CN110081697A - A kind of grain drying device of uniformly defeated wind - Google Patents

Abstract

The invention discloses a kind of grain drying devices of uniformly defeated wind, it include: warehouse for drying, S-shaped structure thermal cycle pipeline is fixedly installed in the inner cavity of the warehouse for drying, the bottom right side of the warehouse for drying is fixedly installed with air-heater, the air-heater is fixedly connected with the tail end of S-shaped structure thermal cycle pipeline, side wall of the head end of the S-shaped structure thermal cycle pipeline on the left of warehouse for drying is fixedly connected with air outlet, charging basket is fixedly installed at the top of the warehouse for drying, feeder pipe is fixedly connected between its bottom and the head end top side of S-shaped structure thermal cycle pipeline, the tail end bottom side of the S-shaped structure thermal cycle pipeline is fixedly installed with discharge port, grain processing field of the present invention, play the role of sub-material, drive grain fluffy, uniformly pass through S-shaped structure thermal cycle pipeline, can guarantee wind speed from the tail end of S-shaped structure thermal cycle pipeline to Wind speed when head end conveys keeps almost the same, has the characteristics that drying efficiency height and energy saving.

Description

A kind of grain drying device of uniformly defeated wind

Technical field:

The present invention relates to grain processing fields, and in particular to a kind of grain drying device of uniformly defeated wind.

Background technique:

It before storing the cereal such as paddy and wheat needs that cereal is dried, commonly used approach It is that cereal is carried out to exposure, and this drying means inefficiency is easy to be influenced by weather and geographical environment, many peasants Cereal also had into a security risk exposure to road side, now commonly used crop dryer replaces traditional grain dry side Method.

Crop dryer is mainly used for the drying of paddy and wheat, can be also used for robbing after slightly improving and dries the farmings such as vegetable seed Object.Crop dryer is made of main components such as coal stove, motor, axial flow blower and piling bins.Electricity when crop dryer works Motivation drives the impeller high speed rotation of axial flow blower, and the hot-air for generating coal stove burning sucks blower through the top of wind isolation board, Gaseous mixture is formed with from the cold air of wind isolation board lower part sucking blower, is spread after entering piling bin by wind sheltering pipe, works as gaseous mixture Through on piling bin paddy layer when, on one side properly increase millet temperature, taking away a large amount of vapor on one side does millet gradually It is dry.The temperature of gaseous mixture can be adjusted by the difference of temperature adjustment cover, temperature adjusting plate opening angle.In order to keep millet dry equal It is even, paddy must be stirred through common spade.

Existing crop dryer is to the direct hot-air seasoning of grain, and the temperature in warehouse for drying is higher, and grain is directly entered drying In storehouse, the quality of grain can be destroyed, and cannot have incremental drying effect to grain, and grain is in warehouse for drying Density is unable to control, and wind speed of the hot wind in warehouse for drying, which will receive grain resistance and the influence of acceleration of gravity, causes wind speed uneven It is even, influence the drying effect to grain.

Summary of the invention:

Technical problem to be solved by the present invention lies in a kind of grain drying device of uniformly defeated wind is provided, sub-material is played Effect drives grain fluffy, uniform by S-shaped structure thermal cycle pipeline, the mouth of S-shaped structure thermal cycle pipeline head end to tail end The structure that diameter is gradually increased can guarantee that wind speed when wind speed is conveyed from the tail end of S-shaped structure thermal cycle pipeline to head end keeps base This is consistent, has the characteristics that drying efficiency height and energy saving.

The following technical solution is employed for the technical problems to be solved by the invention to realize: a kind of grain baking of uniformly defeated wind Equipment for drying, comprising: warehouse for drying is fixedly installed with S-shaped structure thermal cycle pipeline, the S-shaped structure in the inner cavity of the warehouse for drying The bore of thermal cycle pipeline 10 head end to tail end is gradually increased, and the bottom right side of the warehouse for drying is fixedly installed with air-heater, institute It states air-heater to be fixedly connected with the tail end of S-shaped structure thermal cycle pipeline, the head end of the S-shaped structure thermal cycle pipeline is through drying Side wall on the left of storehouse is fixedly connected with air outlet, and the air outlet is located at the left side top of warehouse for drying, the top of the warehouse for drying It is fixedly installed with charging basket, is fixedly connected with blanking between the bottom of the charging basket and the head end top side of S-shaped structure thermal cycle pipeline Pipe, feeder pipe are connected to S-shaped structure thermal cycle pipeline, and the tail end bottom side of the S-shaped structure thermal cycle pipeline is fixedly installed with out Material mouth.

