WO2021128316A1 - Compound fertilizer and preparation method therefor - Google Patents

Abstract

Provided is a compound fertilizer and a preparation method therefor. The compound fertilizer is prepared from the following raw materials: Pulsatilla, Astragalus, urea, a potassium fertilizer, sugarcane waste, fish bone meal, humic acid, a water absorbent resin, lily, a phosphate fertilizer, East Asian arrowroot, white mulberry root bark, Lactobacillus plantarum, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate, and trace elements. The preparation method for the compound fertilizer comprises the following steps: batching, preparation of mixture A, preparation of mixture B, and preparation of the compound fertilizer by mixing. The compound fertilizer is prepared by extraction of natural plants as raw materials, fermentation using organic raw materials, and then combination with a chemical fertilizer to form a compound fertilizer. The compound fertilizer has a high overall nutrient content and simple preparation. The compound fertilizer can be quickly absorbed, and can increase crop yield.

Description

Compound fertilizer and preparation method thereof Technical field

The invention relates to the technical field of compound fertilizer, in particular to a compound fertilizer and a preparation method thereof.

Background technique

Compound fertilizer is short for compound fertilizer. It is a fertilizer containing a variety of mineral elements or other nutrients required by plants. Generally contain a large number of elements: nitrogen, phosphorus, potassium, also known as total nutrients; medium elements: calcium, magnesium, sulfur, etc., also known as secondary nutrients; compound fertilizer (material) and compound fertilizer (material) from the concept Strict distinction is different, the former includes the latter. It has the following definition: Compound fertilizer: A fertilizer made by chemical methods and/or blending methods with at least two of the three nutrients of nitrogen, phosphorus and potassium. At least two kinds of nutrients mentioned here are the basis of compound fertilizer, otherwise, it belongs to single fertilizer or elemental fertilizer, such as urea, ammonium sulfate, superphosphate, etc. Among them, two or more elemental fertilizers are synthesized by chemical methods, or by physical blending methods, and products made by both chemical reactions and physical blending in the production process are generally called compound fertilizers. However, the existing compound fertilizer can no longer meet the needs of the existing market.

Therefore, how to design a compound fertilizer and its preparation method has become a problem to be solved at present.

Summary of the invention

The invention provides a compound fertilizer and a preparation method thereof. Natural plants are used as raw materials for extraction operations and organic raw materials are used for fermentation treatment, and then combined with chemical fertilizers to form a compound fertilizer with high overall nutrients; the preparation method is simple and makes compound mixing Fertilizer is absorbed quickly, can increase crop yields, is green, pollution-free, and has a high protein content, which can effectively solve the above-mentioned background art problems.

In order to achieve the above objective, the present invention provides the following technical solutions: a compound fertilizer, the compound fertilizer is prepared from the following raw materials: Pulsatilla, astragalus, urea, potash, sugarcane leftovers, fish bone meal, humic acid, water-absorbing resin , Lily, phosphate fertilizer, kudzu root, mulberry bark, Lactobacillus plantarum, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate and trace elements, 15-20 parts of Pulsatilla, Astragalus 10-15 parts, 10-15 parts of urea, 5-10 parts of potash fertilizer, 3-6 parts of sugarcane leftovers, 4-6 parts of fish bone meal, 5-8 parts of humic acid, 4-6 parts of water-absorbent resin, 10-12 parts of lily Servings, 6-8 servings of phosphate fertilizer, 10-16 servings of Pueraria lobata, 4-6 servings of Mulberry bark, 1-2 servings of Lactobacillus plantarum, 10-15 servings of vermicompost, 4-6 servings of sweet potato leaf powder, 4-6 servings of banana peel Parts, 5-6 parts of straw powder, 2-4 parts of polyaspartic acid, 1-2 parts of sodium octaborate tetrahydrate and 4-6 parts of trace elements.

