CN219756888U - Protein feed countercurrent drying equipment - Google Patents

Abstract

The utility model discloses a protein feed countercurrent drying device, which comprises the following components: the device shell, device shell upper end left side is provided with the feed inlet, be provided with down the hopper in the feed inlet, lower hopper left side intercommunication is provided with the feed cylinder, the one end that the hopper was kept away from down to the inside feed cylinder is provided with first motor, first motor output is provided with first pivot, the first pivot outside is provided with the flood dragon blade, the feed cylinder upper end is provided with the intercommunicating pore, the intercommunicating pore passes through the bottom intercommunication of connecting pipe and storage cylinder, lower hopper below is provided with the flitch, the flitch slope sets up, the flitch below is provided with the electric fan heater down, the flitch top is provided with the air exhauster down, device shell bottom is provided with the discharge gate. The utility model is provided with the first motor, the first rotating shaft, the dragon blade, the communication hole, the connecting pipe and the storage cylinder, and the dragon blade can rotate to push feed into the discharging hopper, so that the total feed amount entering the discharging hopper can be conveniently controlled, and the fan heater can conveniently dry the feed.

Description

Protein feed countercurrent drying equipment

Technical Field

The utility model belongs to the technical field of feed processing, and particularly relates to protein feed countercurrent drying equipment.

Background

The feed is a general term for foods of animals raised by all humans, and the general feed in a relatively narrow sense mainly refers to foods of animals raised in agriculture or animal husbandry. The feed comprises more than ten varieties of feed raw materials such as soybean, soybean meal, corn, fish meal, amino acid, miscellaneous meal, additives, whey powder, grease, meat and bone meal, grains, sweet sorghum and the like, and the protein feed generally refers to compound protein feed. The protein feed adopts countercurrent drying equipment to carry out drying treatment in the processing process, and the advancing directions of materials and hot air are opposite, so that the process is called countercurrent drying.

The utility model discloses a feed dryer capable of uniformly drying, which comprises a feed device body, wherein the right side surface of a dryer shell is fixedly connected with the dryer shell, the dryer shell comprises a bolt, a motor, a first conical gear, a second conical gear, a rotating rod, a sliding sleeve, a rotating plate, a bearing, a power supply device, a heating resistor, an isolation window, a feed inlet, a control button and an observation window, one side of the bolt, which is far away from the dryer shell, is fixedly connected with the motor, the dryer shell is provided with the utility model, and the feed can be dried in a rotating way all the time by pressing the start button of the control button, so that the feed drying efficiency is improved, the feed drying quality is also improved, and the device is provided with a drawing dismounting device, so that the processed feed can be directly taken out for cleaning, and the cleaning difficulty of the feed dryer is reduced.

When the device is in use, the total amount of the feed entering the feed device body is inconvenient to control, and when excessive feed is added at one time, the feed can be stacked too thick, and the drying effect on the feed is affected.

Disclosure of Invention

The utility model provides a protein feed countercurrent drying device, and aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a protein feed countercurrent drying device comprises the following components: the device comprises a device shell, a feeding hole is formed in the left side of the upper end of the device shell, a discharging hopper is arranged in the feeding hole, a feeding barrel is arranged in the left side of the discharging hopper in a communicating mode, a first motor is arranged at one end, away from the discharging hopper, of the feeding barrel, a first rotating shaft is arranged at the output end of the first motor, a screw auger blade is arranged at the outer side of the first rotating shaft, a communicating hole is formed in the upper end of the feeding barrel, the communicating hole is communicated with the bottom of the storage barrel through a connecting pipe, a discharging plate is arranged below the discharging hopper, the discharging plate is obliquely arranged, a fan heater is arranged below the discharging plate, an exhaust fan is arranged above the discharging plate, and a discharging hole is formed in the bottom of the device shell.

Furthermore, the communication hole is arranged above the dragon blade, a guide plate is arranged on the right side inside the device shell, and the lower end of the guide plate is arranged above the discharge hole.

Still further, both the blanking plate and the guide plate are provided with ventilation holes.