Preferably, the bottom of the warehouse for drying is fixedly installed with four groups of stabilizer blades, enhances stability.

Preferably, it is fixedly installed with control valve on the discharge port, plays the role of controlling blanking.

Preferably, the head end of the S-shaped structure thermal cycle pipeline and the inner cavity of tail end are fixedly installed with isolating metal net, The function of lattice gear grain can be played.

Preferably, it being fixedly installed between the charging basket and warehouse for drying and allocates storehouse, the storehouse of allocating is set as cylindrical shape, It is installed on the top side left part of warehouse for drying, the top side left part of the warehouse for drying is fixedly installed with motor, and the top of the motor is fixed It is connected with shaft, the inner cavity for allocating storehouse, side are protruded into the bottom side for allocating storehouse through the top side of warehouse for drying in the top of the shaft Wall is fixedly connected with three groups of blades, and the blade will allocate storehouse and be divided into equal-sized three using shaft as origin central distribution Chamber, described allocate are fixedly connected with overhead gage at the top of storehouse, the bottom for allocating storehouse is fixedly connected with lower baffle plate, it is described on Feeder pipe is fixedly connected between the right hand top of baffle and the bottom of charging basket, left bottom and the S-shaped structure heat of lower baffle plate are followed It is fixedly connected with connecting tube between the head end top side in endless tube road, hopper is fallen by feeder pipe and allocated in storehouse, the used shaft band of motor Movable vane piece rotation, is allocating each chamber in storehouse for the uniform sub-material of grain in hopper, imports S-shaped structure heat by connecting tube In circulating line, play the role of sub-material, drives grain fluffy, uniform by S-shaped structure thermal cycle pipeline, there is drying effect Rate height and energy saving feature；

Preferably, the bottom of the blade 7 is fixedly connected to hairbrush 8, the hairbrush 8 and the intracavity bottom for allocating storehouse 4 It fits closely, can guarantee the leakproofness for making blade new-added item and the intracavity bottom for allocating storehouse during rotation, storehouse will be allocated Interior grain is conveyed.

The working principle of the invention: the present invention by air-heater by hot wind by the upward gas transmission of S-shaped structure thermal cycle duct bottom, Hopper downwards falls into grain blanking in S-shaped structure thermal cycle pipeline, drives grain to turn round in S-shaped structure thermal cycle pipeline defeated It is contacted after sending with hot wind and plays drying effect, and be able to extend time of the grain in warehouse for drying, finally exported by discharge port.

The beneficial effects of the present invention are: the S-shaped structure thermal cycle pipeline that the present invention is arranged can reduce dress in warehouse for drying The volume set and the loss for reducing heat, and it is able to extend time of the grain in warehouse for drying；

Air-heater provides hot wind, and hot wind conveys hot gas from S-shaped structure thermal cycle pipeline tail end to head end, and heat is in S-shaped knot Heat gradually uses up in the transmission process of structure thermal cycle pipeline, cause temperature in S-shaped structure thermal cycle pipeline from the bottom to top by It gradually reduces, the grain in charging basket is caudad conveyed by the head end of S-shaped structure thermal cycle pipeline, and the heat of grain heat-drying is from top to bottom It gradually rises, can gradually increase temperature to the process that grain adapts to gradually in dropping process, prevent grain from abruptly entering The quality and quality of grain are influenced in hot environment；

The bore of S-shaped structure thermal cycle pipeline head end to the tail end is gradually increased, and air-heater is by hot wind by S-shaped structure heat The tail end of circulating line is to head end heat air delivery, and for hot wind when touching grain, grain has resistance to wind, along with grain exists The influence of the acceleration of gravity generated when the shape structure thermal cycle pipeline of S, common S-shaped structure thermal cycle pipeline is in hot wind From tail end, into the transmission process of head end, wind energy is gradually reduced, and causes the wind speed of hot wind more up to convey wind-force smaller, and this Shen Please in the wind speed of hot wind can be made under using the structure that is gradually increased of bore of S-shaped structure thermal cycle pipeline head end to tail end Gradually accelerate the flow of wind speed during supreme defeated wind, then the resistance and grain that generate during contacting with grain are by upper Wind speed can be guaranteed from the tail end of S-shaped structure thermal cycle pipeline to head end after offsetting to the acceleration of gravity generated when lower conveying Wind speed when conveying keeps almost the same, to improve the effect of drying, is finally exported by discharge port.

