CN116349899A - A high temperature sterilization equipment for mildewing fodder is handled - Google Patents

Abstract

The invention relates to the technical field of application of high-temperature mould equipment for processing mould feed, in particular to high-temperature sterilization equipment for processing mould feed, which comprises a bottom frame, a feeding component, a mould removing component, a sliding component, a material storage component, a stirring component and a heating component, wherein the bottom of the feeding component is arranged at one end of the top of the bottom frame, the feed in a feed box is in quick contact with hot air through the mutual cooperation between the heating component and the stirring component, and meanwhile, mould bodies of the mould feed are removed through screening by the mould removing component, so that the mould feed is better exposed in the feed box, the time for sterilizing the feed is reduced, the sterilization efficiency of the feed is further improved, and the mould feed is sterilized by the sterilization equipment, so that the waste of the feed is avoided.

Description

A high temperature sterilization equipment for mildewing fodder is handled

Technical Field

The invention relates to the technical field of application of high-temperature sterilization equipment for mildew feed treatment, in particular to high-temperature sterilization equipment for mildew feed treatment.

Background

The feed is often easy to mildew due to improper storage, and the mildew feed can cause symptoms such as swelling, edema, bleeding, atrophy, deterioration, necrosis and the like of livers of livestock and poultry when the livestock and poultry are fed, so that high-temperature sterilization equipment is generally used for removing mold on the mildew feed when the mildew feed is processed.

The existing high-temperature sterilization equipment for mildew feed treatment still has great defects when in use, when the existing high-temperature sterilization equipment for mildew feed treatment is used for sterilizing feed, the feed cannot be fully contacted with hot air in a vessel, so that the sterilization operation of the mildew feed is not thorough enough, eating of the later livestock and poultry is not facilitated, the existing high-temperature sterilization equipment for mildew feed treatment cannot remove and remove the attached mold on the mildew feed, the sterilized feed is not clean, the sterilized feed is not easy to preserve, the existing high-temperature sterilization equipment for mildew feed treatment spends long time when the high-temperature sterilization is performed on the feed, and the mold efficiency of the mildew feed is low.

Disclosure of Invention

The invention aims to solve the problems that when the existing high-temperature sterilization equipment for processing the mildewed feed is used for sterilizing the feed, the feed cannot be fully contacted with hot air in a vessel, so that the sterilization operation of the mildewed feed is not thorough enough, and the later-stage eating of livestock and poultry is not facilitated; the existing high-temperature sterilization equipment for processing the mildewed feed cannot clear and remove the mycotic bodies attached to the mildewed feed, so that the sterilized feed is not clean and is not beneficial to preserving the sterilized feed; the existing high-temperature sterilization equipment for mildew feed treatment is used for solving the problem that the mold efficiency of mildew feed is low due to long time spent when the high-temperature sterilization equipment is used for high-temperature sterilization of the feed, and the high-temperature sterilization equipment for mildew feed treatment is provided.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a high temperature sterilization equipment for mildewing fodder is handled, includes chassis, feeding subassembly, removes mould subassembly, slides subassembly, storage subassembly, stirs subassembly and heating element, the feeding subassembly bottom sets up the one end at the chassis top, feeding subassembly one side sets up the discharging pipe, remove mould subassembly setting in the bottom of discharging pipe, remove mould subassembly one end and be provided with the swash plate, slide the subassembly bottom setting and remove the top of mould subassembly, the second feed opening has been seted up to storage subassembly top one side, the bottom setting of swash plate one end is at the top of second feed opening, be provided with the workbin on the storage subassembly, stir the middle part at the workbin is connected in the cooperation of subassembly, workbin one side is provided with heating element.

Preferably, be provided with first support frame on the feeding subassembly, first support frame top is provided with first feed inlet, first feed inlet bottom and discharging pipe through connection, first motor is installed to discharging pipe one end, first motor one end has the screw conveyer pole through pivot swing joint, screw conveyer pole cooperation is connected at the middle part of discharging pipe, open the first motor on the feeding subassembly, first motor drives screw conveyer pole and rotates, pour the fodder that needs carry out high temperature fungus body into the first feed inlet of feeding subassembly, the fodder enters into the discharging pipe through first feed inlet in, screw conveyer pole transports the fodder in the discharging pipe to the filter top on the mould removal subassembly.

Preferably, remove mould subassembly bottom and be provided with the second support frame, the four corners at second support frame top all is provided with the spring, the spring cooperation is connected with keeps off the frame, it is "back" style of calligraphy structure to keep off the top view of frame, it has down the silo to keep off the frame bottom through connection, it is provided with the slotted hole to go down the silo bottom, install vibrating motor on the lateral wall of fender frame, the upper end slope of fender frame inside wall is provided with the filter, the swash plate slope sets up the bottom in filter one side, it is provided with first backup pad to slide bottom one side of subassembly, the top welding of first backup pad bottom and fender frame opens the vibrating motor on removing mould subassembly, vibrating motor drives and keeps off the frame and rocks, make things convenient for the fodder to move to swash plate one side through the filter, the filter separates fodder and mould body.

Preferably, both ends at first backup pad top all weld the baffle, the baffle is cuboid structure, two planes at baffle place are parallel with the filter, the second motor is installed to one of them baffle one end, second motor one end has first lead screw through pivot swing joint, the upper and lower both ends of two baffle one sides all weld with first slide rail, all the cooperation is connected with first slider on two first slide rails, two first slider one sides on two baffles all weld and remove the seat, and one of them removes the first screw of first lead screw looks adaptation, first lead screw setting is between two first slide rails, and first lead screw is parallel between two first slide rails, open the second motor on the subassembly that slides, the second motor drives first lead screw and rotates, first lead screw drives first slider side-to-side motion, first slider drives and removes seat side-to-side motion, the position about the scraper blade on the subassembly is scraped and is stirred the left and right positions on the filter, get rid of mould on the fodder, the cooperation is connected with between two removal seats and scrapes the subassembly.

