CN115608621B

CN115608621B - Cereal fodder edulcoration device

Info

Publication number: CN115608621B
Application number: CN202211636162.5A
Authority: CN
Inventors: 刘英杰; 张清锋; 张月娥; 李建西; 杜晶晶; 陈晓君; 赵娜; 刘潇潇; 柴丹丹; 魏唯; 孟园园; 吴显超
Original assignee: Henan Shuangyou Feed Co ltd
Current assignee: Henan Shuangyou Feed Co ltd
Priority date: 2022-12-20
Filing date: 2022-12-20
Publication date: 2023-03-10
Anticipated expiration: 2042-12-20
Also published as: CN115608621A

Abstract

The invention relates to the field of impurity removal, in particular to a grain feed impurity removal device. The cleaning machine comprises a rack, wherein a shell is arranged on the rack, a first cleaning mechanism and a second cleaning mechanism are arranged in the shell, the first cleaning mechanism is used for cleaning fiber impurities in materials, the second cleaning mechanism is positioned below the first cleaning mechanism, and the second cleaning mechanism is used for cleaning iron impurities in the materials; the third cleaning mechanism is arranged below the second cleaning mechanism and comprises a rotary drum and a first induced draft pipe, and the third cleaning mechanism is used for removing stone impurities in the materials. According to the invention, through arranging the first cleaning mechanism, the second cleaning mechanism and the third cleaning mechanism, different types of impurities in the material can be cleaned, and meanwhile, the third cleaning mechanism adopts the matching of the rotary drum and wind power, so that the vibration is small, the noise is low, the device structure is compact and reasonable, the occupied area is small, and the practicability is high.

Description

Cereal fodder edulcoration device

Technical Field

The invention relates to the field of impurity removal, in particular to a grain feed impurity removal device.

Background

In production, an impurity removal device is generally used for cleaning solid impurities in solid raw materials so as to facilitate subsequent processing. The grain feed inevitably contains a large amount of impurities in the raw material harvesting stage, so the grain feed needs to be subjected to impurity removal. Grain trash remover among the relevant art is difficult to handle to multiple type impurity, for example chinese patent document with grant publication No. CN 215843579U just discloses a fodder raw materials screening cleaning device, and the device realizes the clearance to woven bag residue in the fodder and impurity such as iron nail through setting up replacement mechanism and magnet, but the device can't clear away stone class impurity, and then the cleaning capacity is limited. At the present stage, a specific gravity stoner is usually adopted to treat stone impurities, the specific gravity stoner adopts a vibration principle to remove stones, vibration is large, noise is large, and meanwhile, the specific gravity stoner only aims at the impurities such as stones, metal, soil blocks and the like, and is single in cleaning function, large in equipment and poor in economical efficiency.

Disclosure of Invention

According to the defects of the prior art, the invention provides the grain feed impurity removing device which can remove various impurities in the grain feed and has the advantages of small equipment volume, compact structure, small vibration and low noise.

The invention relates to a grain feed impurity removal device, which adopts the following technical scheme: the cleaning machine comprises a rack, wherein a shell is arranged on the rack, a first cleaning mechanism and a second cleaning mechanism are arranged in the shell, the first cleaning mechanism is used for cleaning fiber impurities in materials, the second cleaning mechanism is positioned below the first cleaning mechanism, and the second cleaning mechanism is used for cleaning iron impurities in the materials; a third cleaning mechanism is arranged below the second cleaning mechanism and used for cleaning stone impurities in the material;

the third cleaning mechanism comprises a rotary drum and a first induced draft pipe, and the rotary drum comprises a drum body, a first baffle, a second baffle, a third baffle and a discharge pipe; the discharging pipe is connected to the center of the bottom of the barrel, and a stone storage bin is defined by the outer peripheral wall of the discharging pipe and the inner wall of the lower end of the rotary drum;

the lower end of the first induced duct is located inside the barrel, the upper end is communicated with the outside, the upper end of the first induced duct is connected with a first fan, a guide plate is sleeved on the first induced duct, the guide plate is located inside the barrel and used for guiding materials to the inner wall of the barrel, one section of the first induced duct below the guide plate and the side wall of the barrel are provided with a plurality of air holes, the rotary drum has a first preset rotating speed and a second preset rotating speed, the first preset rotating speed is greater than the second preset rotating speed, the first induced duct is outwards drafted from the inside of the rotary drum during working, the rotary drum rotates for preset time at the first preset rotating speed, then the rotary drum is switched to the second rotating speed to rotate, and the second baffle and the third baffle are in front of the rotating direction of the rotary drum, and the first baffle is behind.