Detailed description of the invention:

Fig. 1 is the structural schematic diagram of the embodiment of the present invention 1；

Fig. 2 is the structural schematic diagram of S-shaped structure thermal cycle pipeline in the present invention；

Fig. 3 is the structural schematic diagram of the embodiment of the present invention 2；

Fig. 4 is the explosive view that device is allocated in multipage rotation in the present invention；

Wherein: 1, warehouse for drying；2, charging basket；3, feeder pipe, 4, allocate storehouse；401, overhead gage；402, lower baffle plate；5, motor； 6, shaft；7, blade；8, hairbrush；9, connecting tube；10, S-shaped structure thermal cycle pipeline；11, air-heater；12, air outlet；13, every From metal mesh；14, discharge port；15, control valve；16, stabilizer blade.

Specific embodiment:

In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below Conjunction is specifically illustrating, and the present invention is further explained.

Embodiment 1: as shown in Figs. 1-2, a kind of grain drying device of uniformly defeated wind, comprising: warehouse for drying 1, the drying The bottom in storehouse 1 is fixedly installed with four groups of stabilizer blades 16, enhances stability.

S-shaped structure thermal cycle pipeline 10 is fixedly installed in the inner cavity of the warehouse for drying 1, S-shaped structure thermal cycle pipeline exists The volume of device can be reduced in warehouse for drying and reduce the loss of heat, hot wind is from S-shaped structure thermal cycle pipeline tail end to head End conveying hot gas, and it is able to extend time of the grain in warehouse for drying.

The bore of S-shaped structure thermal cycle pipeline 10 head end to the tail end is gradually increased, and air-heater is by hot wind by S-shaped structure The tail end of thermal cycle pipeline 10 is to head end heat air delivery, and for hot wind when touching grain, grain has resistance to wind, adds grain The influence of the acceleration of gravity generated in the shape structure thermal cycle pipeline of S is eaten, common S-shaped structure thermal cycle pipeline exists From tail end, the wind energy into the transmission process of head end is gradually reduced hot wind, causes the wind speed of hot wind more up to convey wind-force smaller, and The structure that bore in the application using S-shaped structure thermal cycle pipeline 10 head end to tail end is gradually increased can make the wind speed of hot wind Gradually accelerate the flow of wind speed during defeated wind from the bottom to top, then the resistance and grain that generate during contacting with grain The acceleration of gravity that food generates when from top to bottom conveying can guarantee wind speed by the tail of S-shaped structure thermal cycle pipeline 10 after offsetting Wind speed when conveying to head end is held to keep almost the same, to improve the effect of drying.

The head end of the S-shaped structure thermal cycle pipeline 10 and the inner cavity of tail end are fixedly installed with isolating metal net 13, energy Enough play the function of lattice gear grain.

The bottom right side of the warehouse for drying 1 is fixedly installed with air-heater 11, the air-heater 11 and S-shaped structure heat circulation pipe The tail end in road 10 is fixedly connected, and side wall of the head end of the S-shaped structure thermal cycle pipeline 10 through 1 left side of warehouse for drying is fixedly connected There is air outlet 12, the air outlet 12 is located at the left side top of warehouse for drying 1, and the top of the warehouse for drying 1 is fixedly installed with charging basket 2, feeder pipe 3, feeder pipe 3 are fixedly connected between the bottom of the charging basket 2 and the head end top side of S-shaped structure thermal cycle pipeline 10 It is connected to S-shaped structure thermal cycle pipeline 10, the tail end bottom side of the S-shaped structure thermal cycle pipeline 10 is fixedly installed with discharge port 14。

It is fixedly installed with control valve 15 on the discharge port 14, plays the role of controlling blanking.

The present invention by air-heater by hot wind by the upward gas transmission of S-shaped structure thermal cycle duct bottom, hopper downwards will be under grain Material fall into S-shaped structure thermal cycle pipeline, drive grain turns round in S-shaped structure thermal cycle pipeline convey after contacted with hot wind To drying effect, finally exported by discharge port.

The S-shaped structure thermal cycle pipeline that the present invention is arranged can reduce the volume of device in warehouse for drying and reduce heat Loss, hot wind conveys hot gas from S-shaped structure thermal cycle pipeline tail end to head end, and is able to extend grain in warehouse for drying Time, heat heat in the transmission process of S-shaped structure thermal cycle pipeline gradually use up, cause in S-shaped structure thermal cycle pipeline Temperature gradually decrease from the bottom to top, the grain in charging basket by S-shaped structure thermal cycle pipeline head end caudad convey drying Heat from top to bottom gradually rises, and can prevent grain from abruptly entering height to the process that grain adapts to gradually in dropping process The quality and quality that grain is influenced in warm environment, are finally exported by discharge port.

