CN214020837U - Preparation facilities of feed additive S, K, Mg composite crystallization slow release salt - Google Patents

Abstract

The utility model discloses a preparation facilities of feed additive S, K, the compound crystallization slowly-releasing salt of Mg, including mixing kiln and condensation kiln, it is the rotary kiln to mix kiln and condensation kiln, the front end that mixes the kiln is equipped with high-end unloading pipe, mixes the kiln rear end and is equipped with the low side unloading pipe, it still is equipped with natural gas combustion shower nozzle to mix the kiln rear end, the section of thick bamboo wall of condensation kiln is cavity sandwich structure, the intussuseption of cavity sandwich is filled with the cooling water, the discharge gate intercommunication of condensation kiln front end and high-end unloading pipe, the condensation kiln rear end is equipped with the discharging pipe. Compared with the prior art, the utility model discloses need not various reation kettle, through mixing kiln and condensation kiln, can use the spiral kiln mode production composite salt of continuity, production efficiency is high, and the energy consumption is low, and serialization production, direct packing after the product comes out lowers manufacturing cost.

Description

Preparation facilities of feed additive S, K, Mg composite crystallization slow release salt

Technical Field

The utility model relates to a crystallization salt preparation field especially relates to a preparation facilities of feed additive S, K, the compound crystallization slowly-releasing salt of Mg.

Background

In the previous process of producing alpha-amino-gamma-butyrolactone bromate, a plurality of reaction kettles are used, wherein a ring reaction kettle, a distillation reaction kettle, a ring opening reaction kettle and the like are involved, the reaction time is long, the equipment has smelly smell in the transfer process, the energy consumption is high, and the yield is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a preparation facilities of feed additive S, K, the compound crystallization slowly-releasing salt of Mg that has solved above-mentioned problem.

In order to realize the purpose, the utility model discloses a technical scheme is: the utility model provides a preparation facilities of feed additive S, K, Mg composite crystallization slowly-releasing salt, includes mixed kiln and condensation kiln, mixed kiln and condensation kiln are the rotary kiln, the front end of mixed kiln is equipped with high-end unloading pipe, and mixed kiln rear end is equipped with low side unloading pipe, mixed kiln rear end still is equipped with natural gas burning shower nozzle, the section of thick bamboo wall of condensation kiln is hollow sandwich structure, the intussuseption of hollow sandwich is filled with the cooling water, condensation kiln front end and the discharge gate intercommunication of high-end unloading pipe, condensation kiln rear end are equipped with the discharging pipe.

Preferably, the front ends of the mixing kiln and the condensing kiln are higher than the rear ends of the mixing kiln and the condensing kiln, and sealing covers are arranged at the two ends of the mixing kiln and the mixing kiln.

Preferably, the high-end blanking pipe is positioned on a sealing cover at the front end of the mixing kiln, the natural gas combustion spray head is positioned on the sealing cover at the rear end of the mixing kiln, the low-end blanking pipe is positioned between the sealing cover at the rear end of the mixing kiln and the sealing cover at the front end of the condensing kiln, and the discharge pipe is positioned on the sealing cover at the rear end of the condensing kiln.

Preferably, a piece hammering machine for crushing the crystal blocks is arranged on the condensing kiln close to the discharge pipe.

Preferably, the mixing kiln and the condensing kiln are provided with motors and supports thereof, which are convenient for the rotation of the cylinder bodies of the mixing kiln and the condensing kiln.

Preferably, the mixing kiln is erected at a height higher than that of the condensing kiln.

Compared with the prior art, the utility model has the advantages of: the utility model discloses need not various reation kettle, through mixing kiln and condensation kiln, can use the spiral kiln mode production composite salt of continuity, production efficiency is high, and the energy consumption is low, and serialization production, direct packing after the product comes out lowers manufacturing cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

In the figure: 1. a mixing kiln; 2. a condensing kiln; 3. a sealing cover; 4. a high-end blanking pipe; 5. a natural gas combustion burner; 6. a lower end blanking pipe; 7. a discharge pipe; 8. hammering the sheet machine; 9. a motor; 10. and (4) a hollow interlayer.

Detailed Description

The present invention will be further explained below.

