CN216188379U - Soil conditioner production line feeding system - Google Patents

Abstract

The utility model relates to a feeding system of a soil conditioner production line, which comprises a crusher, a rotary kiln, a bucket elevator and a buffer bin, wherein the bucket elevator is arranged between the crusher and the rotary kiln, the buffer bin is arranged between the bucket elevator and the rotary kiln, a discharge hole of the crusher is connected with a feed inlet of the bucket elevator, a discharge hole of the bucket elevator is connected with a feed inlet of the buffer bin, a rotary discharge valve is arranged at a discharge hole of the buffer bin, the feeding system of the soil conditioner production line also comprises a feeding bin arranged below the buffer bin, a discharge hole of the rotary discharge valve is connected with a feed inlet of the feeding bin, and a discharge hole of the feeding bin is communicated with a kiln head of the rotary kiln. The materials stored in the buffer bin can be supplied continuously when the crusher breaks down, the materials crushed when the rotary kiln breaks down are temporarily stored in the buffer bin, and the rotary kiln can continue to work after the breakdown is repaired. Compared with the prior art, the continuous production line can ensure the continuity of production operation and avoid shutdown.

Description

Soil conditioner production line feeding system

Technical Field

The utility model belongs to the field of soil conditioner production equipment, and particularly relates to a feeding system of a soil conditioner production line.

Background

The soil conditioner is also called soil conditioner, the utility principle of the soil conditioner is that a large and water-stable aggregate is formed by bonding a plurality of small soil particles, and the soil conditioner is widely applied to preventing soil erosion, reducing soil moisture evaporation or excessive transpiration, saving irrigation water and promoting healthy growth of plants. Currently, the processing technology of the soil conditioner has three modes:

a high-temperature calcination method: high-quality potassium feldspar is used as a raw material, ground powder pressing blocks are calcined at the high temperature of 1300 ℃, and a plurality of primary colors such as silicon, calcium, potassium, magnesium and the like in the ore are released from a lattice structure of the ore to become the high-activity soil conditioner which can be directly absorbed by crops. Chemical reaction method: potash feldspar is used as a raw material, and elements such as silicon, calcium, potassium and the like in the ore are activated through a chemical reaction to become a soil conditioner which can be absorbed and utilized by plants. Mechanical crushing method: some inferior ores, coal slag and the like are directly ground and processed by a grinder, and medium and trace elements such as silicon, calcium and the like still exist in the form of crystal lattices and cannot be absorbed and utilized by crops.

Among the three processing modes, the soil conditioner produced by the high-temperature calcination method has the highest activity and the highest content of active ingredients. When using the high temperature calcination method, need send into the rotary kiln with the raw materials and carry out the high temperature calcination, present feeding mode is for throwing into the breaker with potassium feldspar and carry out the breakage in, and the rotary kiln is sent to by band conveyer to the material after the breakage, and the efficiency of breaker and the efficiency of rotary kiln need match always, can't continuous operation when one of them breaks down, and operational reliability is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding system of a soil conditioner production line, which aims to solve the problem of low working reliability of the existing soil conditioner production line.

In order to realize the purpose, the feeding system of the soil conditioner production line adopts the following technical scheme: soil conditioner production line charge-in system includes breaker and rotary kiln, still include bucket elevator and buffering feed bin, bucket elevator sets up between breaker and rotary kiln, the buffering feed bin sets up between bucket elevator and rotary kiln, the bucket elevator feed inlet is connected to the breaker discharge gate, buffering feed bin feed inlet is connected to the bucket elevator discharge gate, buffering feed bin discharge gate department is equipped with rotatory discharge valve, soil conditioner production line charge-in system is still including setting up the feed bin in the buffering feed bin below, the feed bin feed inlet is connected to rotatory discharge valve discharge gate, the feed bin discharge gate is linked together with the rotary kiln hood.

Has the advantages that: during operation material sends into bucket elevator after the breaker is broken, and bucket elevator transports the material and saves in transporting the buffer bin, and the rotary kiln is supplied with to the material in the feed bin, and the material of saving in the buffer bin more continues to supply when the breaker breaks down, and the material after the breakage is stored temporarily in the buffer bin when the rotary kiln breaks down, continues work after waiting to the trouble to restore. Compared with the prior art, the continuous production line can ensure the continuity of production operation and avoid shutdown.

Further, the crusher comprises a first crusher and a second crusher, a discharge port of the first crusher is connected with a feed port of the second crusher through a belt conveyor, the feeding system of the soil conditioner production line further comprises a vibrating feeder, and the discharge port of the vibrating feeder is connected with the first crushing feed port.