A method for preparing compound fertilizer includes the following steps:

1) Ingredients: According to the weight parts of the above raw materials, first weigh urea, Lactobacillus plantarum, humic acid, water-absorbing resin, polyaspartic acid, sodium octaborate tetrahydrate, trace elements, potash fertilizer and phosphate fertilizer. Then sort them and store them in storage tank A for later use; then weigh the pulsatilla, astragalus, sugarcane leftovers, fish bone meal and lily, and then store them in storage tank B for later use; finally, the kudzu root, mulberry bark and vermicompost , Sweet potato leaf powder, banana peel and straw powder are weighed, and then stored in storage tank C; ready for use;

2) Preparation of mixture A: add the pulsatilla, astragalus, sugarcane scraps, fish bone meal and lily weighed in the storage tank B in step 1) to the blender and mix, and then seal for 3-5 days; 3) Add polyaspartic acid and sodium octaborate tetrahydrate to the product, mix well, and dry to obtain mixture A;

3) Preparation of Mixture B: Soak and extract the kudzu root, mulberry bark, vermicompost, sweet potato leaf powder, banana peel and rice straw powder weighed in step 10 and stored in the storage tank C in ethanol for 3 times for 2 hours. Concentrate and remove ethanol to obtain extract; then add Lactobacillus plantarum, humic acid, and water-absorbent resin, stir and mix uniformly, and finally dry, then crush into powder after drying to obtain mixture B;

4) Preparation of compound fertilizer by mixing: add the mixture A prepared in step 2) and the mixture B prepared in step 3) in turn into the mixer and mix well; then transfer to the culture tank at a temperature of 30-40°C , Add the trace elements stored in the storage tank A and cultivate for 1-2 days; obtain the mixture, finally take out the mixture, dehydrate and dry, and grind; obtain the mixed powder, and then combine the obtained mixture with the urea stored in the storage tank A , Potash fertilizer and phosphate fertilizer, mix well to obtain compound fertilizer, then inspect, bag and store.

According to the above technical solution, the trace elements include boron, manganese, iron, zinc, copper, molybdenum and cobalt.

According to the above technical solution, the drying temperature in the step 2) is 50-60°C.

According to the above technical solution, the stirring speed in the step 3) is 600 r/min.

According to the above technical solution, the ethanol in the step 3) is a 30-40% ethanol.

According to the above technical solution, the particle size of the mixed powder in the step 4) is less than 0.5 mm.

Compared with the prior art, the present invention has beneficial effects: natural plants are used as raw materials for extraction operations and organic raw materials are used for fermentation, and then combined with chemical fertilizers to form a compound fertilizer with high overall nutrients; the preparation method is simple and makes compound mixing Fertilizer is absorbed quickly, can increase crop yields, is green, pollution-free, and has high protein content.

Description of the drawings

The accompanying drawings are used to provide a further understanding of the present invention and constitute a part of the specification. Together with the embodiments of the present invention, they are used to explain the present invention, and do not constitute a limitation to the present invention.

In the attached picture:

Figure 1 is a preparation flow chart of the present invention;

Detailed ways

The preferred embodiments of the present invention will be described below in conjunction with the accompanying drawings. It should be understood that the preferred embodiments described here are only used to illustrate and explain the present invention, and are not used to limit the present invention.

Example 1: As shown in Figure 1, the present invention provides a compound fertilizer prepared from the following raw materials: Pulsatilla, astragalus, urea, potash, sugarcane leftovers, fish bone meal, humic acid, water absorption Resin, lily, phosphate fertilizer, kudzu root, mulberry bark, Lactobacillus plantarum, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate and trace elements, 15 parts of Pulsatilla, Astragalus 10 Parts, 10 parts of urea, 5 parts of potash fertilizer, 3 parts of sugarcane leftovers, 4 parts of fish bone meal, 5 parts of humic acid, 4 parts of water-absorbent resin, 10 parts of lily, 6 parts of phosphate fertilizer, 10 parts of Pueraria, 4 parts of Mulberry bark, Plant 1 part of Lactobacillus, 10 parts of vermicompost, 4 parts of sweet potato leaf powder, 4 parts of banana peel, 5 parts of rice straw powder, 2 parts of polyaspartic acid, 1 part of sodium octaborate tetrahydrate and 4 parts of trace elements.