Preferably, scrape and be provided with the third support frame on the subassembly, the third support frame is "worker" style of calligraphy structure, bolted connection is passed through at third support frame both ends between two removal seats, there is first pneumatic cylinder on the top at third support frame middle part through bolted connection, first pneumatic cylinder bottom cooperation is connected with first hydraulic stem, first hydraulic stem bottom welding has the scraper blade, the scraper blade sets up between two baffles, drive first hydraulic stem up-and-down motion through scraping the first pneumatic cylinder on the subassembly, adjust the height of scraper blade, the fodder on the scraper blade to the filter is sheltered from, the fodder is through the scraper blade upset.

Preferably, the workbin is cylindrical structure, and the workbin middle part cavity, and second material mouth top is provided with the apron, and the workbin bottom is provided with the discharge gate, and the discharge gate is cylindrical structure, and discharge gate one side is provided with seals keeps off the unit, seals and keeps off unit one side and installs the third motor, and third motor one end has the fender dish through pivot swing joint, keeps off the dish cooperation and connects at the middle part of discharge gate, and keeps off the dish and be cylindrical structure.

Preferably, the fourth motor is installed at the top of the stirring assembly, the fourth motor is installed at the middle of the top end of the material box, the bottom of the fourth motor is connected with a second hydraulic cylinder in a matched mode, the bottom of the second hydraulic cylinder is connected with a second hydraulic rod in a matched mode, the bottom of the second hydraulic rod is connected with a rotating plate through a bolt, the rotating plate is a cylindrical mechanism, the middle of the rotating plate is hollow, and three stirring units are circumferentially arranged at the bottom of the rotating plate.

Preferably, the stirring unit top is provided with the second backup pad, and the fifth motor is installed to second backup pad bottom one side, and fifth motor one end has the second lead screw through pivot swing joint, and second backup pad bottom middle part welding has the second slide rail, and second slide rail bottom cooperation is connected with the second slider, has seted up the second screw with second lead screw looks adaptation on the second slider, and second slider bottom welding has the bracing piece, and the welding of bracing piece bottom has the stirring head, is provided with heating resistor on the stirring head.

Preferably, the air heater is installed to heating element one side, and the air heater passes through the welded plate to be connected with chassis one side, and air heater one end cooperation is connected with the ventilation pipe, has seted up the wind gap with ventilation pipe looks adaptation on the workbin, and the top of ventilation pipe one end is provided with the regulating unit, and the sixth motor is installed at the regulating unit top, and the sixth motor bottom has the board of turning over through pivot swing joint, turns over the board and is cylindrical structure, and turns over the board and be connected with the inside wall cooperation of ventilation pipe.

The application method of the high-temperature sterilization equipment for mildew feed treatment specifically comprises the following steps:

step one: starting a first motor on the feeding assembly, driving a spiral conveying rod to rotate, pouring feed needing high-temperature fungus bodies into a first material port of the feeding assembly, enabling the feed to enter a discharge pipe through the first material port, enabling the spiral conveying rod to transfer the feed in the discharge pipe to the top of a filter plate on the mildew removing assembly, enabling the mildew feed to remove the fungus bodies from the upper part of the feed through the spiral conveying rod, and simultaneously starting a vibration motor on the mildew removing assembly, enabling a baffle frame to swing by the vibration motor, and enabling the mildew bodies and impurities in the mildew feed to fall into a feed chute through the filter plate;

step two: the first hydraulic rod is driven to move up and down through the first hydraulic cylinder on the scraping assembly, the height of the scraping plate is adjusted, the scraping plate shields feed on the filter plate, the feed passes through the scraping plate to turn over, the second motor on the sliding assembly is started at the same time, the second motor drives the first screw rod to rotate, the first screw rod drives the first slide block to move left and right, the first slide block drives the movable seat to move left and right, the left and right positions of the scraping assembly are adjusted, the scraping plate on the scraping assembly stirs the feed on the left and right positions of the filter plate, mould bodies on the mould feed are removed, the feed uniformly passes through the filter plate to reach one end of the inclined plate, and the feed steadily falls into the second feed port on the discharging assembly through the inclined plate;

step three: the hot air generated by the hot air blower enters the feed box through the ventilation pipe, the sixth motor on the adjusting unit is started, the sixth motor drives the turning plate to rotate, the turning plate changes the wind direction, hot air blows to different positions in the feed box, the temperature in the feed box rises more uniformly, the fourth motor on the stirring assembly is started in a matched mode, the fourth motor drives the second hydraulic cylinder to rotate, the second hydraulic cylinder drives the second hydraulic rod to move up and down, the angle and the height of the rotating plate at the bottom of the second hydraulic rod are adjusted, the rotating plate drives the stirring heads at the bottom of the three stirring units to rotate, the stirring heads stir feed in the feed box, the fifth motor drives the second screw rod to rotate in a matched mode, the supporting rod at the bottom of the second sliding block moves, the stirring heads at the bottom of the supporting rod stir different positions of the feed in the feed box, after mould operation of the feed in the feed box is completed, the third motor on the sealing unit is started, the third motor drives the baffle disc to rotate, and the sterilized feed is discharged through the discharge port.