Optionally, the drum is rotated by a first driving mechanism, and the first driving mechanism is a belt transmission mechanism.

Optionally, first clearance mechanism includes two live rollers, and two live rollers parallel interval set up and extend along the fore-and-aft direction level, and two synchronous antiport of live roller of during operation, the periphery wall of every live roller all is provided with a plurality of hook rods, and the hook rod has the multiseriate along the circumferencial direction equipartition of live roller, and each is listed as has a plurality ofly, and the upper end of casing has the feed inlet, and the feed inlet corresponds with the live roller.

Optionally, the second clearance mechanism includes adsorption roller and permanent magnet, and adsorption roller is along fore-and-aft direction horizontal installation inside the casing and can rotate, and the permanent magnet is installed in the casing and coaxial setting in the inside of adsorption roller, and one side of permanent magnet has the breach that link up from beginning to end, and the inside iron impurity that is provided with of casing stores the storehouse, and the entry that the storehouse was stored to iron impurity is located to correspond with the breach of permanent magnet.

Optionally, the side wall of the shell is provided with a second induced air pipe communicated with the interior of the shell, the second induced air pipe is located below the adsorption roller and located on the opposite side of the iron impurity storage bin, and a second fan is connected to the second induced air pipe.

Optionally, a plurality of fourth baffles which incline downwards are arranged in the shell, and the fourth baffles are arranged in a staggered manner at intervals from top to bottom.

Optionally, a second motor is arranged on the outer side of the shell, a driving belt wheel is arranged on the second motor, gears are arranged at one ends of the two rotating rollers, the two gears are meshed with each other, a first driven belt wheel is arranged on one of the rotating rollers, and a first transmission belt is sleeved between the driving belt wheel and the first driven belt wheel; one end of the adsorption roller is provided with a second driven belt wheel, and a second transmission belt is sleeved between the driving belt wheel and the second driven belt wheel.

The beneficial effects of the invention are: the grain feed impurity removal device is provided with the first cleaning mechanism, the second cleaning mechanism and the third cleaning mechanism, so that different kinds of impurities such as fiber impurities, iron impurities, stones and the like in materials can be removed, the impurity removal effect is good, and the practicability is high. Meanwhile, the third cleaning mechanism is matched with the wind power through the rotary drum, so that the vibration is small, the noise is low, the device is compact and reasonable in structure, the occupied area is small, the economy is good, and the practicability is further improved.

Drawings

In order to illustrate embodiments of the invention or prior art solutions more clearly, the drawings that are needed in the description of embodiments or prior art will be briefly described below, it being apparent that the drawings in the description below are only some embodiments of the invention and that other drawings may be derived by those skilled in the art without inventive effort, and it will be understood that the drawings are not necessarily drawn to scale.

FIG. 1 is a schematic view of the overall structure of a grain feed impurity removing device according to the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a cross-sectional view of the drum of the present invention;

FIG. 5 is a perspective view of the drum of the present invention.

In the figure: 1. a housing; 2. a gear; 3. a second motor; 4. a second driven pulley; 5. a second induced draft tube; 6. a feed inlet; 7. a blanking port; 8. a first induced draft pipe; 81. a baffle; 9. a drum; 91. a first baffle plate; 92. a second baffle; 93. a third baffle; 94. a stone storage bin; 95. a discharge pipe; 96. a barrel; 961. a first tread band position; 962. a second race track position; 963. a cylinder upper cover; 10. a rotating roller; 11. a fourth baffle; 12. an adsorption roller; 13. a permanent magnet; 14. iron impurity storage storehouse.

Detailed description of the preferred embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the grain feed impurity removing device of the present invention includes a frame (not shown in the figures), wherein a housing 1 is disposed on the frame, a first cleaning mechanism and a second cleaning mechanism are disposed inside the housing 1, the first cleaning mechanism is used for removing fiber impurities in a material, the second cleaning mechanism is located below the first cleaning mechanism, and the second cleaning mechanism is used for removing iron impurities in the material; the third cleaning mechanism is arranged below the second cleaning mechanism and used for removing stone impurities in the materials.