Still further, the inside fixedly connected with drying cylinder of device shell, the drying cylinder set up in the baffle below, the drying cylinder internal rotation is provided with the second pivot, the second pivot right-hand member runs through the drying cylinder with the device shell and be connected with the output of second motor, the second pivot outside is fixed to be provided with the shoveling plate, the drying cylinder is close to one side of discharge gate is provided with the drying cylinder feed opening.

Further, an electric heating element is arranged on the outer side of the drying cylinder, and three shoveling plates are arranged in total.

Still further, the drying cylinder feed opening is close to one side rotation of device shell leading flank is provided with the third pivot, third pivot outside fixedly connected with circular arc baffle, the third pivot right-hand member runs through the drying cylinder with the device shell is connected with the output of third motor.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model is provided with the feed inlet, the blanking hopper, the feeding barrel, the first motor, the first rotating shaft, the dragon blade, the communication hole, the connecting pipe and the storage barrel, protein feed in the storage barrel enters the feeding barrel through the connecting pipe, the first motor is utilized to drive the first rotating shaft and the dragon blade to rotate, the dragon blade can drive the feed to enter the blanking hopper, the total feed quantity entering the blanking hopper is convenient to control, the feed entering the blanking hopper falls to the bottom of the blanking hopper and slides onto the blanking plate through the arrangement of the blanking plate, the feed rolls downwards along the blanking plate, hot air blown by the fan dries the feed on the blanking plate from bottom to top, the feed on the blanking plate can not be stacked too thick through controlling the total feed quantity entering the blanking plate, the fan heater is convenient to dry the feed, and the dried feed is discharged from the discharge port at the bottom of the shell of the device.

2. Because the utility model is provided with the drying cylinder, the second rotating shaft, the second motor, the shoveling plate, the drying cylinder blanking opening, the electric heating part, the third motor, the third rotating shaft and the circular arc baffle plate, the circular arc baffle plate can be used for blocking the drying cylinder blanking opening, so that the feed falls into the drying cylinder and cannot fall out of the drying cylinder blanking opening immediately, the drying cylinder is convenient for further drying the feed, and then the third motor is used for driving the third rotating shaft to rotate so that the circular arc baffle plate is separated from the drying cylinder blanking opening, and the feed can fall from the drying cylinder blanking opening and is discharged from the discharging opening.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the present utility model;

FIG. 3 is a schematic view of a first cross-sectional structure of the present utility model;

fig. 4 is a schematic view of a second cross-sectional structure of the present utility model.

In the figure: 1. a device housing; 2. a feed inlet; 3. discharging a hopper; 4. a feeding cylinder; 5. a first motor; 6. a first rotating shaft; 7. dragon leaves; 8. a communication hole; 9. a connecting pipe; 10. a storage cylinder; 11. a blanking plate; 12. a warm-air drier; 13. an exhaust fan; 14. a discharge port; 15. a guide plate; 16. a vent hole; 17. the method comprises the steps of carrying out a first treatment on the surface of the 18. A second rotating shaft; 19. a second motor; 20. a shoveling plate; 21. a feed opening of the drying cylinder; 22. an electric heating element; 23. a third rotating shaft; 24. a circular arc baffle; 25. and a third motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, a protein feed countercurrent drying apparatus comprises: the device comprises a device shell 1, a feeding hole 2 is arranged on the left side of the upper end of the device shell 1, a discharging hopper 3 is arranged in the feeding hole 2, an upper charging barrel 4 is communicated with the left side of the discharging hopper 3, a first motor 5 is arranged at one end, far away from the discharging hopper 3, of the inside of the upper charging barrel 4, a first rotating shaft 6 is arranged at the output end of the first motor 5, a screw auger blade 7 is arranged on the outer side of the first rotating shaft 6, a communication hole 8 is arranged at the upper end of the upper charging barrel 4, the communication hole 8 is communicated with the bottom of a storage barrel 10 through a connecting pipe 9, a discharging plate 11 is arranged below the discharging hopper 3, the discharging plate 11 is obliquely arranged, a fan heater 12 is arranged below the discharging plate 11, an exhaust fan 13 is arranged above the discharging plate 11, a discharging hole 14 is arranged at the bottom of the device shell 1, a fan heater and an electric heating wire are arranged in the fan heater 12, the first motor 5, the fan heater 12 and the exhaust fan 13 are all connected with an external known power supply in the prior art, through the arrangement of the feed inlet 2, the discharging hopper 3, the feeding barrel 4, the first motor 5, the first rotating shaft 6, the dragon blade 7, the communication hole 8, the connecting pipe 9 and the storage barrel 10, protein feed in the storage barrel 10 enters the feeding barrel 4 through the connecting pipe 9, the first rotating shaft 6 and the dragon blade 7 are driven to rotate by the first motor 5, the dragon blade 7 can be driven to rotate to push feed into the discharging hopper 3, the total amount of the feed entering the discharging hopper 3 is convenient to control, the feed entering the discharging hopper 3 falls to the bottom of the discharging hopper 3 and slides onto the discharging plate 11 through the arrangement of the discharging plate 11, the feed rolls downwards along the discharging plate 11, hot air blown by the fan heater 12 dries the feed on the discharging plate 11 from bottom to top, the feed on the discharging plate 11 can not be stacked too thick through controlling the total amount of the feed entering the discharging hopper 3, the warm air blower 12 is convenient for drying the feed, and the dried feed is discharged from the discharge port 14 at the bottom of the device shell 1.