Compared with the prior art, the invention has the following effects:

1. through opening the air heater on the heating element, hot-blast entering into the workbin through the ventilation pipe, open the sixth motor on the regulating unit simultaneously, adjust the angle of turning over the board, hot-blast different positions of blowing in to the workbin, be favorable to the temperature in the workbin rising more even, make things convenient for the feed that mildews and rot to carry out the high temperature sterilization operation in the workbin, simultaneously, blow out hot-blast wind direction through changing the ventilation pipe, be favorable to blowing the treatment to the fodder of different positions that the second feed inlet falls, secondly, the fourth motor on the stirring subassembly is opened in the formula, the fourth motor drives the second pneumatic cylinder and rotates, the second pneumatic cylinder drives the second hydraulic stem up-and-down motion, adjust the angle and the height of second hydraulic stem bottom revolving plate, the stirring head stirs the operation to the fodder in the workbin, the fifth motor on the stirring unit is opened simultaneously, the fifth motor drives the second lead screw and rotates, the stirring head stirs the fodder in the workbin to the different positions, be favorable to the fodder pivoted more thoroughly in the workbin, and then make stirring the stirring subassembly more comprehensive, be favorable to fodder and hot air fully contact, make beasts and birds sterilize and beasts and birds get rid of the fodder and evenly and mix the fodder and lead to the fact the temperature in the time of the equipment through the improvement of the temperature change, the sterilizing device is better, the sterilizing and the fodder is better to the fodder through the temperature of the filter, the fodder is better to the sterilizing and the fodder in the time of the better sterilizing and the fodder and the mould, and the fodder is better to the sterilizing the fodder through the filter the fodder in the fodder and the fodder.

2. The first motor on the feeding component is started, the first motor drives the spiral conveying rod to rotate, feed needing to be subjected to high-temperature mold bodies is poured into the first feed opening of the feeding component, the feed enters the feed outlet through the first feed opening, the spiral conveying rod drives the baffle frame to shake, the feed is conveniently moved to one side of the inclined plate through the filter plate, the mold feed is stirred and transported in the feed outlet through the spiral conveying rod, mold bodies attached to the mold feed are conveniently removed on one side, the mold feed discharged from the feed outlet is enabled to be cleaner, on the other hand, the feed is transported through the spiral conveying rod, the mold bodies are enabled to be discharged from the feed outlet uniformly, the mold bodies are enabled to be uniformly fallen onto the filter plate through the spiral conveying rod, the mold bodies are simultaneously removed from the feed, the vibration motor drives the baffle frame to shake, the feed and separates the feed from the mold bodies through the filter plate to one side of the inclined plate, the mold bodies are mutually matched and work between the feed inlet component and the mold removal component, the mold bodies are prevented from being stacked on the feed outlet, the mold bodies are further facilitated, the mold bodies are enabled to be discharged from the filter plate and the mold bodies are more easily removed, and the mold bodies are more convenient to be stored in the mold feed after the filter plate and the mold bodies are more convenient to be subjected to the mold bodies are stored in the filter plate and the mold feed and the mold bodies are more clean after the mold bodies are more convenient to be stored in the mold feed and the mold bodies.

3. The first hydraulic rod is driven to move up and down through the first hydraulic cylinder on the scraping assembly, the height of the scraping plate is adjusted, the scraping plate shields the feed on the filter plate, the feed is overturned through the scraping plate, the height of the scraping plate is adjusted, the scraping plate pushes the feed on the filter plate to be flat, the scraping plate is beneficial to secondarily removing the mold attached to the mildewed feed, the second motor on the sliding assembly is started, the second motor drives the first screw rod to rotate, the left and right positions of the scraping assembly are adjusted, the scraping plate on the scraping assembly stirs the feed on the left and right positions of the filter plate, the mold on the mildewed feed is removed, the sliding assembly and the scraping assembly are matched with each other to work, on one hand, the feed on the filter plate is ensured to smoothly and uniformly move to one end of the sloping plate through the bottom of the scraping plate, so that the feed uniformly falls into a feed box, further be favorable to mildewing fodder and the hot air comprehensive contact in the workbin, be favorable to mildewing fodder to carry out the high temperature sterilization operation in the workbin, on the other hand, be favorable to scraping the scraper blade on the subassembly and carry out comprehensive shielding rolling operation to fodder on the filter, thereby make the scraper blade clear away the mycotic more comprehensive to the mildewing fodder on the filter, simultaneously, through feeding subassembly, remove mould subassembly, slide the subassembly and scrape mutually supporting work between the subassembly, on the one hand, be favorable to the more comprehensive to the mycotic clearance of adhering to on the mildewing fodder, thereby guaranteed that the fodder after the high temperature sterilization can be directly used for eating of beasts and birds, on the other hand, through carrying out the clearance of mycotic and impurity to the mildewing fodder, not only make the fodder after carrying out high temperature mould in the workbin cleaner, still use manpower sparingly and carry out the time of edulcoration to the mildewing fodder.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a feeding assembly in the present invention.

Fig. 3 is a top view of the connection of the first motor to the screw conveyor in the present invention.

FIG. 4 is a schematic structural view of the mildew removing assembly according to the present invention.

Fig. 5 is a schematic view of the mechanism of the skid assembly of the present invention.

Fig. 6 is a side view of the mobile seat in the present invention.

Fig. 7 is a schematic structural view of the scraping assembly in the present invention.

Fig. 8 is a schematic structural view of a storage assembly according to the present invention.

Fig. 9 is a top view of the blocking unit in the present invention.

Fig. 10 is a schematic view of the structure of the stirring assembly in the present invention.

Fig. 11 is a schematic structural view of the adjusting unit in the present invention.

Fig. 12 is a schematic structural view of a heating assembly according to the present invention.

Fig. 13 is a schematic structural view of the adjusting unit in the present invention.

