer of dispenser, is used for making on described separation net The described bio-fertilizer of each layer is located at adjacent described in two-layer between separation net, can prepare the higher bio-fertilizer of cleannes.

It should be noted that the mass ratio of the described assisted stack solution being noted above and described composting material, Yi Jisuo State the mass ratio of compost strain liquid and described composting material, wherein said composting material is the compost base of step s110 collection Material, that is, described mass ratio is defined by the compost base material that described step s110 is collected.Wherein, described step s140 and s150 can adjust Change order naturally it is also possible to be simultaneously introduced.

It should be noted that " part " of the respective embodiments described above include kilogram, gram and milligram etc. measurement unit, and in each reality Apply in mode, the implication that described " part " represents is identical or different.

Embodiment described above only have expressed the several embodiments of the present invention, and its description is more concrete and detailed, but simultaneously Therefore the restriction to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformation can also be made and improve, these broadly fall into the guarantor of the present invention Shield scope.Therefore, the protection domain of patent of the present invention should be defined by claims.

Claims (7)

1. a kind of preparation method of bio-fertilizer is it is characterised in that comprise the steps:

Collect composting material；

Pulverizing is carried out to described composting material and removes Slag treatment；

Mix and blend process is carried out to described composting material；

Compost strain liquid is added in described composting material；

Combined ferment compost treatment is carried out to described composting material, obtains bio-fertilizer.

2. the preparation method of bio-fertilizer according to claim 1 is it is characterised in that described compost strain liquid includes many viscous buds Spore bacillus and water.

3. the preparation method of bio-fertilizer according to claim 2 is it is characterised in that described compost strain liquid also includes lichens Bacillus cereuss.

4. the preparation method of bio-fertilizer according to claim 3 is it is characterised in that described compost strain liquid also includes Su Yun Golden bacillus cereuss.

5. the preparation method of bio-fertilizer according to claim 1 is it is characterised in that described compost strain liquid and described compost The mass ratio of raw material is 1:(280～350).

6. the preparation method of bio-fertilizer according to claim 5 is it is characterised in that described compost strain liquid and described compost The mass ratio of raw material is 1:(300～320).

7. the preparation method of bio-fertilizer according to claim 6 is it is characterised in that described compost strain liquid and described compost The mass ratio of raw material is 1:315.