CN210207634U - Light impurity separator - Google Patents

Abstract

The utility model provides a light impurity separator, which comprises a feed inlet, a discharge outlet, a bracket, a shell, a uniform cloth sorter, an air inlet ring, a light slideway I and a light slideway II; the uniformly distributed sorter is arranged at the downstream of the feed inlet; the air inlet ring is arranged on the shell; the first light slideway is arranged at the downstream of the uniform distribution sorter; one end of the light slideway I is sleeved in the uniform distribution sorter, and the other end of the light slideway I penetrates out of the shell; the light slideway II is arranged at the downstream of the light slideway I; one end of the light slideway II is sleeved in the light slideway I; the other end of the light slideway penetrates through the first light slideway and the shell. The light impurity separator disclosed by the utility model can not only effectively and rapidly remove a large amount of light impurities in the corn raw material; and light impurities in the corn raw materials can be simply distinguished according to the quality of the light impurities, so that the light impurities can be recycled in the later period.

Description

Light impurity separator

Technical Field

The utility model relates to a mechanical equipment makes technical field, particularly, relates to a light impurity separator.

Background

In the industrial alcohol fermentation production process, the raw materials are mostly corns, and manufacturers often need to sort the collected corn raw materials to remove impurities, so that the influence on the yield and quality of final industrial alcohol due to excessive impurities is prevented. Meanwhile, if impurities such as miscellaneous stones, metals and the like in the corn raw materials are not removed, the fermentation machinery is abraded, the quality of industrial alcohol is reduced, and the produced industrial alcohol contains granular impurities. In the prior art, the corn is sorted by removing impurities such as miscellaneous stones, removing metal substances, and removing light dust, feathers and other impurities. But the removal of the miscellaneous stones and the removal of the metal substances in the sorting process can be realized by effective means; most of the separation of light impurities adopts water washing, the removal efficiency is low, and the separation of light impurities of a large amount of corn raw materials is difficult to realize in a short time.

Therefore, the light impurity separator is provided, which can effectively and quickly remove a large amount of light impurities in the corn raw material; and the problem that the light impurities in the corn raw material can be simply distinguished according to the quality of the light impurities is urgently needed to be solved by the personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model provides a light impurity separator based on at least one of the above technical problems, which can effectively and rapidly remove a large amount of light impurities in the corn raw material; and light impurities in the corn raw materials can be simply distinguished according to the quality of the light impurities, so that the light impurities can be recycled in the later period.

In view of the above, the utility model provides a light impurity separator, which comprises a feed inlet, a discharge outlet, a bracket and a shell, and is characterized by also comprising a uniformly distributed sorter, an air inlet ring, a light slideway I and a light slideway II; the uniformly distributed sorter is arranged at the downstream of the feed inlet; the air inlet ring is arranged on the shell; the first light slideway is arranged at the downstream of the uniform distribution sorter; one end of the light slideway I is sleeved in the uniform distribution sorter, and the other end of the light slideway I penetrates out of the shell; the light slideway II is arranged at the downstream of the light slideway I; one end of the light slideway II is sleeved in the light slideway I; the other end of the light slideway penetrates through the first light slideway and the shell.

Preferably, the position of the air inlet ring is taken as a reference object, wherein the height of the first light slideway is lower than that of the second light slideway.

Preferably, the position of the air inlet ring is taken as a reference object, and a gap is formed between the second light slideway and the uniformly-distributed sorting device.

Preferably, the air inlet ring is formed by a filter screen, so that outdoor dust can be prevented from entering the shell.

According to the technical scheme, the corn raw materials which are subjected to the impurity stone removing and metal substance removing stages enter the uniformly-distributed sorter from the feeding hole, and the uniformly-distributed sorter can not only uniformly distribute the corn raw materials, but also slow down the falling process of the corn raw materials, so that the falling corn raw materials have sufficient time to carry out impurity separation; a large amount of gas is blown in from the air inlet ring, and the corn raw materials falling from the uniformly-distributed sorting device are blown by the gas, so that the high-quality corn raw materials which are full and accord with fermentation continuously fall, and the low-quality corn raw materials which are not accord with the fermentation, feathers, fine dust and the like enter the light slideway I; light impurities with heavier mass fall into the light slideway I after contacting the light slideway II in the ascending process; and the light impurities with the lightest mass enter a gap between the light slideway II and the uniformly distributed sorter, and fall into the light slideway II after touching the uniformly distributed sorter.

Therefore the utility model discloses can simply distinguish the light impurity in the maize raw materials according to its quality, the shrivelled inferior maize raw materials that is not conform to the fermentation that the later stage was separated can be smashed, makes into the fodder to the later stage utilizes.

Furthermore, a plurality of buffer channels are arranged on the uniformly distributed sorter; the buffer channels are uniformly distributed on the uniform distribution sorter.

The utility model discloses the setting of well buffering way further carries out evenly distributed to the maize raw materials, slows down the descending process of maize raw materials moreover for the maize raw materials of whereabouts has abundant time and carries out the impurity separation.

Further, the uniformly distributed sorter is a conical magnet.

The utility model provides a maize raw materials has passed through metal edulcoration process earlier stage, but for further guaranteeing the cleanliness factor that is used for the maize raw materials of fermentation, utilizes the toper magnet as even cloth sorter, can further carry out the screening to maize raw materials, the edulcoration.

Further, wear-resistant metal paint is coated on the even distribution sorter.

Corn raw material volume is great, and even cloth sorter distributes in feed inlet low reaches, and corn raw materials can cause the impact to even cloth sorter, and easy wearing and tearing, the event coats wear-resisting metallic paint on even cloth sorter, further increases its wearability and life.

