CN115885926A - Feeding method for producing high-grade mutton by using feed millet - Google Patents
Feeding method for producing high-grade mutton by using feed millet Download PDFInfo
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- CN115885926A CN115885926A CN202211725220.1A CN202211725220A CN115885926A CN 115885926 A CN115885926 A CN 115885926A CN 202211725220 A CN202211725220 A CN 202211725220A CN 115885926 A CN115885926 A CN 115885926A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/80—Food processing, e.g. use of renewable energies or variable speed drives in handling, conveying or stacking
- Y02P60/87—Re-use of by-products of food processing for fodder production
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Abstract
The invention discloses a feeding method for producing high-grade mutton by using forage millet, which comprises the following steps of S1: selecting millet, and S2: removing impurities from millet, and S3: washing the millet, and S4: drying the millet, and S5: fermentation treatment, S6: detect and throw something and feed, drive the solid fixed cylinder of separation through driving motor, it rotates with the linkage clapper to be driven by drive gear and linkage gear simultaneously, and make solid fixed cylinder of separation and linkage clapper opposite direction rotation, thereby can last when solid fixed cylinder of separation drives the millet and carries out the centrifugation and break away from impurity patting the striking to impurity, will adhere to impurity and the mixed impurity striking that glues together on millet surface and break away from, make can effectual operation when the millet cleaning process, fan discharge inside suspension has the air that floats the ash with higher speed of rethread, discharge the outside with the impurity of inside by clean scraper blade, make can avoid floating the ash to adhere to the millet surface once more after handling the completion.
Description
Technical Field
The invention relates to the technical field of mutton sheep breeding, in particular to a breeding method for producing high-grade mutton by using millet as feed.
Background
Sheep is a general term of the oviridae, is a common name of the mammalia, artiodactyla, bovidae and the oviridae, is one of human livestock, is a hairy four-leg ruminant, is a main source of wool, is one of livestock with the strongest external environment adaptation, has wide feeding, rough feeding resistance and strong stress resistance, gradually increases the demand on the mutton sheep along with the improvement of the living standard of Chinese people, and currently, in order to pursue better mutton sheep meat quality, farmers can utilize millet to breed the mutton sheep.
However, in the prior art, when the millet is treated, generally, the effect of fully treating impurities attached to the surface of the millet cannot be achieved through simple air blasting treatment, so that the fermentation is influenced by too much internal impurities during subsequent fermentation treatment, and the treatment effect and efficiency of the millet are influenced by the condition that the impurities contained in metal scraps cause fermentation deterioration, thereby indirectly influencing the growth of lambs.
Disclosure of Invention
The invention provides a feeding method for producing high-grade mutton by feeding millet, which can effectively solve the problems that the impurities attached to the surface of the millet cannot be fully treated by simple blast treatment when the millet is treated in the prior art, so that the fermentation is influenced by too much internal impurities during the subsequent fermentation treatment, and the treatment effect and efficiency of the millet are influenced by the condition that the fermentation is deteriorated due to the metal scraps containing impurities, thereby indirectly influencing the growth of lambs.
In order to achieve the purpose, the invention provides the following technical scheme: a feeding method for producing high-grade mutton by using forage millet comprises the following steps:
s1: selecting millet: selecting the type and particle size of the required millet and the quality of the millet;
s2: removing impurities from millet: the selected millet is put into the inner side of the separation fixed cylinder, the separation fixed cylinder rotates, and meanwhile, the linkage gear and the transmission gear drive the support fixed rod and the linkage slapping plate to rotate oppositely, so that impurities contained in the millet and impurities attached to the surface of the millet are slapped, the soil is crushed, the impurities are discharged, the impurities are removed quickly, and the cleanliness of the millet is guaranteed;
s3: washing the millet: putting the impurity-removed millet into the inner side of a cleaning treatment barrel, driving the cleaning treatment barrel through a fixed motor, driving a linkage transmission rod and a treatment scraper through a treatment motor, and simultaneously matching with a high-pressure spray pipe to wash and clean floating dust on the surface, so that the surface of the millet is clean and convenient for subsequent operation and treatment;
s4: drying the millet: the washing treatment barrel is driven by the fixed motor, the drying treatment box is driven by the vibration motor and is matched with the porous heating plate and the flow guide fan, so that the millet is dried, and the condition that the subsequent treatment is influenced by the over-moisture of the millet is avoided;
s5: fermentation treatment: the treated millet is fermented, so that the millet is treated, and the phenomenon that the millet is fermented in the stomach due to direct ingestion of the millet by sheep can be effectively avoided through fermentation, so that the phenomenon of flatulence after the millet is ingested by the sheep is avoided;
s6: detecting and feeding: the fermented millet is detected, and can be directly mixed with feed for feeding after meeting the requirements.