In the figure: 1. a chassis; 2. a feed assembly; 201. a first support frame; 202. a first material port; 203. a discharge pipe; 204. a first motor; 205. a screw conveyor rod; 3. a mildew removal assembly; 301. a second support frame; 302. a blocking frame; 303. a spring; 304. discharging groove; 305. a vibration motor; 306. a filter plate; 307. a sloping plate; 4. a glide assembly; 401. a first support plate; 402. a baffle; 403. a second motor; 404. a first screw rod; 405. a first slide rail; 406. a first slider; 407. a movable seat; 5. a scraping assembly; 501. a third support frame; 502. a first hydraulic cylinder; 503. a first hydraulic lever; 504. a scraper; 6. a storage assembly; 601. a feed box; 602. a second material port; 603. a discharge port; 604. a blocking unit; 6041. a third motor; 6042. a baffle disc; 7. stirring the components; 701. a fourth motor; 702. a second hydraulic cylinder; 703. a second hydraulic lever; 704. a rotating plate; 705. an agitating unit; 7051. a second support plate; 7052. a fifth motor; 7053. a second screw rod; 7054. a second slider; 7055. a second slide rail; 7056. a support rod; 7057. a stirring head; 8. a heating assembly; 801. an air heater; 802. a ventilation pipe; 803. an adjusting unit; 8031. a sixth motor; 8032. and a turning plate.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, a high-temperature sterilization device for mildew feed treatment comprises a bottom frame 1, a feeding component 2, a mildew removing component 3, a sliding component 4, a storage component 6, a stirring component 7 and a heating component 8, wherein the bottom of the feeding component 2 is arranged at one end of the top of the bottom frame 1, a discharging pipe 203 is arranged on one side of the feeding component 2, the mildew removing component 3 is arranged at the bottom of the discharging pipe 203, an inclined plate 307 is arranged at one end of the mildew removing component 3, the bottom of the sliding component 4 is arranged at the top of the mildew removing component 3, a second material opening 602 is formed in one side of the top of the storage component 6, the bottom of one end of the inclined plate 307 is arranged at the top of the second material opening 602, a material box 601 is arranged on the storage component 6, the stirring component 7 is connected to the middle of the material box 601 in a matched mode, and the heating component 8 is arranged on one side of the material box 601.

According to the embodiment of the invention, through the mutual cooperation between the heating component 8 and the stirring component 7, the feed in the feed box 601 is enabled to be contacted with hot air quickly, meanwhile, the mould removing component 3 is matched to screen mould bodies for removing mould feed, the mould feed is better exposed in the feed box 601, the time for sterilizing the feed is reduced, the sterilizing efficiency of the feed is further improved, the waste of the mould feed is avoided through the sterilizing equipment, the mutual cooperation between the sliding component 4 and the scraping component 5 is avoided, on one hand, the feed on the filter plate 306 is enabled to move to one end of the inclined plate 307 smoothly and uniformly through the bottom of the scraping component 504, so that the feed uniformly falls into the feed box 601, the mould feed is further beneficial to the comprehensive contact of the hot air in the feed box 601, on the other hand, the scraper 504 on the feed scraping component 5 is beneficial to carry out the comprehensive sterilization operation on the feed box 601, the scraper 504 is further beneficial to clear the mould bodies on the filter plate 306, the mould bodies on the whole side, the mould bodies on the side, the whole side, the mould bodies on the filter plate 306 are prevented from being cleaned, and the mould bodies on the side, the mould feed can be cleaned by the whole can be removed through the scraper component 4, and the mould bodies are further guaranteed, and the mould can be cleaned, on the side, and the mould bodies can be cleaned by the mould bodies on the side of the filter plate is more completely, and the mould bodies, and the mould can be removed through the mould cleaning component after the mould bodies, and the mould cleaning component is further through the scraper component is guaranteed, and the mould and can be cleaned.

In an optional implementation manner of the embodiment of the invention, a first supporting frame 201 is arranged on a feeding component 2, a first material port 202 is arranged at the top of the first supporting frame 201, the bottom of the first material port 202 is in through connection with a discharging pipe 203, one end of the discharging pipe 203 is provided with a first motor 204, one end of the first motor 204 is movably connected with a spiral conveying rod 205 through a rotating shaft, the spiral conveying rod 205 is cooperatively connected to the middle part of the discharging pipe 203, the first motor 204 on the feeding component 2 is started, the first motor 204 drives the spiral conveying rod 205 to rotate, feed needing high-temperature fungus bodies is poured into the first material port 202 of the feeding component 2, the feed enters the discharging pipe 203 through the first material port 202, the spiral conveying rod 205 conveys the feed in the discharging pipe 203 to the top of a filter plate 306 on a mildew removing component 3, and the mildew feed is stirred and conveyed in the discharging pipe 203 through the spiral conveying rod 205, so that mildew feeds on one hand can be conveniently removed, the mildew feeds discharged from the discharging pipe 203 are cleaner, and on the other hand, the feed is conveyed evenly through the spiral conveying rod 205, and the feed is discharged from the filtering plate 203 to the discharging pipe 306 evenly and the feed is facilitated.

In an alternative implementation manner of the embodiment of the invention, the bottom of the mildew removing component 3 is provided with the second supporting frame 301, four corners at the top of the second supporting frame 301 are respectively provided with the springs 303, the springs 303 are connected with the baffle frame 302 in a matched manner, the top view of the baffle frame 302 is in a 'back' shape structure, the bottom of the baffle frame 302 is connected with the lower trough 304 in a penetrating manner, the bottom of the lower trough 304 is provided with a slotted hole, the side wall of the baffle frame 302 is provided with the vibration motor 305, the upper end of the inner side wall of the baffle frame 302 is obliquely provided with the filter plate 306, the inclined plate 307 is obliquely arranged at the bottom of one side of the filter plate 306, the vibration motor 305 on the mildew removing component 3 is started, the vibration motor 305 drives the baffle frame 302 to move to one side of the inclined plate 307, the feed is separated from the mould body through the mutual matching between the feeding component 2 and the mildew removing component 3, the condition that the feed discharged by the discharging pipe 203 is accumulated on the filter plate 306 is avoided, the mould body and impurities in the lower trough 304 are further beneficial to be fallen into the lower trough 304 through the filter plate 306, the mould body in the mould body is convenient to collect the mould body attached to the upper trough 304, the mould body is further guaranteed, the mould body is convenient to be stored, and the mould body is more clean and the mould body is convenient to be welded with the bottom 401 at one side of the bottom of the first supporting plate 401 after the feed is provided with the first supporting plate and has been provided with the first supporting plate 401 and has the top end 401 and a bottom supporting plate 401.