Furthermore, the light impurity separator also comprises a light outlet I and a light outlet II, and the light outlet I is connected with the light slideway I; and the light outlet II is connected with a light slideway II.

Light impurities in the light slideway I slide out of the light outlet I; and light impurities in the light slideway II slide out of the light outlet II.

Preferably, the second light outlet can be connected with a cyclone separator to further separate light substances in the second light slideway.

Through the technical scheme, the utility model provides a light impurity separator which can effectively and rapidly remove a large amount of light impurities in the corn raw material; and light impurities in the corn raw materials can be simply distinguished according to the quality of the light impurities, so that the light impurities can be recycled in the later period.

Drawings

Fig. 1 shows a front view of a vacuum heat exchange tower comprising a levelling device according to the present invention.

In the figure, 1 is a feeding hole, 2 is a discharging hole, 3 is a shell, 4 is a uniformly-distributed sorter, 5 is an air inlet ring, 6 is a first light slideway, 7 is a second light slideway, 8 is a buffer channel, 9 is a first light outlet, and 10 is a second light outlet.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The utility model provides a light impurity separator which can effectively and rapidly remove a large amount of light impurities in corn raw materials; and light impurities in the corn raw materials can be simply distinguished according to the quality of the light impurities, so that the light impurities can be recycled at the later stage, and the structure of the light impurities is shown in figure 1.

As shown in fig. 1, the utility model provides a light impurity separator, which comprises a feed inlet 1, a discharge outlet 2, a bracket, a shell 3, a uniformly distributed sorter 4, an air inlet ring 5, a light slideway I6 and a light slideway II 7; the uniformly distributed sorter 4 is arranged at the downstream of the feed inlet 1; the air inlet ring 5 is arranged on the shell 3; the light slideway I6 is arranged at the downstream of the evenly distributed sorter 4; one end of the light slideway I6 is sleeved in the uniform distribution sorter 4, and the other end of the light slideway I penetrates out of the shell 3; the light slideway II 7 is arranged at the downstream of the light slideway I6; one end of the light slideway II 7 is sleeved in the light slideway I6; the other end penetrates through the light slideway I6 and the shell 3.

In order to further optimize the technical scheme, the position of the air inlet ring 5 is taken as a reference object, wherein the height of the light slideway I6 is lower than that of the light slideway II 7.

In order to further optimize the technical scheme, the position of the air inlet ring 5 is used as a reference object, and a gap is formed between the light slideway II 7 and the uniformly distributed sorting device 4.

In order to further optimize the technical scheme, a plurality of buffer channels 8 are arranged on the uniformly distributed sorting device 4; the buffer channels 8 are evenly distributed on the even distribution sorter 4.

In order to further optimize the technical scheme, the uniformly distributed sorter 4 is provided as a conical magnet.

In order to further optimize the technical scheme, the wear-resistant metal paint is coated on the uniform distribution sorter 4.

In order to further optimize the technical scheme, the light impurity separator also comprises a light outlet I9 and a light outlet II 10, wherein the light outlet I9 is connected with a light slideway I6; the second light outlet 10 is connected with the second light slideway 7.

The utility model discloses a theory of operation and application method do: the corn raw material which is subjected to the foreign stone removing and metal substance removing stage enters the uniformly distributed sorter 4 from the feeding hole 1, and falls down along each buffer channel 8 from the two sides of the uniformly distributed sorter 4, so that the corn raw material is uniformly distributed, the falling process of the corn raw material is slowed down, and metal in the corn raw material is further sorted in the process; at the moment, a large amount of gas is blown in by the air inlet ring 5, and the corn raw materials falling from the uniformly-distributed sorter 4 are blown by the gas, so that the high-quality corn raw materials fully meeting the fermentation continuously fall into the shell 3 and finally flow out from the discharge hole 2; the low-quality corn raw materials, feathers and fine dust which are not suitable for fermentation enter the light slideway I6; light impurities with heavier mass fall into the light slideway I6 after contacting the light slideway II 7 in the ascending process, and finally slide out from the light outlet I9; and the light impurities with the lightest mass enter a gap between the light slideway II 7 and the uniformly distributed sorter 4, fall into the light slideway II 7 after contacting the uniformly distributed sorter 4, and finally slide out from the light outlet II 10.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A light impurity separator comprises a feeding hole, a discharging hole, a bracket and a shell, and is characterized by also comprising a uniformly distributed sorter, an air inlet ring, a light slideway I and a light slideway II; the uniform distribution sorter is arranged at the downstream of the feed inlet; the air inlet ring is arranged on the shell; the first light slideway is arranged at the downstream of the uniform distribution sorter; one end of the light slideway I is sleeved in the uniform distribution sorter, and the other end of the light slideway I penetrates out of the shell; the light slideway II is arranged at the downstream of the light slideway I; one end of the light slideway II is sleeved in the light slideway I; the other end of the light slideway penetrates out of the first light slideway and the shell.

2. The light impurity separator according to claim 1, wherein said distribution sorter is provided with a plurality of buffer channels; the buffer channels are uniformly distributed on the uniformly distributed sorter.

3. A light impurity separator as claimed in claim 1 or 2, wherein said distribution sorter is a conical magnet.

4. A light impurity separator as claimed in claim 3, wherein said level sorter is coated with a wear resistant metallic paint.

5. A light impurities separator according to claim 1 or 2, characterized in that said light impurities separator further comprises a first light outlet and a second light outlet; the light outlet is connected with the light slideway I; and the light outlet II is connected with the light slideway II.

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