Preferably, one side of the fixed support frame is provided with a slapping separation component, and the slapping separation component comprises a fixed support cylinder;
the linkage motor drives the sealing isolation plate to open the top end of the fixed supporting cylinder, the sealing isolation plate simultaneously pushes the closed cover plate, the closed cover plate is driven by the torsion spring to reset, the closed cover plate is adsorbed and fixed by the fixed electromagnet, and the linkage electric push rod drives the sliding insertion block to be embedded into the inner side of the sliding insertion groove;
the linkage clamping block drives the separation fixed cylinder to rotate, meanwhile, the linkage clamping block drives the transmission gear to rotate, the transmission gear drives the linkage gear to be in meshing transmission, and the linkage gear drives the support fixed rod to rotate opposite to the separation fixed cylinder;
the cleaning scraper scrapes off impurities from the inner side of the separation fixed cylinder, and the accelerating fan drives the inner air to enter the inner side of the collection storage box along the slag discharge pipe.
Preferably, a fixed support cylinder is welded at one end of the fixed support frame, a deslagging pipe is connected at one end of the fixed support cylinder in a penetrating manner, an accelerating fan is embedded and mounted at the inner side of the deslagging pipe, a support mounting plate is connected at the side end of the fixed support cylinder through a clamping pin, a collection storage box is slidably sleeved at the top end of the support mounting plate corresponding to the position of the deslagging pipe, an isolation net rack is embedded and mounted at one side of the top end of the collection storage box in a clamping manner, a linkage motor is symmetrically mounted at one end of the fixed support cylinder through a motor base, and a sealing isolation plate is clamped at the position of an output shaft of the linkage motor corresponding to the position of the fixed support cylinder;
the cleaning device is characterized in that a transmission motor is installed at one end of a fixed supporting cylinder through a motor base, a linkage clamping block is clamped on an output shaft of the transmission motor, a separation fixed cylinder is connected to the side end of the linkage clamping block in a sleeved mode, a fixed installation box is welded at a position, corresponding to the position of the linkage clamping block, of one end of the separation fixed cylinder, a sliding insertion groove is formed in one end of the linkage clamping block and one end of the fixed installation box, a linkage electric push rod is embedded into one end of the fixed installation box, a sliding insertion block is clamped at one end of an output shaft of the linkage electric push rod, a supporting fixed rod is rotatably connected to the position, corresponding to the position of the linkage clamping block, of the inner side of the separation fixed cylinder, an installation linkage hole is formed in one end of the installation linkage hole in a sleeved and clamped mode, a transmission gear is installed at a position, corresponding to the position of the installation linkage hole, linkage beating plates are symmetrically welded at the side end of the supporting fixed rod, and a plurality of cleaning scraping plates are welded at equal intervals at the side end of the separation fixed cylinder;
the top of the side end of the separation fixing cylinder is welded with a torsion spring, one end of the torsion spring is welded with a closed cover plate, and a fixing electromagnet is installed at the position, corresponding to the closed cover plate, of the side end of the separation fixing cylinder.
Preferably, the collection storage box side end is cup jointed with the scum pipe and is connected, sealed division board rotates and installs in a fixed stay section of thick bamboo side, the biggest turned angle of sealed division board is the degree, accelerating fan, linkage motor, driving motor, linkage electric push rod and fixed electromagnet input all with external control ware output electric connection, external control ware input and external power supply output electric connection.
Preferably, the longitudinal sections of the supporting mounting plate and the sliding insertion block are T-shaped, the transmission gear is installed on the inner side of the mounting linkage hole in a rotating and embedding mode, the linkage gear is in meshed connection with the transmission gear, and the side end of the cleaning scraper is attached to the inner side end of the fixed supporting cylinder.
Compared with the prior art, the invention has the beneficial effects that:
1. be provided with the slap separation module, drive the solid fixed cylinder of separation through driving motor, it rotates with the linkage slap board to be driven by drive gear and linkage gear simultaneously, and make solid fixed cylinder of separation and linkage slap board opposite direction rotation through gear engagement opposite direction transmission, thereby can last when solid fixed cylinder of separation drives the millet and carries out the centrifugation and break away from impurity patting the striking to impurity, impurity and mixed adhesion impurity striking that will adhere to on millet surface break away from together, make can effectual operation when the millet cleaning process, clear effect has been guaranteed, the inside air that has the ash floating of suspension of fan discharge rethread acceleration, the impurity discharge outside with inside by cleaning scraper, make can avoid the ash floating to adhere to the millet surface once more after handling the completion, clear effect has further been guaranteed.