In an alternative implementation manner of the embodiment of the invention, two ends of the top of the first supporting plate 401 are welded with baffle plates 402, the baffle plates 402 are in a cuboid structure, a plane where the two baffle plates 402 are located is parallel to the filter plate 306, one end of one baffle plate 402 is provided with a second motor 403, one end of the second motor 403 is movably connected with a first screw rod 404 through a rotating shaft, the upper and lower ends of one side of the two baffle plates 402 are welded with a first slide rail 405, the two first slide rails 405 are respectively connected with a first slide block 406 in a matched manner, one side of the two first slide blocks 406 on the two baffle plates 402 is welded with a movable seat 407, the second motor 403 on the sliding component 4 is started, the second motor 403 drives the first screw rod 404 to rotate, the first screw rod 404 drives the first slide block 406 to move left and right, the first slide block 406 drives the movable seat to move left and right, the left and right positions of the scraping component 5 are adjusted, the scraping plates 504 on the scraping component 5 stir feed at the left and right positions of the screw holes on the filter plate 306, the first screw rod 404 is matched with the first slide rail 404, the first screw rod 404 is matched with the first slide rail 405 is arranged on the movable seat, the first screw rod 404 is matched with the first slide rail 405, the first slide rail 404 is arranged between the first slide rail 404 and the first screw rod 404 is more stable, and the first screw rod 404 is connected with the first slide rail 404 between the two slide rails 5 and the first slide rails and the first slide rail 404 is more stable, and the mould is more parallel to the moving between the first slide frame 5 and the slide frame and the first slide rail 404.

In an alternative implementation manner of the embodiment of the invention, a third support frame 501 is arranged on the scraping assembly 5, the third support frame 501 is in an I-shaped structure, two ends of the third support frame 501 are connected between two movable seats 407 through bolts, a first hydraulic cylinder 502 is connected to the top end of the middle part of the third support frame 501 through bolts, a first hydraulic rod 503 is connected to the bottom of the first hydraulic cylinder 502 in a matched manner, a scraping plate 504 is welded to the bottom of the first hydraulic rod 503, the scraping plate 504 is arranged between two baffles 402, the first hydraulic rod 503 is driven to move up and down through the first hydraulic cylinder 502 on the scraping assembly 5, the height of the scraping plate 504 is adjusted, the scraping plate 504 shields feed on the filter plate 306, the feed is turned over through the scraping plate 504, the scraping plate 504 pushes the feed on the filter plate 306 flat, and the scraping plate 504 is beneficial to secondarily removing mold bodies attached to the mildew feed.

In an alternative implementation manner of the embodiment of the invention, the material box 601 is in a cylindrical structure, the middle part of the material box 601 is hollow, the top of the second material port 602 is provided with a cover plate to prevent excessive loss of heat in the material box 601, the bottom of the material box 601 is provided with a material outlet 603, the material outlet 603 is in a cylindrical structure, one side of the material outlet 603 is provided with a blocking unit 604, one side of the blocking unit 604 is provided with a third motor 6041, one end of the third motor 6041 is movably connected with a blocking plate 6042 through a rotating shaft, the blocking plate 6042 is cooperatively connected with the middle part of the material outlet 603, the blocking plate 6042 is in a cylindrical structure, after mold operation of feed in the material box 601 is completed, the third motor 6041 drives the blocking plate 6042 to rotate, sterilized feed is discharged through the material outlet 603, and the sterilized feed is convenient to collect.

In an alternative implementation manner of the embodiment of the invention, a fourth motor 701 is installed at the top of the stirring assembly 7, the fourth motor 701 is installed in the middle of the top end of the feed box 601, the bottom of the fourth motor 701 is connected with a second hydraulic cylinder 702 in a matched manner, the bottom of the second hydraulic cylinder 702 is connected with a second hydraulic rod 703 in a matched manner, the bottom of the second hydraulic rod 703 is connected with a rotating plate 704 through a bolt, the rotating plate 704 is in a cylindrical mechanism, the middle of the rotating plate 704 is hollow, the fourth motor 701 on the stirring assembly 7 is started in a matched manner, the fourth motor 701 drives the second hydraulic cylinder 702 to rotate, the second hydraulic cylinder 702 drives the second hydraulic rod 703 to move up and down, the angle and the height of the rotating plate 704 are adjusted, the rotating plate 704 drives stirring heads 7057 at the bottoms of three stirring units 705 to rotate, and the stirring heads 7057 stir feed in the feed box 601, and the three stirring units 705 are arranged at the bottom of the rotating plate 704 in a circumferential direction.

In an alternative implementation manner of the embodiment of the invention, a second supporting plate 7051 is arranged at the top of the stirring unit 705, one side of the bottom of the second supporting plate 7051 is provided with a fifth motor 7052, one end of the fifth motor 7052 is movably connected with a second screw rod 7053 through a rotating shaft, a second sliding rail 7055 is welded in the middle of the bottom end of the second supporting plate 7051, a second sliding block 7054 is cooperatively connected with the bottom of the second sliding rail 7055, a second screw hole matched with the second screw rod 7053 is formed in the second sliding block 7054, a supporting rod 7056 is welded at the bottom of the second sliding block 7054, a stirring head 7057 is welded at the bottom of the supporting rod 7056, a heating resistor is arranged on the stirring head 7057, a fifth motor 7052 on the stirring unit 705 is started, the fifth motor 7052 drives the second screw rod 7053 to rotate, the second screw rod 7053 drives the supporting rod 7056 at the bottom of the second sliding block 7054 to move, the stirring head 7057 at the bottom of the supporting rod 7056 stirs different positions in a feed box 601, the feed in the feed box 601 is beneficial to thoroughly rotating, and further the complete stirring effect of the feed in the feed box 601 is beneficial to the complete stirring of the feed and the feed, the complete stirring effect of the feed and the complete stirring is beneficial to the complete sterilization and the feed and the complete physical contact of the feed.

