CN101250064A - Microorganism coated brick and method for making same - Google Patents

Abstract

The invention discloses a microbe encapsulated brick and a relative production method. The preparation method comprises mixing, striiing, adding sand, drying and sintering the materials of red capillary soil, high aluminum solid material, high aluminum fine powder, polystyrene powder, fine clay powder, high purity paper pulp, calcium powder and binder, shaping the materials into microbe encapsulated brick in needed shape. The invention has wide application for storing and culturing microbe, treating industrial waste water, municipal sewage, chemical waste water and deying sewage and replacing cement brick of city walkway. The water and nutrient storage function of the inventive product is beneficial for plant growth. The invention has low cost, simple transportation, simple application and better microbe storage effect.

Description

A kind of microorganism coated brick and preparation method thereof

Technical field

The present invention relates to a kind of microorganism coated brick and preparation method thereof.

Background technology

Along with the not section of China's scientific research aspect strength promotes, also very extensive for the demand of microorganism, but can't reach the ideal effect for the condition of depositing and surviving of microorganism now always, cause a lot of projects or scientific payoffs to be restricted and to restrict.

Summary of the invention

The present invention is in order to address the above problem, and provides a kind of and helped that microorganism is deposited and the microorganism coated brick of surviving and preparation method thereof.

The technical solution adopted for the present invention to solve the technical problems is: comprise that red capillary soil, high alumina are expected admittedly, high alumina fine powder, poly-light ball, clay fine powder, high purity paper pulp, calcium powder, wedding agent, its composition is counted by weight:

Red capillary soil 40%-45%,

High alumina expects 5% admittedly,

High alumina fine powder 12%,

Clay fine powder 20%,

Calcium powder 3%,

Wedding agent 10%,

All the other are an amount of poly-light ball and high purity paper pulp,

Above composition summation is 100%.

Described red capillary soil pH value is not less than 8, and described high alumina expects to be higher than 9 with the pH value of described high alumina fine powder admittedly, described microorganism coated brick pH value summation average out to 8---8.5.

The aperture of described microorganism coated brick is greater than 0.5mm, and diameter is 2mm---3mm, and porous is handed over embedding.

The proportion of described microorganism coated brick is 0.5g---0.6g, and compressive strength is 2.2Mpa---2.5Mpa.

Described microorganism coated brick can be made into different shapes as required.

A kind of making method of microorganism coated brick may further comprise the steps:

1), all raw materials are mixed, in the sand mill of all packing into, adds water and stir, become even shape;

2), use the sand mill mulling after 5 minutes, add entry, mulling is 5 minutes again;

3), as required above-mentioned compound is pressed into difform;

4), the piece after will suppressing is heated between 25---40 degree centigrade and dries processing;

5), pH value is detected in the oven dry back;

6), will detect qualified brick body puts into cave dwelling and carries out sintering.

The mixing of described step 1), whipping process are earlier individual raw material simply to be mixed, and all pour in the sand mill and stir.

The temperature of the sintering process of described step 6) need remain on about 1000 degrees centigrade.

Described poly-light ball, high purity paper pulp, wedding agent have not just existed behind sintering.

The present invention passes through red capillary soil, high alumina is expected admittedly, the high alumina fine powder, poly-light ball, the clay fine powder, high purity paper pulp, calcium powder, each composition of wedding agent is by mixing, stir, mulling, oven dry, processes such as sintering are shaped to the microorganism coated brick of desired shape at last, its range of application is very extensive not only to can be used as depositing and surviving and use of microorganism, also be applicable to simultaneously the processing trade effluent, municipal effluent, wastewater from chemical industry and dyeing and printing sewage, and aspect afforestation, also can use the present invention to replace the cement brick on urban human trade, its effect that stores moisture and nutrient more helps the growth of plant, the present invention not only cost is lower, and convenient transportation, use simply, the effect of depositing microorganism is particularly evident.

Embodiment

The present invention will be further described below in conjunction with specific embodiment.

Embodiment 1: described microorganism coated brick following by weight ratio (by gross weight 100%)

Red capillary soil 40%

High alumina expects 5% admittedly

High alumina fine powder 12%

Clay fine powder 20%

Calcium powder 3%

Wedding agent 10%

Poly-light ball 5%

High purity paper pulp 5%

Wherein said red capillary soil pH value is not less than 8, described high alumina expects to be higher than 9 with the pH value of described high alumina fine powder admittedly, the condition that under the assurance of such pH value, just has microorganism to deposit and survive, and owing to also added the clay fine powder, not only can make the present invention can be good at storing moisture and nutrient, and the clay fine powder plays support, adhesive effect, also will make not easy-formation, each loose relatively raw material can combine, make things convenient for moulding, be made into required shape, add calcium powder and can offer the sufficient nutriment of animals and plants, widened use range of the present invention, and poly-light ball and high purity paper pulp not only more help formed product according to an amount of interpolation of environment and actual needs, and moulding product is formed regular porous hand over the aperture of embedding to play an important role.