A method for preparing compound fertilizer includes the following steps:

1) Ingredients: According to the weight parts of the above raw materials, first weigh urea, Lactobacillus plantarum, humic acid, water-absorbing resin, polyaspartic acid, sodium octaborate tetrahydrate, trace elements, potash fertilizer and phosphate fertilizer. Then sort them and store them in storage tank A for later use; then weigh the pulsatilla, astragalus, sugarcane leftovers, fish bone meal and lily, and then store them in storage tank B for later use; finally, the kudzu root, mulberry bark and vermicompost , Sweet potato leaf powder, banana peel and straw powder are weighed, and then stored in storage tank C; ready for use;

2) Preparation of mixture A: add the pulsatilla, astragalus, sugarcane scraps, fish bone meal and lily weighed in the storage tank B in step 1) to the blender and mix, and then seal for 3-5 days; 3) Add polyaspartic acid and sodium octaborate tetrahydrate to the product, mix well, and dry to obtain mixture A;

3) Preparation of Mixture B: Soak and extract the kudzu root, mulberry bark, vermicompost, sweet potato leaf powder, banana peel and rice straw powder weighed in step 10 and stored in the storage tank C in ethanol for 3 times for 2 hours. Concentrate and remove ethanol to obtain extract; then add Lactobacillus plantarum, humic acid, and water-absorbent resin, stir and mix uniformly, and finally dry, then crush into powder after drying to obtain mixture B;

4) Preparation of compound fertilizer by mixing: Add the mixture A prepared in step 2) and the mixture B prepared in step 3) in turn into a mixer and mix well; then transfer to a culture tank at a temperature of 30-40°C , Add the trace elements stored in the storage tank A and cultivate for 1-2 days; obtain the mixture, finally take out the mixture, dehydrate and dry, and grind; obtain the mixed powder, and then combine the obtained mixture with the urea stored in the storage tank A , Potash fertilizer and phosphate fertilizer, mix well to obtain compound fertilizer, then inspect, bag and store.

According to the above technical solution, the trace elements include boron, manganese, iron, zinc, copper, molybdenum and cobalt.

According to the above technical solution, the drying temperature in the step 2) is 50-60°C.

According to the above technical solution, the stirring speed in the step 3) is 600 r/min.

According to the above technical solution, the ethanol in the step 3) is a 30-40% ethanol.

According to the above technical solution, the particle size of the mixed powder in the step 4) is less than 0.5 mm.

Example 2: As shown in Figure 1, the present invention provides a compound fertilizer prepared from the following raw materials: Pulsatilla, Astragalus, urea, potash, sugarcane waste, fish bone meal, humic acid, water absorption Resin, lily, phosphate fertilizer, kudzu root, mulberry bark, Lactobacillus plantarum, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate and trace elements, 17 parts of Pulsatilla, 12 parts of Astragalus Parts, 12 parts of urea, 8 parts of potash fertilizer, 5 parts of sugarcane leftovers, 5 parts of fish bone meal, 7 parts of humic acid, 5 parts of water-absorbent resin, 11 parts of lily, 7 parts of phosphate fertilizer, 13 parts of Pueraria, 5 parts of Mulberry bark, plant 2 parts of Lactobacillus, 12 parts of vermicompost, 5 parts of sweet potato leaf powder, 5 parts of banana peel, 6 parts of rice straw powder, 3 parts of polyaspartic acid, 1 part of sodium octaborate tetrahydrate and 5 parts of trace elements.

A method for preparing compound fertilizer includes the following steps:

1) Ingredients: According to the weight parts of the above raw materials, first weigh urea, Lactobacillus plantarum, humic acid, water-absorbing resin, polyaspartic acid, sodium octaborate tetrahydrate, trace elements, potash fertilizer and phosphate fertilizer. Then sort them and store them in storage tank A for later use; then weigh the pulsatilla, astragalus, sugarcane leftovers, fish bone meal and lily, and then store them in storage tank B for later use; finally, the kudzu root, mulberry bark and vermicompost , Sweet potato leaf powder, banana peel and straw powder are weighed, and then stored in storage tank C; ready for use;

2) Preparation of mixture A: add the pulsatilla, astragalus, sugarcane scraps, fish bone meal and lily weighed in the storage tank B in step 1) to the blender and mix, and then seal for 3-5 days; 3) Add polyaspartic acid and sodium octaborate tetrahydrate to the product, mix well, and dry to obtain mixture A;

3) Preparation of Mixture B: Soak and extract the kudzu root, mulberry bark, vermicompost, sweet potato leaf powder, banana peel and rice straw powder weighed in step 10 and stored in the storage tank C in ethanol for 3 times for 2 hours. Concentrate and remove ethanol to obtain extract; then add Lactobacillus plantarum, humic acid, and water-absorbent resin, stir and mix uniformly, and finally dry, then crush into powder after drying to obtain mixture B;

4) Preparation of compound fertilizer by mixing: add the mixture A prepared in step 2) and the mixture B prepared in step 3) in turn into the mixer and mix well; then transfer to the culture tank at a temperature of 30-40°C , Add the trace elements stored in the storage tank A and cultivate for 1-2 days; obtain the mixture, finally take out the mixture, dehydrate and dry, and grind; obtain the mixed powder, and then combine the obtained mixture with the urea stored in the storage tank A , Potash fertilizer and phosphate fertilizer, mix well to obtain compound fertilizer, then inspect, bag and store.