The intercommunicating pore 8 sets up in flood dragon blade 7 top, and device housing 1 inside right side is provided with baffle 15, and the lower extreme of baffle 15 sets up in the top of discharge gate 14, and flitch 11 and baffle 15 all are provided with air vent 16, through setting up baffle 15 and air vent 16, and the hot air can pass from air vent 16, and is better to the stoving effect of fodder, and baffle 15 can lead to the fodder for the fodder accurately falls into discharge gate 14.

The inside fixedly connected with drying cylinder 17 of device shell 1, drying cylinder 17 sets up in baffle 15 below, drying cylinder 17 internal rotation is provided with second pivot 18, the right-hand member of second pivot 18 runs through drying cylinder 17 and device shell 1 and is connected with the output of second motor 19, the fixed shoveling plate 20 that is provided with in the outside of second pivot 18, one side that drying cylinder 17 is close to discharge gate 14 is provided with drying cylinder feed opening 21, the outside of drying cylinder 17 is provided with electric heating piece 22, the shoveling plate 20 is provided with three altogether, one side that drying cylinder 17 is close to baffle 15 is provided with the opening, second motor 19 and electric heating piece 22 are all for prior art is connected with outside known power, through setting up drying cylinder 17, second pivot 18, second motor 19, shoveling plate 20, drying cylinder feed opening 21 and electric heating piece 22, the fodder that drops from baffle 15 drops first in drying cylinder 17, electric heating piece 22 can utilize second motor 19 to drive second pivot 18 rotation, the fodder that shoveling plate 20 turns into the inside drying cylinder 17 is further dry, and then drop fodder from drying cylinder 21, and discharge gate 14.

The drying cylinder blanking mouth 21 is provided with the third pivot 23 near one side rotation of the device shell 1 leading flank, the outside fixedly connected with circular arc baffle 24 of third pivot 23, the right-hand member of third pivot 23 runs through drying cylinder 17 and device shell 1 and is connected with the output of third motor 25, third motor 25 is for prior art and outside known power connection, through setting up third motor 25, third pivot 23 and circular arc baffle 24, circular arc baffle 24 and drying cylinder blanking mouth 21 correspond the setting, usable circular arc baffle 24 blocks drying cylinder blanking mouth 21, make the fodder drop to drying cylinder 17 can not fall out from drying cylinder blanking mouth 21 immediately, be convenient for drying cylinder 17 further dries the fodder, then utilize third motor 25 to drive third pivot 23 rotation makes circular arc baffle 24 and drying cylinder blanking mouth 21 separation, the fodder can drop from drying cylinder blanking mouth 21, and discharge gate 14 discharge.