Its concrete making processes is as follows:

1), the red capillary soil with 40%, 5% high alumina is expected admittedly, 12% high alumina fine powder, 5% poly-light ball, 20% clay fine powder, 5% high purity paper pulp, 3% calcium powder, 10% wedding agent simply mixes, all pack into again in the sand mill, add water and stir, become even shape;

2), use the sand mill mulling after 5 minutes, add entry, mulling is 5 minutes again;

3), as required above-mentioned compound is pressed into difform;

4), the piece after will suppressing is heated between 25---40 degree centigrade and dries processing;

5), pH value is detected in the oven dry back;

6), will detect qualified brick body puts into cave dwelling and carries out sintering.

In this process, earlier each raw material is simply mixed, stir together again, in whipping process, make each composition thorough mixing, pass through the mulling program again, make the each several part raw material bind, naturally form the aperture that porous is handed over embedding, and the pH value of its brick body need reach 8---8.5 after testing, help depositing and surviving of microorganism the most, after oven dry and sintering processes, evaporate redundant moisture, obtain drying, weight is lighter, the microorganism coated brick of fixed in shape, in pressing process, also required shape can be suppressed according to actual needs in addition,, just circle can be pressed into such as in the circle basin, using.

Embodiment 2: described microorganism coated brick following by weight ratio (by gross weight 100%)

Red capillary soil 45%

High alumina expects 5% admittedly

High alumina fine powder 12%

Clay fine powder 20%

Calcium powder 3%

Wedding agent 10%

Poly-light ball 3%

High purity paper pulp 2%

Its concrete making processes is as follows:

1), the red capillary soil with 45%, 5% high alumina is expected admittedly, 12% high alumina fine powder, 3% poly-light ball, 20% clay fine powder, 2% high purity paper pulp, 3% calcium powder, 10% wedding agent simply mixes, all pack into again in the sand mill, add water and stir, become even shape;

2), use the sand mill mulling after 5 minutes, add entry, mulling is 5 minutes again;

3), as required above-mentioned compound is pressed into difform;

4), the piece after will suppressing is heated between 25---40 degree centigrade and dries processing;

5), pH value is detected in the oven dry back;

6), will detect qualified brick body puts into cave dwelling and carries out sintering.

In the process of using, not only can use the present invention aspect the storage microorganism, and because this microorganism coated brick stores the very capable of moisture and nutrient, and can provide some required nutriment of plant, therefore also be applicable to simultaneously processing trade effluent, municipal effluent, wastewater from chemical industry and dyeing and printing sewage, and aspect afforestation, also can use the present invention to replace the cement brick on urban human trade, its cost is low, and is pollution-free, use and make very easyly, use also just very extensive.

Claims (8)

1. microorganism coated brick is characterized in that: comprise that red capillary soil, high alumina are expected admittedly, high alumina fine powder, poly-light ball, clay fine powder, high purity paper pulp, calcium powder, wedding agent, its composition is counted by weight:

Red capillary soil 40%-45%,

High alumina expects 5% admittedly,

High alumina fine powder 12%,

Clay fine powder 20%,

Calcium powder 3%,

Wedding agent 10%,

All the other are an amount of poly-light ball and high purity paper pulp,

Above composition summation is 100%.

2. a kind of microorganism coated brick according to claim 1 is characterized in that: described red capillary soil pH value is not less than 8, and described high alumina expects to be higher than 9 with the pH value of described high alumina fine powder admittedly, described microorganism coated brick pH value summation average out to 8---8.5.

3. a kind of microorganism coated brick according to claim 1 and 2 is characterized in that: the aperture of described microorganism coated brick is greater than 0.5mm, and diameter is 2mm---3mm, and porous is handed over embedding.

4. a kind of microorganism coated brick according to claim 1 and 2 is characterized in that: the proportion of described microorganism coated brick is 0.5g---0.6g, and compressive strength is 2.2Mpa---2.5Mpa.

5. a kind of microorganism coated brick according to claim 1 and 2 is characterized in that: described microorganism coated brick can be made into different shapes as required.

6. the making method of a microorganism coated brick is characterized in that may further comprise the steps:

1), all raw materials are mixed, in the sand mill of all packing into, adds water and stir, become even shape;

2), use the sand mill mulling after 5 minutes, add entry, mulling is 5 minutes again;

3), as required above-mentioned compound is pressed into difform;

4), the piece after will suppressing is heated between 25---40 degree centigrade and dries processing;

5), pH value is detected in the oven dry back;

6), will detect qualified brick body puts into cave dwelling and carries out sintering.

7. a kind of microorganism coated brick according to claim 6 is characterized in that: the mixing of described step 1), whipping process are earlier individual raw material simply to be mixed, and all pour in the sand mill and stir.

8. a kind of microorganism coated brick according to claim 6 is characterized in that: the temperature of the sintering process of described step 6) need remain on about 1000 degrees centigrade.