CN103518456A - Method for using large granule fertilizers for reducing fertilizer application complexity - Google Patents

Abstract

The invention discloses a method for using large granule fertilizers for reducing fertilizer application complexity. The method comprises the following steps: A. when applied to straw crops, digging a 10cm hole on the side of a ridge every 50cm and burying a large granule fertilizer for reducing fertilizer application complexity; B. when applied to graminaceous crops, digging a 8cm hole on the side of the ridge every 45cm and burying a large granule fertilizer for reducing fertilizer application complexity; C. when applied to herbaceous or leguminous crops, digging a 6cm hole on the side of the ridge every 30cm and burying a large granule fertilizer for reducing fertilizer application complexity, wherein the large granule fertilizer for reducing fertilizer application complexity in the step A comprises the following components: 80 parts of ammonium sulfate, 40 parts of ammonium bicarbonate, 30 parts of ground phosphate rock, 20 parts of seaweed powder, 30 parts of monopotassium phosphate, 20 parts of animal fat and 10 parts of ammonium molybdate; the large granule fertilizer for reducing fertilizer application complexity in the step B comprises the following components: 100 parts of ammonium sulfate, 50 parts of ammonium bicarbonate, 40 parts of ground phosphate rock, 40 parts of seaweed powder, 50 parts of monopotassium phosphate, 40 parts of animal fat and 30 parts of ammonium molybdate. The method is simple and the used products are simple in proportioning, have long fertilizer efficiency time and are convenient and quick to apply.

Description

Reduce the using method of the large-particle fertilizer of fertilising complexity

 

Technical field:

The present invention relates to technical field of fertilizers, relate in particular to a kind of using method that reduces the large-particle fertilizer of fertilising complexity.

 

Background technology:

In agricultural production now, conventionally all needing increases agricultural production with fertilizer, in the process of fertilising, needs to use and broadcasts sowing car or fertilizing equipment, carries out, after ditch dug with a plow, broadcasting sowing fertilizer.Traditional fertilizer is tiny graininess, is generally the sphere-like particle of 3-5mm size, and still, traditional fertiliser granulates is too small, especially, when manual fertilising, therefore be difficult to the fertilising of control amount, wastes time and energy.And the too small fertilizer of particle, slowly-releasing degree is little, and the fertilizer efficiency time is short.For this reason, need to occur that a kind of using method is simple, the product proportioning of use is simple, and the fertilizer efficiency time is long, and fertilising is a kind of using method that reduces the large-particle fertilizer of fertilising complexity easily and fast.

 

Summary of the invention:

The object of the invention is to overcome the shortcoming existing in prior art, provide a kind of using method simple, the product proportioning of use is simple, and the fertilizer efficiency time is long, and fertilising is a kind of using method that reduces the large-particle fertilizer of fertilising complexity easily and fast.

To achieve these goals, the invention provides a kind of using method that reduces the large-particle fertilizer of fertilising complexity, wherein, comprise the steps:

When A, crops stalks are used: every 50cm, at ridge side planing hole 10cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When B, gramineous crop are used, every 45cm, at ridge side planing hole 8cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When C, draft section or legume are used, every 30cm, at ridge side planing hole 6cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

The component that reduces the large-particle fertilizer of fertilising complexity described in A is:

80 parts, ammonium sulfate, 40 parts, carbonic hydroammonium, 30 parts, rock phosphate, 20 parts of seawood meals, 30 parts of potassium dihydrogen phosphates, 20 parts of animal fats, 10 parts of ammonium molybdates.

The component that reduces the large-particle fertilizer of fertilising complexity described in B is:

100 parts, ammonium sulfate, 50 parts, carbonic hydroammonium, 40 parts, rock phosphate, 40 parts of seawood meals, 50 parts of potassium dihydrogen phosphates, 40 parts of animal fats, 30 parts of ammonium molybdates.