2. Be provided with and collect clean subassembly, it removes to drive collection fixed case and washing cartridge heater through removal electric slide rail and support mount, make can be quick when handling the millet according to the position of the processing conditions adjusting device of difference, it rotates to drive the cleaning treatment bucket through fixed motor, it rotates with the processing scraper blade to drive the linkage transfer line by the processing motor again, thereby the processing of stirring the millet, wash the ash floating on millet surface by the high-pressure spray tube again, make can be through lasting stirring and washing when handling the millet, guarantee the cleanliness factor of millet overall processing face, avoid appearing the remaining condition of ash floating, the cleanliness factor of millet has been guaranteed, and through high-speed centrifugal treatment, dehydration that can be quick, it piles up the condition that leads to the millet moist fermentation to avoid water to remain to appear.
3. Be provided with the centralized processing subassembly, it slowly turns under auxiliary spring's auxiliary action to drive the drying process box through vibrating motor, the high-temperature air that rethread water conservancy diversion fan drove porous hot plate position department carries out the drying of slowing through keeping apart the air inlet net to the millet, thereby the drying effect of millet has been guaranteed, through directly drying it, accelerate its drying rate, drive the striking plate by hammering electric push rod and flatten the processing to the millet, drive by row material electric slide rail again and arrange the material scraper blade and discharge the millet, make the operation that can be quick when row material processing is arranged to needs.
In conclusion, through slapping the separable set and collecting and washing the subassembly and mutually supporting for can carry out hybrid processing through the edulcoration operation of multiple different grade type when needs are handled the millet, guarantee the clear effect of millet, wash subassembly and centralized processing subassembly through collecting and mutually support, make and handle through dehydration and the dual operation of drying when handling millet drying process, guarantee the degree of dryness of millet, mutually support through a plurality of subassemblies, guarantee the cleanliness factor and the degree of dryness of millet, thereby the subsequent processing of being convenient for.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic flow diagram of the process of the present invention;
FIG. 2 is a schematic perspective view of the present invention;
FIG. 3 is a schematic structural view of the flapper separation assembly of the present invention;
FIG. 4 is a schematic view of the mounting structure of the sliding insert block of the present invention;
FIG. 5 is a schematic view of the linkage gear mounting structure of the present invention;
FIG. 6 is a schematic view of the structure of the collection and washing assembly of the present invention;
FIG. 7 is a schematic view of the mounting structure of the high pressure nozzle of the present invention;
FIG. 8 is a schematic view of the mounting structure of the processing flight of the present invention;
FIG. 9 is a schematic diagram of a centralized processing assembly of the present invention;
FIG. 10 is a schematic view of the installation configuration of the isolated intake air net of the present invention;
FIG. 11 is a schematic view of the mounting structure of the impact plate of the present invention;
reference numbers in the figures: 1. fixing a support frame;
2. a slap separation assembly; 201. a fixed support cylinder; 202. a slag discharge pipe; 203. an accelerating fan; 204. supporting the mounting plate; 205. a collection storage box; 206. isolating the net rack; 207. a linkage motor; 208. sealing the isolation plate; 209. a drive motor; 210. linkage clamping blocks; 211. separating the fixed cylinder; 212. fixing the mounting box; 213. a sliding insertion groove; 214. linking the electric push rod; 215. a sliding insert block; 216. supporting the fixed rod; 217. installing a linkage hole; 218. a linkage gear; 219. a transmission gear; 220. a linkage slapping plate; 221. a cleaning blade; 222. a torsion spring; 223. closing the cover plate; 224. fixing the electromagnet; 225. clamping a pin;
3. collecting and cleaning the components; 301. moving the electric slide rail; 302. a collection fixing box; 303. supporting the fixed frame; 304. cleaning the heating cylinder; 305. fixing the motor; 306. cleaning a treatment barrel; 307. processing the motor; 308. a linkage transmission rod; 309. a processing scraper; 310. a limiting spring; 311. a limiting cover plate; 312. a limiting electromagnet; 313. fixing the support box; 314. adsorbing an electromagnet; 315. a drain pipe; 316. pressing down the spring; 317. cleaning a scraper plate; 318. installing an electric sliding rail; 319. closing the moving plate; 320. an exhaust fixing pipe; 321. a high pressure nozzle;