Embodiment 2: as shown in Figs 1-4, a kind of grain drying device of uniformly defeated wind, comprising: warehouse for drying 1, the drying The bottom in storehouse 1 is fixedly installed with four groups of stabilizer blades 16, enhances stability.

S-shaped structure thermal cycle pipeline 10 is fixedly installed in the inner cavity of the warehouse for drying 1, S-shaped structure thermal cycle pipeline exists The volume of device can be reduced in warehouse for drying and reduce the loss of heat, hot wind is from S-shaped structure thermal cycle pipeline tail end to head End conveying hot gas, and it is able to extend time of the grain in warehouse for drying.

The bore of S-shaped structure thermal cycle pipeline 10 head end to the tail end is gradually increased, and air-heater is by hot wind by S-shaped structure The tail end of thermal cycle pipeline 10 is to head end heat air delivery, and for hot wind when touching grain, grain has resistance to wind, adds grain The influence of the acceleration of gravity generated in the shape structure thermal cycle pipeline of S is eaten, common S-shaped structure thermal cycle pipeline exists From tail end, the wind energy into the transmission process of head end is gradually reduced hot wind, causes the wind speed of hot wind more up to convey wind-force smaller, and The structure that bore in the application using S-shaped structure thermal cycle pipeline 10 head end to tail end is gradually increased can make the wind speed of hot wind Gradually accelerate the flow of wind speed during defeated wind from the bottom to top, then the resistance and grain that generate during contacting with grain The acceleration of gravity that food generates when from top to bottom conveying can guarantee wind speed by the tail of S-shaped structure thermal cycle pipeline 10 after offsetting Wind speed when conveying to head end is held to keep almost the same, to improve the effect of drying.

The head end of the S-shaped structure thermal cycle pipeline 10 and the inner cavity of tail end are fixedly installed with isolating metal net 13, energy Enough play the function of lattice gear grain.

The bottom right side of the warehouse for drying 1 is fixedly installed with air-heater 11, the air-heater 11 and S-shaped structure heat circulation pipe The tail end in road 10 is fixedly connected, and side wall of the head end of the S-shaped structure thermal cycle pipeline 10 through 1 left side of warehouse for drying is fixedly connected There is air outlet 12, the air outlet 12 is located at the left side top of warehouse for drying 1, and the top of the warehouse for drying 1 is fixedly installed with charging basket 2。

It is fixedly installed between the charging basket and warehouse for drying and allocates storehouse, the storehouse of allocating is set as cylindrical shape, the material It is fixedly installed between bucket 2 and warehouse for drying 1 and allocates storehouse 4, the storehouse 4 of allocating is set as cylindrical shape, is installed on the top of warehouse for drying 1 Side left part, the top side left part of the warehouse for drying 1 are fixedly installed with motor 5, and the top of the motor 5 is fixedly connected with shaft 6, institute The inner cavity for allocating storehouse 4 is protruded into the bottom side for allocating storehouse 4 through the top side of warehouse for drying 1 in the top for stating shaft 6, and side wall is fixedly connected There are three groups of blades 7.

The bottom of the blade 7 is fixedly connected to hairbrush 8, and the hairbrush 8 is closely pasted with the intracavity bottom for allocating storehouse 4 It closes, can guarantee the leakproofness for making blade new-added item and the intracavity bottom for allocating storehouse during rotation, the grain that will be allocated in storehouse Food is conveyed, and the blade 7, for origin central distribution, will be allocated storehouse 4 and be divided into equal-sized three chambers, institute with shaft 6 It states and allocates the top in storehouse 4 and be fixedly connected with overhead gage 401, the bottom for allocating storehouse 4 is fixedly connected with lower baffle plate 402, described Feeder pipe 3, the left bottom and S of lower baffle plate 402 are fixedly connected between the right hand top of overhead gage 401 and the bottom of charging basket 2 It is fixedly connected with connecting tube 9 between the head end top side of shape structure thermal cycle pipeline 10, hopper is fallen by feeder pipe and allocated in storehouse, electricity The used shaft band movable vane piece of machine rotates, and the uniform sub-material of grain in hopper is being allocated each chamber in storehouse, by connecting tube It imports in S-shaped structure thermal cycle pipeline, plays the role of sub-material, drive grain fluffy, uniform by S-shaped structure heat circulation pipe Road has the characteristics that drying efficiency height and energy saving；

The tail end bottom side of the S-shaped structure thermal cycle pipeline 10 is fixedly installed with discharge port 14, consolidates on the discharge port 14 Dingan County is equipped with control valve 15, plays the role of controlling blanking.