The component that reduces the large-particle fertilizer of fertilising complexity described in C is:

90 parts, ammonium sulfate, 45 parts, carbonic hydroammonium, 35 parts, rock phosphate, 30 parts of seawood meals, 40 parts of potassium dihydrogen phosphates, 30 parts of animal fats, 20 parts of ammonium molybdates.

 

Reduce a large-particle fertilizer for fertilising complexity, wherein, comprise according to the following component of parts by weight configuration:

Ammonium sulfate 80-100 part, carbonic hydroammonium 40-50 part, rock phosphate 30-40 part, seawood meal 20-40 part, potassium dihydrogen phosphate 30-50 part, animal fat 20-40 part, ammonium molybdate 10-30 part.

Or, comprise according to the following component of parts by weight configuration:

Ammonium sulfate 80-90 part, carbonic hydroammonium 40-45 part, rock phosphate 30-35 part, seawood meal 20-30 part, potassium dihydrogen phosphate 30-40 part, animal fat 20-30 part, ammonium molybdate 10-20 part.

Or, comprise according to the following component of parts by weight configuration:

Ammonium sulfate 90-100 part, carbonic hydroammonium 45-50 part, rock phosphate 35-40 part, seawood meal 30-40 part, potassium dihydrogen phosphate 40-50 part, animal fat 30-40 part, ammonium molybdate 20-30 part.

Or, comprise according to the following component of parts by weight configuration: ammonium sulfate 85-95 part, carbonic hydroammonium 42-48 part, rock phosphate 32-38 part, seawood meal 25-35 part, potassium dihydrogen phosphate 35-45 part, animal fat 25-35 part, ammonium molybdate 15-25 part.

The diameter of the large-particle fertilizer of described reduction fertilising complexity is 5-8cm.

 

Proportioning of the present invention is simple, the fertilizer efficiency time is long, fertilising fast and easy, be specially: the present invention is placed in each raw material in heating reactor after melting, pour into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, this fertilizer diameter is 5-8cm, during fertilising, in 30-50cm, place one, and, because fertilizer diameter is large, and conglomerate, greatly increased slow-release time, compared with the fertilizer of fine granularity in the past, fertilizer efficiency has extended 75-85%, fertilising speed has increased 65-80%, so, also greatly reduce the fertilising cost of peasant household and the manufacturing cost of production firm.

 

Embodiment:

The using method that reduces the large-particle fertilizer of fertilising complexity, wherein, comprises the steps:

When A, crops stalks are used: every 50cm, at ridge side planing hole 10cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When B, gramineous crop are used, every 45cm, at ridge side planing hole 8cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When C, draft section or legume are used, every 30cm, at ridge side planing hole 6cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

The component that reduces the large-particle fertilizer of fertilising complexity described in A is:

80 parts, ammonium sulfate, 40 parts, carbonic hydroammonium, 30 parts, rock phosphate, 20 parts of seawood meals, 30 parts of potassium dihydrogen phosphates, 20 parts of animal fats, 10 parts of ammonium molybdates.

The component that reduces the large-particle fertilizer of fertilising complexity described in B is:

100 parts, ammonium sulfate, 50 parts, carbonic hydroammonium, 40 parts, rock phosphate, 40 parts of seawood meals, 50 parts of potassium dihydrogen phosphates, 40 parts of animal fats, 30 parts of ammonium molybdates.

The component that reduces the large-particle fertilizer of fertilising complexity described in C is:

90 parts, ammonium sulfate, 45 parts, carbonic hydroammonium, 35 parts, rock phosphate, 30 parts of seawood meals, 40 parts of potassium dihydrogen phosphates, 30 parts of animal fats, 20 parts of ammonium molybdates.

 

Example 1,

Reduce the large-particle fertilizer of fertilising complexity, wherein, comprise according to the following component of parts by weight configuration:

80 parts, ammonium sulfate, 40 parts, carbonic hydroammonium, 30 parts, rock phosphate, 20 parts of seawood meals, 30 parts of potassium dihydrogen phosphates, 20 parts of animal fats, 10 parts of ammonium molybdates.