The third cleaning mechanism comprises a rotary drum 9 and a first induced air pipe 8, wherein the rotary drum 9 comprises a drum body 96, a first baffle plate 91, a second baffle plate 92, a third baffle plate 93 and a discharge pipe 95; the lower extreme of casing 1 has blanking mouth 7, barrel 96 is connected with blanking mouth 7 and can rotates around vertical axis, first baffle 91 is vertical to be set up in the inner wall of barrel 96, first baffle 91 has a plurality ofly and follows the circumferencial direction equipartition, second baffle 92 and third baffle 93 level set up in same one side of first baffle 91, the interval of third baffle 93 sets up in the below of second baffle 92, discharging pipe 95 is connected at the bottom center of barrel 96, stone storage bin 94 is injectd with the lower extreme inner wall of rotary drum 9 to the periphery wall of discharging pipe 95.

The lower end of the first induced duct 8 is located inside the barrel 96, the upper end of the first induced duct is communicated with the outside, the upper end of the first induced duct 8 is connected with a first fan, a guide plate 81 is sleeved on the first induced duct 8, the guide plate 81 is located inside the barrel 96 and used for guiding materials to the inner wall of the barrel 96, one section of the first induced duct 8 located below the guide plate 81 is provided with uniform air holes, the side wall of the barrel 96 is also provided with uniform air holes, which needs to be explained, the air holes of the first induced duct 8 and the rotating drum 9 can only ventilate, the rotating drum 9 has a first preset rotating speed and a second preset rotating speed, the first preset rotating speed is greater than the second preset rotating speed, the first induced duct 8 drafts outwards from the inside of the rotating drum 9 during working, the rotating drum 9 rotates for a preset time at the first preset rotating speed, then the rotating drum is switched to rotate at the second rotating speed, and the second baffle 92 and the third baffle 93 are in front relative to the rotating direction of the rotating drum 9, and the first baffle 91 is behind. The material gets into rotary drum 9 from second clearance mechanism, rotary drum 9 rotates with first predetermined rotational speed at a high speed, the material moves and piles up in second baffle 92 and third baffle 93 to the inner wall of rotary drum 9 under the effect of centrifugal force when rotary drum 9 rotates, after the predetermined time, rotary drum 9 switches into the rotation of second predetermined speed low-speed, the material relies on self inertia to move forward and whereabouts relative second baffle 92 and third baffle 93, simultaneously because the rotational speed of rotary drum 9 reduces, the rotational speed of material also reduces gradually, the centrifugal force that the material received reduces, the centrifugal force that wind-force overcame the material makes cereal move to the center of rotary drum 9, and final material flows out through discharging pipe 95, but this moment because the quality of stone impurity is great relative cereal, the centrifugal force of stone can't be overcame to wind-force, so the stone will slide down along the inner wall of rotary drum 9 and fall into stone storage bin 94 and store. According to the invention, through arranging the first cleaning mechanism, the second cleaning mechanism and the third cleaning mechanism, different types of impurities in the material can be cleaned, and meanwhile, the third cleaning mechanism adopts the matching of the rotary drum 9 and wind power, so that the vibration is small, the noise is low, the device structure is compact and reasonable, the occupied area is small, and the practicability is high.

Further, the drum 9 is driven to rotate by a first driving mechanism, and the first driving mechanism is a belt transmission mechanism. Specifically, the barrel 96 is provided with a first belt running position 961 and a second belt running position 962, the first belt running position 961 and the second belt running position 962 are provided with a first synchronous belt wheel, the frame is provided with a first motor, an output shaft of the first motor is provided with a second synchronous belt wheel, the first synchronous belt wheel and the second synchronous belt wheel are wound with belt running, the first motor drives the rotary drum 9 to rotate through the belt running, and the rotary drum 9 is provided with a first preset rotating speed and a second preset rotating speed by controlling the rotating speed of the first motor. For better blanking, the middle main body of the barrel 96 is of an inverted cone structure, the first belt running position 961 is arranged at the upper end of the middle main body, the second belt running position 962 is arranged at the lower end of the middle main body, the first belt running position 961 and the second belt running position 962 are cylindrical, the upper end of the first belt running position 961 is an upper barrel cover 963, and the upper barrel cover 963 is of a forward cone structure and is rotatably connected with the blanking port 7 of the shell 1.

