CN217876998U - Energy-efficient carbon fiber far infrared heating batch formula circulation grain drier - Google Patents

Abstract

The utility model provides a high-efficiency energy-saving carbon fiber far infrared heating batch type circulating grain dryer, which comprises a dryer body and a grain circulating lifting machine, wherein one side of the dryer body is provided with a human-computer interface digital control screen; the discharge end of the grain circulation elevator is connected with the feed inlet at the top of the dryer body. Wherein the inside of the dryer body is provided with a grain buffer part, a heat energy recovery bin and a discharge bin from top to bottom; the discharge bin is connected with the feed end of the grain circulation elevator through the conveying part; wherein a mixed flow heating part, a numerical control grain distributor and a carbon fiber far infrared heating part are sequentially arranged in the heat energy recovery bin from top to bottom; wherein the carbon fiber far infrared part is communicated with the mixed flow heating part through a secondary heat energy circulating channel. The utility model discloses both high-efficient environmental protection and energy saving has improved the quality of stoving cereal again, and heat recovery utilizes, and makes cereal thoroughly dry.

Description

Energy-efficient carbon fiber far infrared heating batch formula circulation grain drier

Technical Field

The utility model relates to a grain drying equipment especially relates to energy-efficient carbon fiber far infrared heating formula circulation grain drying machine of wholesale.

Background

The grain drying machine is widely used and popularized in China, but how to achieve energy conservation, high efficiency and environmental protection of the batch type circulating grain drying machine is a problem which needs to be developed and researched. The heating energy of the traditional dryer is as follows: coal, biomass, natural gas, diesel oil, electric heating tubes and the like, and the above energy drying forms have low drying efficiency, serious energy waste, easy existence of secondary pollution and no environmental protection.

Disclosure of Invention

In order to solve the problems, the invention discloses an efficient energy-saving carbon fiber far infrared heating batch type circulating grain dryer which is efficient, environment-friendly and energy-saving, improves the quality of dried grains, recycles heat energy and thoroughly dries the grains.

The efficient energy-saving carbon fiber far infrared heating batch type circulating grain dryer comprises a dryer body and a grain circulating elevator, wherein a human-computer interface digital control screen is arranged on one side of the dryer body; the discharge end of the grain circulation elevator is connected with the feed inlet at the top of the dryer body.

Wherein the inside of the dryer body is provided with a grain buffer part, a heat energy recovery bin and a discharge bin from top to bottom; the discharging bin is connected with the feeding end of the grain circulating elevator through the conveying part; wherein a mixed flow heating part, a numerical control grain distributor and a carbon fiber far infrared heating part are sequentially arranged in the heat energy recovery bin from top to bottom; wherein the carbon fiber far infrared heating part is communicated with the mixed flow heating part through a secondary heat energy circulating channel.

Further, the carbon fiber far infrared heating part comprises a grain vibrating and flowing bed and a plurality of carbon fiber far infrared heating pipes; wherein a plurality of grain combing flow plates are sequentially arranged in the grain vibrating combing flow bed; wherein a carbon fiber far infrared heating pipe is arranged above each grain vibration combing and flowing bed; wherein the carbon fiber far infrared heating pipe is arranged on the heating pipe fixing frame; wherein one end of the heating pipe fixing frame is fastened on the heat energy recovery bin.

Furthermore, the circulating moisture and dust exhausting fan is fixedly arranged on the heat energy recovery bin, and dust removal and dehumidification are carried out in time. The dryness in the bin is ensured.

Furthermore, a plurality of air vents are uniformly distributed on the surface of the grain vibration combing bed, so that the air permeability of grains is ensured, and the heat energy generated after the carbon fiber far infrared heating pipe directly irradiates the grains can be timely emitted.

Further, the inner wall that goes out the feed bin is equipped with a plurality of buffer segment, the buffer segment is the arc, improves the cushion effect, guarantees the stability of cereal ejection of compact.