In an alternative implementation manner of the embodiment of the invention, a hot air blower 801 (model: BD-30 manufacturer: jining bond heavy machinery Co., ltd.) is installed on one side of the heating component 8, the hot air blower 801 is connected with one side of the underframe 1 through a welding plate, one end of the hot air blower 801 is connected with a ventilation pipe 802 in a matching way, an air port matched with the ventilation pipe 802 is formed in the material box 601, an adjusting unit 803 is arranged at the top of one end of the ventilation pipe 802, a sixth motor 8031 is installed at the top of the adjusting unit 803, a turning plate 8032 is movably connected to the bottom of the sixth motor 8031 through a rotating shaft, the turning plate 8032 is in a cylindrical structure, the turning plate 8032 is connected with the inner side wall of the ventilation pipe 802 in a matching way, hot air generated by the hot air blower 801 enters the material box 601 through the ventilation pipe 802, meanwhile, the sixth motor 8031 drives the turning plate 8032 to rotate, the direction of the air flow direction is changed, the hot air in different positions in the material box 601 is favorable for raising the temperature, the temperature in the material box 601 is convenient for the mildew to be sterilized in the material box 601, meanwhile, the turning plate 8032 is favorable for the air flow down position of the ventilation pipe 602 is not to be changed, and the air flow direction is favorable for the second position of the blowing air port is not to be changed.

When the mold removing device is used, firstly, the first motor 204 on the feeding component 2 is started, the first motor 204 drives the spiral conveying rod 205 to rotate, feed which needs to be subjected to high-temperature mold is poured into the first feed port 202 of the feeding component 2, the feed enters the discharge pipe 203 through the first feed port 202, the spiral conveying rod 205 transports the feed in the discharge pipe 203 to the top of the filter plate 306 on the mold removing component 3, the mold feed is stirred and transported in the discharge pipe 203 through the spiral conveying rod 205, mold bodies attached to the mold feed are removed conveniently on one side of the discharge pipe 203, the mold feed discharged by the discharge pipe 203 is enabled to be cleaner, on the other hand, the mold feed is transported through the spiral conveying rod 205, so that the mold feed is enabled to be discharged from the discharge pipe 203 uniformly, the mold feed is enabled to be conveyed on the filter plate 306, the mold feed is removed from the feed through the spiral conveying rod 205, meanwhile, the vibration motor 305 drives the mold blocking frame 302 to shake, the mold removing component 306 is convenient to move to one side of the filter plate 306, the mold feed is separated from the mold removing component 306, the mold feed is enabled to be more convenient to be separated from the mold feed through the filter plate 306, and the mold removing component and the mold feed can be more convenient to be stored in the mold feed groove 306 after the mold removing component is more convenient to be more in the mold feed after the mold removing component is stored in the mold feed, and the mold feed is more convenient to be more easy to be separated by the mold material, and the mold material is more easy to be discharged by the mold component and has the mold material after the mold component is separated through the mold component and has been separated on the mold component and has been more mold material is more easy to be 3;

then, the first hydraulic cylinder 502 on the scraping assembly 5 drives the first hydraulic rod 503 to move up and down, the height of the scraping plate 504 is adjusted, the scraping plate 504 shields the feed on the filter plate 306, the feed is overturned by the scraping plate 504, the height of the scraping plate 504 is adjusted, the scraping plate 504 pushes the feed on the filter plate 306 to be flat, the scraping plate 504 is beneficial to removing the mold attached to the mildewed feed for the second time, the second motor 403 on the sliding assembly 4 is started, the second motor 403 drives the first screw 404 to rotate, the first screw 404 drives the first slide block 406 to move left and right, the first slide block 406 drives the movable seat 407 to move left and right, the left and right positions of the scraping assembly 5 are adjusted, the scraping plate 504 on the scraping assembly 5 stirs the feed on the left and right positions of the filter plate 306, the mold attached to the mildewed feed is removed, the sliding assembly 4 and the scraping assembly 5 are matched with each other to work, on the one hand, the feed on the filter plate 306 is ensured to stably and uniformly move to one end of the inclined plate 307 through the bottom of the scraper 504, so that the feed uniformly falls into the feed box 601, the mildewed feed is further beneficial to fully contacting with hot air in the feed box 601, the mildewed feed is beneficial to high-temperature sterilization operation in the feed box 601, on the other hand, the scraper 504 on the scraping component 5 is beneficial to fully shielding rolling operation on the feed on the filter plate 306, so that the scraper 504 can more fully remove the mildew on the filter plate 306, and meanwhile, the feeding component 2, the mildew removing component 3, the sliding component 4 and the scraping component 5 are matched to work, on the one hand, the mildewed feed is more fully cleaned, so that the feed after high-temperature sterilization can be directly used for livestock and poultry on the other hand, the mildew feed is cleaned of the mould body and impurities, so that the feed after high-temperature mould is carried out in the feed box 601 is cleaner, and the time for removing the impurities from the mildew feed by manpower is saved;