The present invention by air-heater by hot wind by the upward gas transmission of S-shaped structure thermal cycle duct bottom, hopper downwards will be under grain Material fall into S-shaped structure thermal cycle pipeline, drive grain turns round in S-shaped structure thermal cycle pipeline convey after contacted with hot wind To drying effect, finally exported by discharge port.

The S-shaped structure thermal cycle pipeline that the present invention is arranged can reduce the volume of device in warehouse for drying and reduce heat Loss, hot wind conveys hot gas from S-shaped structure thermal cycle pipeline tail end to head end, and is able to extend grain in warehouse for drying Time, heat heat in the transmission process of S-shaped structure thermal cycle pipeline gradually use up, cause in S-shaped structure thermal cycle pipeline Temperature gradually decrease from the bottom to top, the grain in charging basket by S-shaped structure thermal cycle pipeline head end caudad convey drying Heat from top to bottom gradually rises, and can prevent grain from abruptly entering height to the process that grain adapts to gradually in dropping process The quality and quality that grain is influenced in warm environment, are finally exported by discharge port.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (6)

1. it is a kind of uniformly defeated wind grain drying device characterized by comprising warehouse for drying (1), the warehouse for drying (1) it is interior S-shaped structure thermal cycle pipeline (10), the bore of S-shaped structure thermal cycle pipeline (10) head end to tail end are fixedly installed in chamber It is gradually increased, the bottom right side of the warehouse for drying (1) is fixedly installed with air-heater (11), the air-heater (11) and S-shaped structure The tail end of thermal cycle pipeline (10) is fixedly connected, and the head end of the S-shaped structure thermal cycle pipeline (10) is on the left of warehouse for drying (1) Side wall be fixedly connected with air outlet (12), the air outlet (12) is located at the left side top of warehouse for drying (1), the warehouse for drying (1) it is fixedly installed at the top of charging basket (2), the bottom of the charging basket (2) and the head end top side of S-shaped structure thermal cycle pipeline (10) Between be fixedly connected with feeder pipe (3), feeder pipe (3) is connected to S-shaped structure thermal cycle pipeline (10), and the S-shaped structure heat is followed The tail end bottom side in endless tube road (10) is fixedly installed with discharge port (14).

2. a kind of grain drying device of uniformly defeated wind according to claim 1, it is characterised in that: the warehouse for drying (1) Bottom be fixedly installed with four groups of stabilizer blades (16).

3. a kind of grain drying device of uniformly defeated wind according to claim 1, it is characterised in that: the discharge port (14) On be fixedly installed with control valve (15).

4. a kind of grain drying device of uniformly defeated wind according to claim 1, it is characterised in that: the S-shaped structure heat The head end of circulating line (10) and the inner cavity of tail end are fixedly installed with isolating metal net (13).

5. it is according to claim 1 it is a kind of uniformly defeated wind grain drying device, it is characterised in that: the charging basket (2) with It is fixedly installed with and allocates storehouse (4) between warehouse for drying (1), the storehouse (4) of allocating is set as cylindrical shape, is installed on warehouse for drying (1) Top side left part, the top side left part of the warehouse for drying (1) is fixedly installed with motor (5), is fixedly connected at the top of the motor (5) Have shaft (6), the top of the shaft (6), which is protruded into through the top side of warehouse for drying (1) with the bottom side for allocating storehouse (4), allocates storehouse (4) Inner cavity, side wall is fixedly connected with three groups of blades (7), and the blade (7) for origin central distribution, will be allocated with shaft (6) Storehouse (4) is divided into equal-sized three chambers, and described allocate is fixedly connected with overhead gage (401) at the top of storehouse (4), described to allocate The bottom in storehouse (4) is fixedly connected with lower baffle plate (402), between the right hand top of the overhead gage (401) and the bottom of charging basket (2) Be fixedly connected with feeder pipe (3), the head end top side of the left bottom of lower baffle plate (402) and S-shaped structure thermal cycle pipeline (10) it Between be fixedly connected with connecting tube (9).

6. a kind of grain drying device of uniformly defeated wind according to claim 1, it is characterised in that: the blade (7) Bottom is fixedly connected to hairbrush (8), and the hairbrush (8) fits closely with the intracavity bottom for allocating storehouse (4).