According to the above technical solution, the trace elements include boron, manganese, iron, zinc, copper, molybdenum and cobalt.

According to the above technical solution, the drying temperature in the step 2) is 50-60°C.

According to the above technical solution, the stirring speed in the step 3) is 600 r/min.

According to the above technical solution, the ethanol in the step 3) is a 30-40% ethanol.

According to the above technical solution, the particle size of the mixed powder in the step 4) is less than 0.5 mm.

Example 3: As shown in Figure 1, the present invention provides a compound fertilizer prepared from the following raw materials: Pulsatilla, astragalus, urea, potash, sugarcane leftovers, fish bone meal, humic acid, water absorption Resin, lily, phosphate fertilizer, kudzu root, mulberry bark, Lactobacillus plantarum, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate and trace elements, 20 parts of Pulsatilla, Astragalus 15 Parts, 15 parts urea, 10 parts potash fertilizer, 6 parts sugarcane leftovers, 6 parts fish bone meal, 8 parts humic acid, 6 parts water-absorbent resin, 12 parts lily, 8 parts phosphate fertilizer, 16 parts Pueraria, 6 parts Mulberry bark, Plant 2 parts of Lactobacillus, 15 parts of vermicompost, 6 parts of sweet potato leaf powder, 6 parts of banana peel, 6 parts of rice straw powder, 4 parts of polyaspartic acid, 2 parts of sodium octaborate tetrahydrate and 6 parts of trace elements.

A method for preparing compound fertilizer includes the following steps:

1) Ingredients: According to the weight parts of the above raw materials, first weigh urea, Lactobacillus plantarum, humic acid, water-absorbing resin, polyaspartic acid, sodium octaborate tetrahydrate, trace elements, potash fertilizer and phosphate fertilizer. Then sort them and store them in storage tank A for later use; then weigh the pulsatilla, astragalus, sugarcane leftovers, fish bone meal and lily, and then store them in storage tank B for later use; finally, the kudzu root, mulberry bark and vermicompost , Sweet potato leaf powder, banana peel and straw powder are weighed, and then stored in storage tank C; ready for use;

2) Preparation of mixture A: add the pulsatilla, astragalus, sugarcane scraps, fish bone meal and lily weighed in the storage tank B in step 1) to the blender and mix, and then seal for 3-5 days; 3) Add polyaspartic acid and sodium octaborate tetrahydrate to the product, mix well, and dry to obtain mixture A;

3) Preparation of Mixture B: Soak and extract the kudzu root, mulberry bark, vermicompost, sweet potato leaf powder, banana peel and rice straw powder weighed in step 10 and stored in the storage tank C in ethanol for 3 times for 2 hours. Concentrate and remove ethanol to obtain extract; then add Lactobacillus plantarum, humic acid, and water-absorbent resin, stir and mix uniformly, and finally dry, then crush into powder after drying to obtain mixture B;

4) Preparation of compound fertilizer by mixing: add the mixture A prepared in step 2) and the mixture B prepared in step 3) in turn into the mixer and mix well; then transfer to the culture tank at a temperature of 30-40°C , Add the trace elements stored in the storage tank A and cultivate for 1-2 days; obtain the mixture, finally take out the mixture, dehydrate and dry, and grind; obtain the mixed powder, and then combine the obtained mixture with the urea stored in the storage tank A , Potash fertilizer and phosphate fertilizer, mix well to obtain compound fertilizer, then inspect, bag and store.

According to the above technical solution, the trace elements include boron, manganese, iron, zinc, copper, molybdenum and cobalt.

According to the above technical solution, the drying temperature in the step 2) is 50-60°C.

According to the above technical solution, the stirring speed in the step 3) is 600 r/min.

According to the above technical solution, the ethanol in the step 3) is a 30-40% ethanol.

According to the above technical solution, the particle size of the mixed powder in the step 4) is less than 0.5 mm.