The working principle of the utility model is as follows: during the use, protein fodder in the storage cylinder 10 gets into the feed cylinder 4 inside through connecting pipe 9, utilize first motor 5 to drive first pivot 6 and flood dragon blade 7 rotation, flood dragon blade 7 rotates and can promote fodder and get into hopper 3 under, be convenient for control get into the fodder total amount of hopper 3 under, through setting up flitch 11, electric fan heater 12 and air exhauster 13, the fodder that gets into hopper 3 under drops to hopper 3 bottom and landing to on flitch 11 under, the fodder rolls down along flitch 11, the fodder that electric fan heater 12 blows out is dried to the fodder on flitch 11 from lower supreme, through the fodder total amount that gets into hopper 3 under control, can make fodder on flitch 11 can not pile up too thick, be convenient for electric fan heater 12 to dry the fodder, the fodder of stoving is discharged from the discharge gate 14 of device shell 1 bottom, baffle 15 can lead the fodder, make the fodder fall into in the drying cylinder 17, utilize circular arc baffle 24 to block drying cylinder feed opening 21, make the fodder drop to drying cylinder 17 can not immediately follow drying cylinder feed opening 21 and fall, the drying cylinder 17 rolls down, the fodder is further from motor 17 to the fodder, then can be driven by the third circular arc baffle 21 from the rotation opening of rotation 23, this drying cylinder 21 makes this discharge gate 23 and the work principle is followed.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. Protein feed is drying equipment against current, a serial communication port, including device shell (1), device shell (1) upper end left side is provided with feed inlet (2), be provided with feed hopper (3) in feed inlet (2), feed hopper (3) left side intercommunication is provided with feed cylinder (4), feed cylinder (4) inside keep away from feed hopper (3) one end is provided with first motor (5), first motor (5) output is provided with first pivot (6), first pivot (6) outside is provided with flood dragon blade (7), feed cylinder (4) upper end is provided with intercommunicating pore (8), intercommunicating pore (8) are through connecting pipe (9) and feed cylinder (10) bottom intercommunication, feed hopper (3) below is provided with feed plate (11), feed plate (11) slope sets up, feed plate (11) below is provided with electric fan heater (12), feed plate (11) top is provided with air exhauster (13), bottom device (1) is provided with discharge gate (14).

2. The protein feed counter-current drying apparatus according to claim 1, wherein: the device is characterized in that the communication hole (8) is formed above the dragon blade (7), a guide plate (15) is arranged on the right side inside the device shell (1), and the lower end of the guide plate (15) is arranged above the discharge hole (14).

3. A protein feed counter-current drying apparatus according to claim 2, wherein: the blanking plate (11) and the guide plate (15) are both provided with vent holes (16).

4. A protein feed counter-current drying apparatus according to claim 2, wherein: the device is characterized in that a drying cylinder (17) is fixedly connected inside the device shell (1), the drying cylinder (17) is arranged below the guide plate (15), a second rotating shaft (18) is rotationally arranged inside the drying cylinder (17), the right end of the second rotating shaft (18) penetrates through the drying cylinder (17) and the device shell (1) and is connected with the output end of a second motor (19), a shoveling plate (20) is fixedly arranged outside the second rotating shaft (18), and a drying cylinder blanking opening (21) is formed in one side, close to the discharge hole (14), of the drying cylinder (17).

5. The protein feed counter-current drying apparatus according to claim 4, wherein: an electric heating element (22) is arranged on the outer side of the drying cylinder (17), and three shoveling plates (20) are arranged in total.

6. The protein feed counter-current drying apparatus according to claim 5, wherein: the drying cylinder blanking opening (21) is rotatably provided with a third rotating shaft (23) near one side of the front side surface of the device shell (1), an arc baffle (24) is fixedly connected to the outer side of the third rotating shaft (23), and the right end of the third rotating shaft (23) penetrates through the drying cylinder (17) and the device shell (1) and is connected with the output end of a third motor (25).