In further embodiment, first clearance mechanism includes two live-rollers 10, two live-rollers 10 parallel spacing set up and extend along the fore-and-aft direction level, two live-rollers 10 all can rotate and the during operation rotation opposite direction, the periphery wall of every live-roller 10 all is provided with a plurality of hook rods, the hook rod has the multiseriate along the circumferencial direction equipartition of live-roller 10, each is listed as and is had a plurality ofly, the upper end of casing 1 has feed inlet 6, feed inlet 6 corresponds with live-roller 10. After the materials are put into the shell 1, the two rotating rollers 10 rotate reversely, and the hook rod hooks the fibrous impurities (such as woven bag fibers, ropes, hay and the like) in the materials, so that the fibrous impurities are prevented from flowing downwards along with the materials.

In a further embodiment, the second cleaning mechanism includes an adsorption roller 12 and a permanent magnet 13, the adsorption roller 12 is horizontally installed inside the housing 1 in the front-back direction and can rotate, the permanent magnet 13 is installed inside the housing 1 and coaxially disposed inside the adsorption roller 12, one side of the permanent magnet 13 has a notch penetrating from front to back, that is, the cross-sectional shape of the permanent magnet 13 is C-shaped, an iron impurity storage bin 14 is disposed inside the housing 1, and an inlet of the iron impurity storage bin 14 corresponds to the notch of the permanent magnet 13.

In a further embodiment, a second induced air pipe 5 communicated with the inside of the shell 1 is arranged on the side wall of the shell, the second induced air pipe 5 is located below the adsorption roller 12 and on the opposite side of the iron impurity storage bin 14, and a second fan is connected to the second induced air pipe 5 and can produce negative pressure to suck out fine impurities in the material.

In further embodiment, the inside of casing 1 still is provided with the fourth baffle 11 of downward sloping, and fourth baffle 11 has a plurality ofly and crisscross setting of interval from top to bottom, sets up fourth baffle 11 and can prolong the dwell time of material in casing 1, further improves the edulcoration effect.

Further, a second motor 3 is arranged on the outer side of the shell 1, a driving belt wheel is arranged on the second motor 3, gears 2 are arranged at one ends of the two rotating rollers 10, the two gears 2 are meshed with each other, a first driven belt wheel is arranged on one rotating roller 10, and a first transmission belt is sleeved between the driving belt wheel and the first driven belt wheel; one end of the adsorption roller 12 is provided with a second driven belt wheel 4, and a second transmission belt is sleeved between the driving belt wheel and the second driven belt wheel 4. When the device is used, the second motor 3 is turned on, the second motor 3 drives the two rotating rollers 10 to synchronously rotate in the opposite directions through the first transmission belt and the gear 2, and the second motor 3 drives the adsorption roller 12 to rotate through the second transmission belt.

As shown in fig. 3, 4, and 5, the second and

third shutter plates

92 and 93 are located on the front side (i.e., the right side in fig. 3 and 4) of the first shutter plate 91 in the clockwise direction. During operation, start first motor, second motor 3, first fan and second fan, the material drops into casing 1 from feed inlet 6, and the material whereabouts in-process is at first through live-rollers 10, and the hook pole on live-rollers 10 is with the equal length strip fibre hook of braided bag residue in the material, prevents fibrous impurity to continue to fall. Then the material falls through adsorption roller 12, and under the effect of permanent magnet 13, iron impurity adsorbs the surface at adsorption roller 12 and rotates along with adsorption roller 12, and when iron impurity rotated to the breach position of permanent magnet 13 along with adsorption roller 12, gravitation disappeared, and iron nail class impurity falls into iron impurity storage bin 14, and the material continues to fall, and tiny, light impurity is by the negative pressure suction that the second fan made this moment.