finally, by starting the air heater 801 on the heating component 8, hot air generated by the air heater 801 enters the feed box 601 through the ventilation pipe 802, and simultaneously, starting the sixth motor 8031 on the adjusting unit 803, the sixth motor 8031 drives the turning plate 8032 to rotate, the turning plate 8032 changes the wind direction, hot air blows air to different positions in the feed box 601, which is beneficial to the uniformity of temperature rise in the feed box 601, and facilitates the high-temperature sterilization operation of moldy feed in the feed box 601, simultaneously, by changing the wind direction of the hot air blown out by the ventilation pipe 802, the blowing treatment of the feed at different positions fallen by the second feed opening 602 is beneficial, secondly, the fourth motor 701 is matched with the starting of the fourth motor 701 on the stirring component 7, the fourth motor 701 drives the second hydraulic cylinder 702 to rotate, and the second hydraulic cylinder 702 drives the second hydraulic rod 703 to move up and down, thereby adjusting the angle and the height of the rotating plate 704 at the bottom of the second hydraulic rod 703, the rotating plate 704 drives the stirring heads 7057 at the bottoms of the three stirring units 705 to rotate, the stirring heads 7057 stir the feed in the feed box 601, meanwhile, the fifth motor 7052 on the stirring units 705 is matched and started, the fifth motor 7052 drives the second screw rod 7053 to rotate, the second screw rod 7053 drives the supporting rod 7056 at the bottom of the second sliding block 7054 to move, the stirring heads 7057 at the bottom of the supporting rod 7056 stir different positions of the feed in the feed box 601, the stirring of the feed in the feed box 601 is facilitated, the rolling and rotating of the feed in the feed box 601 are more thorough, the stirring assembly 7 stirs the feed more comprehensively, the full contact of the feed with hot air is facilitated, the sterilization effect of the feed is better, damage to the body caused by the feed is avoided, the feed in the feed box 601 is contacted with the hot air rapidly through the mutual matching operation between the heating assembly 8 and the stirring assembly 7, meanwhile, the mould removing assembly 3 is matched to screen and remove mould bodies of the mould removing feed, the feed box 601 is better exposed to the moldy feed, the feed sterilization time is reduced, the feed sterilization efficiency is further improved, the feed is sterilized by the sterilization equipment, the waste of the feed is avoided, after the mycotic operation of the feed is completed in the feed box 601, the third motor 6041 on the blocking unit 604 is started, the third motor 6041 drives the blocking disc 6042 to rotate, the sterilized feed is discharged through the discharge port 603, and the sterilized feed is conveniently collected.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. A high temperature sterilization equipment for mildewing fodder is handled, its characterized in that includes chassis (1), feeding subassembly (2), removes mould subassembly (3), slides subassembly (4), storage subassembly (6), stirs subassembly (7) and heating element (8), feeding subassembly (2) bottom sets up the one end at chassis (1) top, feeding subassembly (2) one side sets up discharging pipe (203), remove mould subassembly (3) and set up the bottom at discharging pipe (203), remove mould subassembly (3) one end and be provided with swash plate (307), slide subassembly (4) bottom setting at the top that removes mould subassembly (3), second feed inlet (602) have been seted up to storage subassembly (6) top one side, the bottom of swash plate (307) one end sets up the top at second feed inlet (602), be provided with workbin (601) on storage subassembly (6), stir the middle part at workbin (601) cooperation connection, workbin (601) one side is provided with heating element (8).

2. The high-temperature sterilization equipment for mildew feed treatment according to claim 1, wherein a first supporting frame (201) is arranged on the feeding component (2), a first material port (202) is arranged at the top of the first supporting frame (201), the bottom of the first material port (202) is in through connection with a discharge pipe (203), a first motor (204) is arranged at one end of the discharge pipe (203), a spiral conveying rod (205) is movably connected at one end of the first motor (204) through a rotating shaft, and the spiral conveying rod (205) is connected in the middle of the discharge pipe (203) in a matched mode.

3. The high-temperature sterilization equipment for mildew feed processing according to claim 1, wherein a second supporting frame (301) is arranged at the bottom of the mildew removal component (3), springs (303) are arranged at four corners of the top of the second supporting frame (301), a baffle frame (302) is connected with the springs (303) in a matched mode, a top view of the baffle frame (302) is of a 'back' structure, a blanking groove (304) is connected with the bottom of the baffle frame (302) in a penetrating mode, a slotted hole is formed in the bottom of the blanking groove (304), a vibration motor (305) is mounted on the side wall of the baffle frame (302), a filter plate (306) is obliquely arranged at the upper end of the inner side wall of the baffle frame (302), a sloping plate (307) is obliquely arranged at the bottom of one side of the filter plate (306), a first supporting plate (401) is arranged at one side of the bottom of the sliding component (4), and the bottom of the first supporting plate (401) is welded with the top end of the baffle frame (302).

4. The high-temperature sterilization equipment for mildew feed processing according to claim 3, wherein two ends of the top of the first supporting plate (401) are welded with baffle plates (402), the baffle plates (402) are of cuboid structures, planes of the two baffle plates (402) are parallel to the filter plates (306), one end of one baffle plate (402) is provided with a second motor (403), one end of the second motor (403) is movably connected with a first screw rod (404) through a rotating shaft, the upper end and the lower end of one side of the two baffle plates (402) are welded with first sliding rails (405), the two first sliding rails (405) are connected with first sliding blocks (406) in a matched mode, one side of the two first sliding blocks (406) on the two baffle plates (402) is welded with a movable seat (407), one side of one movable seat (407) is provided with a first screw hole matched with the first screw rod (404), the first screw rod (404) is arranged between the two first sliding rails (405), the first screw rod (404) is parallel to the two first sliding rails (405), and the two movable seats (407) are connected with a scraping component (5) in a matched mode.

5. The high-temperature sterilization equipment for mildew feed processing according to claim 4, wherein a third support frame (501) is arranged on the scraping component (5), the third support frame (501) is of an I-shaped structure, two ends of the third support frame (501) are connected between two movable bases (407) through bolts, a first hydraulic cylinder (502) is connected to the top end of the middle of the third support frame (501) through bolts, a first hydraulic rod (503) is connected to the bottom of the first hydraulic cylinder (502) in a matched mode, a scraping plate (504) is welded to the bottom of the first hydraulic rod (503), and the scraping plate (504) is arranged between the two baffles (402).

6. The high-temperature sterilization equipment for mildew feed treatment according to claim 1, wherein the feed box (601) is of a cylindrical structure, the middle part of the feed box (601) is hollow, the top of the second feed opening (602) is provided with a cover plate, the bottom of the feed box (601) is provided with a discharge opening (603), the discharge opening (603) is of a cylindrical structure, one side of the discharge opening (603) is provided with a blocking unit (604), one side of the blocking unit (604) is provided with a third motor (6041), one end of the third motor (6041) is movably connected with a blocking disc (6042) through a rotating shaft, the blocking disc (6042) is connected to the middle part of the discharge opening (603) in a matched mode, and the blocking disc (6042) is of a cylindrical structure.