4. a centralized processing component; 401. a collection treatment box; 402. an auxiliary spring; 403. drying the processing box; 404. a vibration motor; 405. isolating the air intake net; 406. a porous heating plate; 407. a flow-guiding fan; 408. discharging the electric sliding rail; 409. a discharge scraper plate; 410. closing the motor; 411. closing the fixing plate; 412. clamping an electromagnet; 413. closing the electric slide rail; 414. a restraining cover plate; 415. hammering an electric push rod; 416. and a strike plate.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
The embodiment is as follows: as shown in fig. 1-11, the invention provides a technical scheme, and a feeding method for producing high-grade mutton by using forage millet, which comprises the following steps:
s1: selecting millet: selecting the type, the particle size and the quality of the needed millet;
s2: removing impurities from millet: the selected millet is put into the inner side of the separation fixed cylinder 211, the separation fixed cylinder 211 rotates, and meanwhile, the linkage gear 218 and the transmission gear 219 drive the support fixed rod 216 and the linkage slapping plate 220 to rotate oppositely, so that impurities contained in the millet and impurities attached to the surface of the millet are slapped, the soil is crushed, the impurities are discharged, the impurities are removed rapidly, and the cleanliness of the millet is guaranteed;
s3: washing the millet: putting the grains after impurity removal into the inner side of a cleaning treatment barrel 306, driving the cleaning treatment barrel 306 and a treatment motor 307 to drive a linkage transmission rod 308 and a treatment scraper 309 through a fixed motor 305, and simultaneously matching with a high-pressure spray pipe 321 to wash and clean floating dust on the surface, so that the surfaces of the grains are clean and convenient for subsequent operation and treatment;
s4: drying the millet: the cleaning treatment barrel 306 is driven by the fixed motor 305, the drying treatment box 403 is driven by the vibrating motor 404 and is matched with the porous heating plate 406 and the guide fan 407, so that the millet is dried, and the condition that the subsequent treatment is influenced by the over-wetting of the millet is avoided;
s5: fermentation treatment: the treated millet is fermented, so that the millet is treated, and the phenomenon that the millet is fermented in the stomach due to direct ingestion of the millet by sheep can be effectively avoided through fermentation, so that the phenomenon of flatulence after the millet is ingested by the sheep is avoided;
s6: detecting and feeding: the fermented millet is detected, and can be directly mixed with feed for feeding after meeting the requirements.
Wherein, the millet is the main material, and the grass, the corn, the bean cake, the albumen powder, the bone meal, the cauliflower seeds, the frying and the like are added to be matched with each other to form the feed, so that the feed can provide enough nutrition for the lambs.
A slapping separation component 2 is arranged on one side of a fixed support frame 1, and the slapping separation component 2 comprises a fixed support cylinder 201, a deslagging pipe 202, an accelerating fan 203, a support mounting plate 204, a collection storage box 205, an isolation net rack 206, a linkage motor 207, a sealed isolation plate 208, a transmission motor 209, a linkage clamping block 210, a separation fixed cylinder 211, a fixed mounting box 212, a sliding insertion groove 213, a linkage electric push rod 214, a sliding insertion block 215, a support fixed rod 216, a mounting linkage hole 217, a linkage gear 218, a transmission gear 219, a linkage slapping plate 220, a cleaning scraper 221, a torsion spring 222, a closed cover plate 223, a fixed electromagnet 224 and a clamping pin 225;
the linkage motor 207 drives the sealing isolation plate 208 to open the top end of the fixed supporting cylinder 201, the sealing isolation plate 208 simultaneously pushes the closed cover plate 223, the torsion spring 222 drives the closed cover plate 223 to reset, the fixed electromagnet 224 adsorbs and fixes the closed cover plate 223, and the linkage electric push rod 214 drives the sliding insertion block 215 to be embedded into the inner side of the sliding insertion groove 213;
the linkage clamping block 210 drives the separation fixing cylinder 211 to rotate, meanwhile, the linkage clamping block 210 drives the transmission gear 219 to rotate, the transmission gear 219 drives the linkage gear 218 to perform meshing transmission, and the linkage gear 218 drives the support fixing rod 216 and the separation fixing cylinder 211 to rotate oppositely;
the cleaning blade 221 scrapes the foreign matters off the inside of the separation fixing cylinder 211, and the inside air is taken into the inside of the collection storage box 205 along the slag discharge pipe 202 by the accelerating fan 203.