Each raw material is placed in heating reactor after melting, pours into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, and this fertilizer diameter is 5cm.

 

Example 2

Reduce the large-particle fertilizer of fertilising complexity, wherein, comprise according to the following component of parts by weight configuration:

100 parts, ammonium sulfate, 50 parts, carbonic hydroammonium, 40 parts, rock phosphate, 40 parts of seawood meals, 50 parts of potassium dihydrogen phosphates, 40 parts of animal fats, 30 parts of ammonium molybdates.

Each raw material is placed in heating reactor after melting, pours into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, and this fertilizer diameter is 6cm.

 

Example 3

Reduce the large-particle fertilizer of fertilising complexity, wherein, comprise according to the following component of parts by weight configuration:

90 parts, ammonium sulfate, 45 parts, carbonic hydroammonium, 35 parts, rock phosphate, 30 parts of seawood meals, 40 parts of potassium dihydrogen phosphates, 30 parts of animal fats, 20 parts of ammonium molybdates.

Each raw material is placed in heating reactor after melting, pours into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, and this fertilizer diameter is 7cm.

 

Example 4

Reduce the large-particle fertilizer of fertilising complexity, wherein, comprise according to the following component of parts by weight configuration:

85 parts, ammonium sulfate, 42 parts, carbonic hydroammonium, 32 parts, rock phosphate, 25 parts of seawood meals, 35 parts of potassium dihydrogen phosphates, 25 parts of animal fats, 15 parts of ammonium molybdates.Each raw material is placed in heating reactor after melting, pours into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, and this fertilizer diameter is 8cm.

 

Using method of the present invention is simple, the product proportioning of using is simple, the fertilizer efficiency time is long, fertilising fast and easy, be specially: the present invention is placed in each raw material in heating reactor after melting, pour into mould, the cooling rear demoulding becomes the fertilizer of sphere-like, this fertilizer diameter is 5-8cm, during fertilising, in 30-50cm, place one, and, because fertilizer diameter is large, and conglomerate, greatly increased slow-release time, compared with the fertilizer of fine granularity in the past, fertilizer efficiency has extended 75-85%, fertilising speed has increased 65-80%, so, also greatly reduce the fertilising cost of peasant household and the manufacturing cost of production firm.

Claims (1)

1. a using method that reduces the large-particle fertilizer of fertilising complexity, is characterized in that, comprises the steps:

When A, crops stalks are used: every 50cm, at ridge side planing hole 10cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When B, gramineous crop are used, every 45cm, at ridge side planing hole 8cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

When C, draft section or legume are used, every 30cm, at ridge side planing hole 6cm, imbed one of the large-particle fertilizer of described reduction fertilising complexity,

The component that reduces the large-particle fertilizer of fertilising complexity described in A is:

80 parts, ammonium sulfate, 40 parts, carbonic hydroammonium, 30 parts, rock phosphate, 20 parts of seawood meals, 30 parts of potassium dihydrogen phosphates, 20 parts of animal fats, 10 parts of ammonium molybdates;

The component that reduces the large-particle fertilizer of fertilising complexity described in B is:

100 parts, ammonium sulfate, 50 parts, carbonic hydroammonium, 40 parts, rock phosphate, 40 parts of seawood meals, 50 parts of potassium dihydrogen phosphates, 40 parts of animal fats, 30 parts of ammonium molybdates;

The component that reduces the large-particle fertilizer of fertilising complexity described in C is:

90 parts, ammonium sulfate, 45 parts, carbonic hydroammonium, 35 parts, rock phosphate, 30 parts of seawood meals, 40 parts of potassium dihydrogen phosphates, 30 parts of animal fats, 20 parts of ammonium molybdates.