The material continues downwards and enters the drum 9 through the blanking port 7 and then through the guide plate 81. When the rotary drum 9 rotates at a high speed (first preset speed), the materials can be tightly attached to the first baffle 91 and gather at the second baffle 92 and the third baffle 93, when the speed of the rotary drum 9 is adjusted to be low speed (second preset speed), the materials move to the right side (the right side in fig. 3 and fig. 4) and fall down by means of self inertia relative to the second baffle 92 and the third baffle 93, meanwhile, due to the fact that the speed of the materials is reduced, the centrifugal force of the materials is overcome by wind power, so that the grains move towards the first induced draft pipe 8, and finally the material inlet and outlet pipe 95 is discharged, at the moment, due to the fact that the mass of the stones is larger relative to the grains, the centrifugal force of the stones cannot be overcome by wind power, so the stones slide down along the inner wall of the rotary drum 9 and finally fall into the stone storage bin 94 for collection.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a cereal feed edulcoration device which characterized in that: the cleaning machine comprises a rack, wherein a shell is arranged on the rack, a first cleaning mechanism and a second cleaning mechanism are arranged in the shell, the first cleaning mechanism is used for cleaning fiber impurities in materials, the second cleaning mechanism is positioned below the first cleaning mechanism, and the second cleaning mechanism is used for cleaning iron impurities in the materials; a third cleaning mechanism is arranged below the second cleaning mechanism and used for cleaning stone impurities in the material;

the third cleaning mechanism comprises a rotary drum and a first induced air pipe, and the rotary drum comprises a drum body, a first baffle, a second baffle, a third baffle and a discharge pipe; the discharging pipe is connected to the center of the bottom of the barrel, and a stone storage bin is defined by the outer peripheral wall of the discharging pipe and the inner wall of the lower end of the rotary drum;

the lower end of the first induced air pipe is located inside the barrel, the upper end of the first induced air pipe is communicated with the outside, the upper end of the first induced air pipe is connected with a first fan, a guide plate is sleeved on the first induced air pipe, the guide plate is located inside the barrel and used for guiding materials to the inner wall of the barrel, one section of the first induced air pipe located below the guide plate and the side wall of the barrel are provided with a plurality of air holes, the rotary drum has a first preset rotating speed and a second preset rotating speed, the first preset rotating speed is greater than the second preset rotating speed, the first induced air pipe conducts outward air draft from the inside of the rotary drum during working, the rotary drum rotates for a preset time at the first preset rotating speed, then the rotary drum is switched to the second rotating speed to rotate, and the second baffle and the third baffle are in the front relative to the rotating direction of the rotary drum, and the first baffle is behind.

2. The grain feed impurity removing device according to claim 1, characterized in that: the rotary drum is driven to rotate by a first driving mechanism which is a belt transmission mechanism.

3. The grain feed impurity removing device according to claim 1, characterized in that: first clearance mechanism includes two live rollers, and two live rollers parallel interval set up and extend along the fore-and-aft direction level, and two synchronous antiport of live roller of during operation, the periphery wall of every live roller all is provided with a plurality of hook rods, and the hook rod has the multiseriate along the circumferencial direction equipartition of live roller, and each is listed as has a plurality ofly, and the upper end of casing has the feed inlet, and the feed inlet corresponds with the live roller.

4. The grain feed impurity removing device according to claim 3, wherein: the second clearance mechanism includes adsorption roller and permanent magnet, and adsorption roller is installed in the casing inside and can rotate along fore-and-aft direction horizontal installation, and the permanent magnet is installed in the casing and coaxial setting in the inside of adsorbing the roller, and the breach that link up around one side of permanent magnet has, and the inside iron impurity that is provided with of casing stores the storehouse, and the entry that the storehouse was stored to iron impurity is located to correspond with the breach of permanent magnet.

5. The grain feed impurity removing device according to claim 4, wherein: the lateral wall of casing is provided with its inside second induced duct of intercommunication, and the second induced duct is located the below of adsorption roll and is located the offside that iron impurity stored the storehouse, is connected with the second fan on the second induced duct.

6. The grain feed impurity removing device according to claim 5, wherein: the inside of casing still is provided with the fourth baffle of downward sloping, and the fourth baffle has a plurality ofly and interval staggered arrangement from top to bottom.

7. The grain feed impurity removing device according to claim 4, wherein: a second motor is arranged on the outer side of the shell, a driving belt wheel is arranged on the second motor, gears are arranged at one ends of the two rotating rollers, the two gears are meshed with each other, a first driven belt wheel is arranged on one of the rotating rollers, and a first transmission belt is sleeved between the driving belt wheel and the first driven belt wheel; one end of the adsorption roller is provided with a second driven belt wheel, and a second transmission belt is sleeved between the driving belt wheel and the second driven belt wheel.