Example 1: referring to fig. 1, a device for preparing a feed additive S, K, Mg composite crystal slow-release salt comprises a mixing kiln 1 and a condensing kiln 2, wherein the mixing kiln 1 and the condensing kiln 2 are rotary kilns, a high-end blanking pipe 4 is arranged at the front end of the mixing kiln 1, a low-end blanking pipe 6 is arranged at the rear end of the mixing kiln 1, a natural gas combustion nozzle is further arranged at the rear end of the mixing kiln 1, the cylinder wall of the condensing kiln 2 is of a hollow interlayer 10 structure, cooling water is filled in the hollow interlayer 10, the front end of the condensing kiln 2 is communicated with a discharge hole of the high-end blanking pipe 4, a discharge pipe is arranged at the rear end of the condensing kiln 2, the high-end blanking pipe 4 is positioned on a sealing cover 3 at the front end of the mixing kiln 1, the natural gas combustion nozzle is positioned on the sealing cover 3 at the rear end of the mixing kiln 1, the low-end blanking pipe 6 is positioned between the sealing cover 3 at the rear end of the mixing kiln 1 and the sealing cover 3 at the front end of the condensing kiln 2, the discharging pipe is located on a sealing cover 3 at the rear end of the condensation kiln 2, the erection height of the mixing kiln 1 is higher than that of the condensation kiln 2, so that materials can conveniently enter the condensation kiln 2 from the mixing kiln 1, and the condensation kiln 2 is close to a hammer machine 8 which is arranged on the discharging pipe and used for crushing crystalline blocks.

The mixing kiln 1 has the function of uniformly mixing the three raw materials, and then the raw materials are molten under the action of natural gas to form the composite salt. The condensation kiln 2 is used for cooling down the molten complex salt to form a block solid.

During the preparation, the raw materials gets into mixed kiln 1 front end from high-end unloading pipe 4, mix along with the rotation of mixed kiln 1, and slowly transport to mixed kiln 1 rear end, after natural gas combustion shower nozzle spun flame carries out the melting, get into 2 front ends of condensation kiln from low-end unloading pipe 6, the cooling of material is realized in the gyration in condensation kiln 2, condensation kiln 2 adopts cavity intermediate layer 10 structure, can fill the cooling water, accelerate the heat dissipation cooling of material, strike 2 barrels of condensation kiln through hammer piece machine 8, make comminuted, the compound salt of being convenient for is discharged from the discharging pipe.

The front ends of the mixing kiln 1 and the condensing kiln 2 are higher than the rear ends, so that the mixing kiln 1 and the condensing kiln 2 have certain inclination, and the materials can move slowly to the lower end in the rotating process of the mixing kiln 1 and the condensing kiln 2. The both ends of mixing kiln 1 and mixing kiln 1 all are equipped with sealed cowling 3, be equipped with on mixing kiln 1 and the condensation kiln 2 and be convenient for its barrel pivoted motor 9 and support, sealed cowling 3, motor 9 and support are the conventional mechanism of rotary kiln, and this application does not explain.

The preparation device of the feed additive S, K, Mg composite crystal slow-release salt provided by the present invention is introduced in detail, and specific examples are applied herein to explain the principle and the implementation of the present invention, and the description of the above examples is only used to help understand the method and the core concept of the present invention; while the invention has been described in terms of specific embodiments and applications, it will be apparent to those skilled in the art that numerous variations and modifications can be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. A preparation facilities of feed additive S, K, Mg composite crystallization slow release salt which characterized in that: including mixing kiln and condensation kiln, mixing kiln and condensation kiln are the rotary kiln, the front end of mixing kiln is equipped with high-end unloading pipe, and the mixing kiln rear end is equipped with the low side unloading pipe, the mixing kiln rear end still is equipped with natural gas combustion nozzle, the section of thick bamboo wall of condensation kiln is cavity sandwich structure, the cavity intermediate layer intussuseption is filled with the cooling water, the discharge gate intercommunication of condensation kiln front end and high-end unloading pipe, condensation kiln rear end are equipped with the discharging pipe.

2. The preparation device of the feed additive S, K, Mg composite crystal slow-release salt according to claim 1, characterized in that: the front ends of the mixing kiln and the condensing kiln are higher than the rear ends, and sealing covers are arranged at the two ends of the mixing kiln and the two ends of the mixing kiln.

3. The preparation device of the feed additive S, K, Mg composite crystal slow-release salt according to claim 1, characterized in that: the high-end blanking pipe is located on a sealing cover at the front end of the mixing kiln, the natural gas combustion spray head is located on the sealing cover at the rear end of the mixing kiln, the low-end blanking pipe is located between the sealing cover at the rear end of the mixing kiln and the sealing cover at the front end of the condensing kiln, and the discharge pipe is located on the sealing cover at the rear end of the condensing kiln.

4. The preparation device of the feed additive S, K, Mg composite crystal slow-release salt according to claim 1, characterized in that: and a piece hammering machine for crushing the crystal blocks is arranged on the condensing kiln close to the discharge pipe.

5. The preparation device of the feed additive S, K, Mg composite crystal slow-release salt according to claim 1, characterized in that: and motors and supports for facilitating the rotation of the cylinder bodies of the mixing kiln and the condensing kiln are arranged on the mixing kiln and the condensing kiln.

6. The preparation device of the feed additive S, K, Mg composite crystal slow-release salt according to claim 1, characterized in that: the erection height of the mixing kiln is higher than that of the condensing kiln.

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