7. The high-temperature sterilization equipment for mildew feed processing according to claim 2, wherein a fourth motor (701) is installed at the top of the stirring assembly (7), the fourth motor (701) is installed at the middle of the top end of the feed box (601), a second hydraulic cylinder (702) is connected to the bottom of the fourth motor (701) in a matched mode, a second hydraulic rod (703) is connected to the bottom of the second hydraulic cylinder (702) in a matched mode, a rotating plate (704) is connected to the bottom of the second hydraulic rod (703) through bolts, the rotating plate (704) is in a cylindrical mechanism, the middle of the rotating plate (704) is hollow, and three stirring units (705) are circumferentially arranged at the bottom of the rotating plate (704).

8. The high-temperature sterilization equipment for mildew feed treatment according to claim 7, wherein the top of the stirring unit (705) is provided with a second supporting plate (7051), one side of the bottom of the second supporting plate (7051) is provided with a fifth motor (7052), one end of the fifth motor (7052) is movably connected with a second screw rod (7053) through a rotating shaft, the middle part of the bottom end of the second supporting plate (7051) is welded with a second sliding rail (7055), the bottom of the second sliding rail (7055) is connected with a second sliding block (7054) in a matched mode, the second sliding block (7054) is provided with a second screw hole matched with the second screw rod (7053), the bottom of the second sliding block (7054) is welded with a supporting rod (7056), the bottom of the supporting rod (7056) is welded with a stirring head (7057), and a heating resistor is arranged on the stirring head (7057).

9. The high-temperature sterilization equipment for mildew feed processing according to claim 1, wherein a hot air blower (801) is installed on one side of the heating component (8), the hot air blower (801) is connected with one side of the underframe (1) through a welding plate, one end of the hot air blower (801) is connected with a ventilation pipe (802) in a matched mode, a wind port matched with the ventilation pipe (802) is formed in the feed box (601), an adjusting unit (803) is arranged at the top of one end of the ventilation pipe (802), a sixth motor (8031) is installed at the top of the adjusting unit (803), a turning plate (8032) is movably connected to the bottom of the sixth motor (8031) through a rotating shaft, the turning plate (8032) is in a cylindrical structure, and the turning plate (8032) is connected with the inner side wall of the ventilation pipe (802) in a matched mode.

10. The high-temperature sterilization equipment for mildew feed treatment according to any one of claims 1 to 9, wherein the use method of the high-temperature sterilization equipment specifically comprises the following steps:

step one: starting a first motor (204) on the feeding assembly (2), enabling the first motor (204) to drive a spiral conveying rod (205) to rotate, pouring feed needing high-temperature mould bodies into a first feed opening (202) of the feeding assembly (2), enabling the feed to enter a discharge pipe (203) through the first feed opening (202), enabling the spiral conveying rod (205) to convey the feed in the discharge pipe (203) to the top of a filter plate (306) on the mould removing assembly (3), enabling the mould bodies to be partially removed from the feed through the spiral conveying rod (205), and simultaneously enabling a vibration motor (305) on the mould removing assembly (3), enabling the vibration motor (305) to drive a baffle frame (302) to shake, and enabling mould bodies and impurities which are mildewed in the mould feed to fall into a lower trough (304) through the filter plate (306);

step two: the first hydraulic cylinder (502) on the scraping assembly (5) drives the first hydraulic rod (503) to move up and down, the height of the scraping plate (504) is adjusted, the scraping plate (504) shields feed on the filter plate (306), the feed passes through the scraping plate (504) to turn over, the second motor (403) on the sliding assembly (4) is started, the second motor (403) drives the first screw rod (404) to rotate, the first screw rod (404) drives the first sliding block (406) to move left and right, the first sliding block (406) drives the movable seat (407) to move left and right, the left and right positions of the scraping assembly (5) are adjusted, the scraping plate (504) on the scraping assembly (5) stirs the feed on the left and right positions of the filter plate (306) to remove mould bodies on the mould feed, and the feed uniformly passes through the filter plate (306) to one end of the sloping plate (307) to enable the stable feed to fall into the second feed port (602) on the discharging assembly (6);

step three: opening a hot air blower (801) on a heating assembly (8), enabling hot air generated by the hot air blower (801) to enter a feed box (601) through a ventilation pipe (802), simultaneously opening a sixth motor (8031) on an adjusting unit (803), enabling the sixth motor (8031) to drive a turning plate (8032) to rotate, enabling the turning plate (8032) to change the wind direction, enabling the hot air to blow different positions in the feed box (601), enabling the temperature in the feed box (601) to rise more uniformly, enabling a fourth motor (701) on a stirring assembly (7) to be matched with the opening of the fourth motor (701), enabling a second hydraulic cylinder (702) to rotate, enabling the second hydraulic cylinder (702) to drive the second hydraulic rod (703) to move up and down, adjusting the angle and the height of a rotary plate (704) at the bottom of the second hydraulic rod (703), enabling a stirring head (7057) at the bottom of the rotary plate (704) to drive the three stirring units (705) to rotate, enabling the stirring heads (7057) at the bottom of the stirring units (705) to stir feed in the feed box (601), enabling a fifth motor (7052) on the stirring units (705) to be matched with the opening of the stirring units (7052), enabling a supporting rod (7053) to drive a second hydraulic rod (7053) to move up and down, enabling a supporting rod (7056) to move at the bottom of the second hydraulic rod (7053) to rotate, after the mould body operation of the feed in the feed box (601) is completed, a third motor (6041) on the blocking unit (604) is started, the third motor (6041) drives a blocking disc (6042) to rotate, and the sterilized feed is discharged through a discharge hole (603).

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