The utility model discloses a theory of operation is:

1. conveying grains to be dried to a drying machine body through a grain circulating elevator, sequentially passing through a grain buffering part, conveying the grains into a heat energy recovery bin, preheating the grains by a mixed flow heating part, and conveying the grains into a carbon fiber far infrared heating part through a numerical control grain distribution bin;

2. sending the pre-dried grains into a grain vibrating and combing bed, and conveying the grains through each grain combing and combing plate, wherein a carbon fiber far infrared heating pipe is arranged above each grain combing and combing plate in the conveying process and uniformly irradiates the surfaces of the grains through the carbon fiber far infrared heating pipes; because the carbon fiber far infrared ray dryer does not need air media, the carbon fiber far infrared ray dryer can directly radiate and penetrate into grains, and heat energy directly penetrates through the grains, the drying speed can be rapidly improved; and (4) conveying the dried grains into a discharge bin, and conveying the grains into a grain circulating elevator through a conveying part for secondary circulating drying.

3. The heat that carbon fiber far infrared heating pipe produced sends into mixed flow heating portion through secondary heat energy circulation passageway in, preheats cereal, heat utilization rate is high.

The utility model has the advantages that:

1. the carbon fiber far infrared electric heating tube is a high-tech product different from traditional electric heating tubes such as metal wires and halogens, and has the excellent performances of long service life, high electric heating conversion efficiency, far infrared radiation, health, environmental protection and the like.

2. The carbon fiber far infrared ray dryer does not need air media, can directly radiate and penetrate into grains, and heat energy directly penetrates through the grains, so that the drying speed can be rapidly increased; the surface and the inside of the grains are uniformly heated simultaneously, and the heat energy utilization rate is high.

3. The carbon fiber far infrared ray is used for drying, the internal quality of the grains can not be damaged, the secondary pollution can not be generated, and the original taste and high quality of the grains can be ensured. The carbon fiber far infrared dryer is also suitable for drying wheat, corn and other crops.

4. The energy is saved, the arrangement is reasonable, the heat dissipation air of the infrared heating pipes is fully collected, and the grain pre-drying device is used for pre-drying grains in the earlier stage, and is efficient, environment-friendly and energy-saving.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2, a perspective view of fig. 1;

fig. 3 is a schematic structural view of a heating pipe fixing frame;

FIG. 4 is a sectional view of the discharge bin;

FIG. 5 is a schematic view showing the structure of a vibrating grain-combing bed;

list of reference numerals:

wherein 1-drying machine body; 2-a grain circulating elevator; 3-a grain buffer; 4-a heat energy recovery bin; 5-discharging the materials; 6-a conveying section; 7-mixed flow heating part; 8-a numerical control grain distributor; 9-carbon fiber far infrared heating part; 10-secondary heat energy circulation channel; 11-a vibrating and flowing grain bed; 12-carbon fiber far infrared heating pipe; 14-a heating pipe fixing frame; 15-a human-computer interface digital control screen; 11-1-air holes; 5-1-buffer section.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the invention and not as limiting the scope of the invention. It should be noted that as used in the following description, the terms "front," "back," "left," "right," "upper" and "lower" refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-4, the efficient energy-saving carbon fiber far infrared heating batch type circulating grain dryer comprises a dryer body 1 and a grain circulating elevator 2, wherein a human-computer interface digital control screen 15 is arranged on one side of the dryer body 1; the discharge end of the grain circulation elevator 2 is connected with the feed inlet at the top of the dryer body 1.

Wherein, a grain buffer part 3, a heat energy recovery bin 4 and a discharge bin 5 are arranged in the dryer body 1 from top to bottom; the discharge bin 5 is connected with the feed end of the grain circulation elevator 2 through a conveying part 6; wherein a mixed flow heating part 7, a numerical control grain distributor 8 and a carbon fiber far infrared heating part 9 are sequentially arranged in the heat energy recovery bin 4 from top to bottom; wherein the carbon fiber far infrared heating part 9 is communicated with the mixed flow heating part 7 through a secondary heat energy circulating channel 10; wherein the circulating moisture and dust exhausting fan 7 is fixedly arranged on the heat energy recovery bin 4.

The carbon fiber far infrared heating part 9 comprises a grain vibrating and flowing bed 11 and a plurality of carbon fiber far infrared heating pipes 12; wherein a plurality of grain combing flow plates are sequentially arranged in the grain vibrating combing flow bed 11; wherein a carbon fiber far infrared heating pipe 12 is arranged above each grain vibration and flow combing bed 11; wherein the carbon fiber far infrared heating pipe 12 is arranged on the heating pipe fixing frame 14; wherein one end of the heating pipe fixing frame 14 is fastened on the heat energy recovery bin 4.