Based on the above, the advantages of the present invention are that natural plants are used as raw materials for extraction operations and organic raw materials are used for fermentation, and then combined with chemical fertilizers to form a compound fertilizer with high overall nutrients; the preparation method is simple and allows the compound fertilizer to be absorbed quickly , Can increase crop yield, green, pollution-free, and high protein content.

Finally, it should be noted that the above are only preferred examples of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, it is still possible for those skilled in the art. The technical solutions described in the foregoing embodiments are modified, or some of the technical features are equivalently replaced. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A compound fertilizer, which is prepared from the following raw materials: Pulsatilla, Astragalus, Urea, Potassium Fertilizer, Sugarcane Waste, Fish Bone Meal, Humic Acid, Water Absorbent Resin, Lily, Phosphate Fertilizer, Pueraria Root, Mulberry Bark, Plant Lactobacillus, vermicompost, sweet potato leaf powder, banana peel, rice straw powder, polyaspartic acid, sodium octaborate tetrahydrate and trace elements, characterized by: 15-20 parts of Pulsatilla, 10-15 parts of Astragalus, 10- 15 parts of urea 15 parts, 5-10 parts of potash fertilizer, 3-6 parts of sugarcane leftovers, 4-6 parts of fish bone meal, 5-8 parts of humic acid, 4-6 parts of water-absorbing resin, 10-12 parts of lily, 6-8 parts of phosphate fertilizer, 10-16 parts of Pueraria, 4-6 parts of Mulberry Bark, 1-2 parts of Lactobacillus plantarum, 10-15 parts of vermicompost, 4-6 parts of sweet potato leaf powder, 4-6 parts of banana peel, 5-6 parts of straw powder , 2-4 parts of polyaspartic acid, 1-2 parts of sodium octaborate tetrahydrate and 4-6 parts of trace elements.
2. A method for preparing compound fertilizer, which is characterized in that it comprises the following steps:

   1) Ingredients: According to the weight parts of the above raw materials, first weigh urea, Lactobacillus plantarum, humic acid, water-absorbing resin, polyaspartic acid, sodium octaborate tetrahydrate, trace elements, potash fertilizer and phosphate fertilizer. Then sort them and store them in storage tank A for later use; then weigh the pulsatilla, astragalus, sugarcane leftovers, fish bone meal and lily, and then store them in storage tank B for later use; finally, the kudzu root, mulberry bark and vermicompost , Sweet potato leaf powder, banana peel and straw powder are weighed, and then stored in storage tank C; ready for use;

   2) Preparation of mixture A: add the pulsatilla, astragalus, sugarcane scraps, fish bone meal and lily weighed in the storage tank B in step 1) to the blender and mix, and then seal for 3-5 days; 3) Add polyaspartic acid and sodium octaborate tetrahydrate to the product, mix well, and dry to obtain mixture A;

   3) Preparation of Mixture B: Soak and extract the kudzu root, mulberry bark, vermicompost, sweet potato leaf powder, banana peel and rice straw powder weighed in step 10 and stored in the storage tank C in ethanol for 3 times for 2 hours. Concentrate and remove ethanol to obtain extract; then add Lactobacillus plantarum, humic acid, and water-absorbent resin, stir and mix uniformly, and finally dry, then crush into powder after drying to obtain mixture B;

   4) Preparation of compound fertilizer by mixing: add the mixture A prepared in step 2) and the mixture B prepared in step 3) in turn into the mixer and mix well; then transfer to the culture tank at a temperature of 30-40°C , Add the trace elements stored in the storage tank A and cultivate for 1-2 days; obtain the mixture, finally take out the mixture, dehydrate and dry, and grind; obtain the mixed powder, and then combine the obtained mixture with the urea stored in the storage tank A , Potash fertilizer and phosphate fertilizer, mix well to obtain compound fertilizer, then inspect, bag and store.
3. The compound fertilizer according to claim 1, wherein the trace elements include boron, manganese, iron, zinc, copper, molybdenum and cobalt.
4. The method for preparing a compound fertilizer according to claim 2, wherein the drying temperature in step 2) is 50-60°C.
5. The method for preparing a compound fertilizer according to claim 2, wherein the stirring speed in the step 3) is 600 r/min.
6. The method for preparing a compound fertilizer according to claim 2, wherein the ethanol in the step 3) is 30-40% ethanol.
7. The method for preparing a compound fertilizer according to claim 2, wherein the particle size of the mixed powder in the step 4) is less than 0.5 mm.

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