Furthermore, the soil conditioner production line feeding system also comprises a kiln head dust removal system, the kiln head dust removal system comprises a multi-pipe cooling device and a pulse dust collector, an air inlet of the multi-pipe cooling device is connected with the kiln head of the rotary kiln through a pipeline, and an air outlet of the multi-pipe cooling device is connected with an air inlet of the pulse dust collector.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts;

FIG. 1 is a schematic structural view of an embodiment of the soil conditioner production line feed system of the present invention.

In the figure: 100-crusher, 110-first crusher, 120-second crusher, 200-rotary kiln, 300-bucket elevator, 400-buffer bin, 410-rotary discharge valve, 500-vibration feeder, 600-belt conveyor, 700-feed bin, 800-kiln head dedusting system, 810-multi-pipe cooling device and 820-pulse deduster.

Detailed Description

In order to make the technical purpose, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention are further described below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the concrete embodiment of the feeding system of the soil conditioner production line includes a crusher 100 and a rotary kiln 200, a bucket elevator 300 and a buffer bin 400, wherein the crusher 100 includes a first crusher 110 and a second crusher 120, the bucket elevator 300 is disposed between the second crusher 120 and the rotary kiln 200, and the buffer bin 400 is disposed between the bucket elevator 300 and the rotary kiln 200.

Soil conditioner production line feed system still includes vibrating feeder 500, and first broken 110 feed inlets are connected to vibrating feeder 500 discharge gate, and the 110 discharge gates of first breaker pass through band conveyer 600 and connect the 120 feed inlets of second breaker, and the 300 feed inlets of bucket elevator are connected to the 120 discharge gates of second breaker, and buffer bin 400 feed inlets is connected to the 300 discharge gates of bucket elevator, and buffer bin 400 discharge gate department is equipped with rotatory discharge valve 410.

The feeding system of the soil conditioner production line further comprises a feeding bin 700 arranged below the buffer bin 400, the discharge hole of the rotary discharge valve 410 is connected with the feeding hole of the feeding bin 700, and the discharge hole of the feeding bin 700 is communicated with the kiln head of the rotary kiln 200. The soil conditioner production line feeding system further comprises a kiln head dust removal system 800, the kiln head dust removal system 800 comprises a multi-pipe cooling device 810 and a pulse dust remover 820, an air inlet of the multi-pipe cooling device 810 is connected with the kiln head of the rotary kiln 200 through a pipeline, and an air outlet of the multi-pipe cooling device 810 is connected with an air inlet of the pulse dust remover 820. The high-temperature flue gas is cooled after passing through the multi-tube cooling device 810 during the work, and the cooled flue gas enters the pulse dust collector 820 for dust removal.

During operation, materials are crushed by the crusher 100 and then are sent into the bucket elevator 300, the bucket elevator 300 conveys the materials into the buffer bin 400 for storage, the materials in the feeding bin 700 are supplied to the rotary kiln 200, the materials stored in the buffer bin 400 can be supplied more adequately when the crusher 100 fails, the crushed materials are temporarily stored in the buffer bin 400 when the rotary kiln 200 fails, and the operation is continued after the failure is repaired. Compared with the prior art, the continuous production line can ensure the continuity of production operation and avoid shutdown.

Finally, it should be noted that: the above embodiments are merely illustrative and not restrictive of the technical solutions of the present invention, and any equivalent substitutions and modifications or partial substitutions made without departing from the spirit and scope of the present invention should be included in the scope of the claims of the present invention.

Claims (3)

1. Soil conditioner production line charge-in system, including breaker and rotary kiln, its characterized in that: still include bucket elevator and buffer bin, bucket elevator sets up between breaker and rotary kiln, buffer bin sets up between bucket elevator and rotary kiln, the bucket elevator feed inlet is connected to the breaker discharge gate, buffer bin feed inlet is connected to the bucket elevator discharge gate, buffer bin discharge gate department is equipped with rotatory discharge valve, soil conditioner production line feed system is still including setting up the feed bin in buffer bin below, the feed bin feed inlet is connected to rotatory discharge valve discharge gate, the feed bin discharge gate is linked together with the rotary kiln hood.

2. The soil conditioner production line feed system of claim 1, wherein: the crusher comprises a first crusher and a second crusher, a discharge port of the first crusher is connected with a feed port of the second crusher through a belt conveyor, the feeding system of the soil conditioner production line further comprises a vibrating feeder, and the discharge port of the vibrating feeder is connected with the first crushing feed port.

3. The soil conditioner production line feed system of claim 1 or 2, wherein: the soil conditioner production line feeding system also comprises a kiln head dust removal system, the kiln head dust removal system comprises a multi-pipe cooling device and a pulse dust collector, an air inlet of the multi-pipe cooling device is connected with the kiln head of the rotary kiln through a pipeline, and an air outlet of the multi-pipe cooling device is connected with an air inlet of the pulse dust collector.

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