Grains to be dried are conveyed to a drying machine body 1 through a grain circulation lifting machine 2, sequentially pass through a grain buffering part 3, are conveyed into a heat energy recovery bin 4, are preheated through a mixed flow heating part 7, and are conveyed into a carbon fiber far infrared heating part 9 through a numerical control grain distribution bin 8; the pre-dried grains are sent into a grain vibration comb flow bed 11 and are conveyed through each grain comb flow plate, and in the conveying process, a carbon fiber far infrared heating pipe 12 is arranged above each grain vibration comb flow bed 11 and uniformly irradiates the surfaces of the grains through the carbon fiber far infrared heating pipes 12; because the carbon fiber far infrared ray dryer does not need air media, the carbon fiber far infrared ray dryer can directly radiate and penetrate into grains, and heat energy directly penetrates through the grains, the drying speed can be rapidly improved; the dried grains are sent into a discharging bin 5 and sent into a grain circulating lifting machine through a conveying part for circulating drying again.

As shown in fig. 5, a plurality of air vents 11-1 are uniformly arranged on the surface of the grain combing and flowing board bed 11; the air permeability of the grains is ensured, and the heat energy generated after the carbon fiber far infrared heating pipe directly irradiates the grains can be timely emitted.

As shown in fig. 4, the inner wall of the discharging bin 5 is provided with a plurality of buffer sections 5-1, and the buffer sections 5-1 are arc-shaped; improve the buffer capacity and ensure the stability of grain discharging.

The technical means disclosed in the invention scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features.

Claims (5)

1. The efficient energy-saving carbon fiber far infrared heating batch type circulating grain dryer comprises a dryer body (1) and a grain circulating elevator (2), wherein a human-computer interface digital control screen (15) is arranged on one side of the dryer body (1); the discharge end of the grain circulating elevator (2) is connected with the feed inlet at the top of the drying machine body (1); the method is characterized in that: wherein the drying machine body (1) is internally provided with a grain buffer part (3), a heat energy recovery bin (4) and a discharge bin (5) from top to bottom; the discharging bin (5) is connected with the feeding end of the grain circulating elevator (2) through a conveying part (6); wherein a mixed flow heating part (7), a numerical control grain distributor (8) and a carbon fiber far infrared heating part (9) are sequentially arranged in the heat energy recovery bin (4) from top to bottom; wherein the carbon fiber far infrared heating part (9) is communicated with the mixed flow heating part (7) through a secondary heat energy circulating channel (10).

2. The energy-efficient carbon fiber far infrared heating batch type circulating grain drying machine as claimed in claim 1, characterized in that: the carbon fiber far infrared heating part (9) comprises a grain vibrating and flowing bed (11) and a plurality of carbon fiber far infrared heating pipes (12); wherein a plurality of grain combing flow plates are sequentially arranged in the grain vibrating combing flow bed (11); wherein a carbon fiber far infrared heating pipe (12) is arranged above each grain vibrating and combing bed (11); wherein the carbon fiber far infrared heating pipe (12) is arranged on the heating pipe fixing frame (14); wherein one end of the heating pipe fixing frame (14) is fastened on the heat energy recovery bin (4).

3. The energy-efficient carbon fiber far infrared heating batch type circulating grain drying machine as claimed in claim 1, characterized in that: wherein the circulating moisture and dust exhausting fan (16) is fixedly arranged on the heat energy recovery bin (4).

4. The energy-efficient carbon fiber far infrared heating batch type circulating grain drying machine as claimed in claim 2, characterized in that: wherein a plurality of air vents (11-1) are uniformly distributed on the surface of the grain vibrating and combing bed (11).

5. The energy-efficient carbon fiber far infrared heating batch type circulating grain drying machine as claimed in claim 1, characterized in that: the inner wall of the discharge bin (5) is provided with a plurality of buffer sections (5-1), and the buffer sections (5-1) are arc-shaped.

Images