One end of a fixed support frame 1 is welded with a fixed support cylinder 201, one end of the fixed support cylinder 201 is connected with a slag discharge pipe 202 in a penetrating way, an accelerating fan 203 is embedded and installed on the inner side of the slag discharge pipe 202, the side end of the fixed support cylinder 201 is connected with a support mounting plate 204 through a clamping pin 225, a collection storage box 205 is sleeved at the position, corresponding to the slag discharge pipe 202, of the top end of the support mounting plate 204 in a sliding way, an isolation net rack 206 is embedded and installed on one side of the top end of the collection storage box 205 in a clamping way, one end of the fixed support cylinder 201 is symmetrically provided with a linkage motor 207 through a motor base, an output shaft of the linkage motor 207 is clamped and connected with a sealing isolation plate 208 at the position, corresponding to the fixed support cylinder 201, the sealing isolation plate 208 is rotatably installed at the side end of the fixed support cylinder 201, and the maximum rotation angle of the sealing isolation plate 208 is 90 degrees, so that the feeding position and direction can be quickly limited when feeding is needed, and the stability of the feeding is ensured;
one end of a fixed supporting cylinder 201 is provided with a transmission motor 209 through a motor base, an output shaft of the transmission motor 209 is clamped with a linkage clamping block 210, the side end of the linkage clamping block 210 is connected with a separation fixed cylinder 211 in a sleeved mode, the position, corresponding to the linkage clamping block 210, of one end of the separation fixed cylinder 211 is welded with a fixed mounting box 212, one ends of the linkage clamping block 210 and the fixed mounting box 212 are provided with a sliding insertion groove 213, one end of the fixed mounting box 212 is embedded and installed with a linkage electric push rod 214, one end of the output shaft of the linkage electric push rod 214 is clamped with a sliding insertion block 215, the longitudinal sections of the supporting mounting plate 204 and the sliding insertion block 215 are T-shaped, so that one end can be limited during clamping supporting, the situation of moving separation is avoided, the supporting fixed rod 216 is rotatably connected at the position, corresponding to the linkage clamping block 210, on the inner side of the separation fixed cylinder 211, one end of a supporting fixed rod 216 is provided with an installation linkage hole 217, a linkage gear 218 is connected with the inner side of the installation linkage hole 217 in a sleeved and clamped mode, a transmission gear 219 is installed at the position, corresponding to the installation linkage hole 217, of one end of a linkage clamping block 210, the transmission gear 219 is installed on the inner side of the installation linkage hole 217 in a rotating and embedded mode, the linkage gear 218 is connected with the transmission gear 219 in a meshed mode, effective combination limiting can be achieved during synchronous opposite linkage operation, a linkage clapper plate 220 is symmetrically welded to the side end of the supporting fixed rod 216, a plurality of cleaning scrapers 221 are welded to the side end of a separating fixed cylinder 211 at equal intervals, the side ends of the cleaning scrapers 221 are attached to the inner side end of the fixed supporting cylinder 201, and accordingly continuous effective operation can be achieved when the inner side of the fixed supporting cylinder 201 needs to be cleaned;
the top of the side end of the separation fixing cylinder 211 is welded with a torsion spring 222, one end of the torsion spring 222 is welded with a closed cover plate 223, the position of the side end of the separation fixing cylinder 211 corresponding to the closed cover plate 223 is provided with a fixing electromagnet 224, the input ends of the accelerating fan 203, the linkage motor 207, the transmission motor 209, the linkage electric push rod 214 and the fixing electromagnet 224 are electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.
A collection and cleaning assembly 3 is arranged on one side of the fixed support frame 1, and the collection and cleaning assembly 3 comprises a movable electric slide rail 301, a collection and cleaning box 302, a support fixing frame 303, a cleaning heating cylinder 304, a fixed motor 305, a cleaning treatment barrel 306, a treatment motor 307, a linkage transmission rod 308, a treatment scraper 309, a limit spring 310, a limit cover plate 311, a limit electromagnet 312, a fixed support box 313, an adsorption electromagnet 314, a drain pipe 315, a downward pressing spring 316, a cleaning scraper 317, an installation electric slide rail 318, a closed moving plate 319, an exhaust fixing pipe 320 and a high-pressure spray pipe 321;
one end of a fixed support frame 1 is clamped with a movable electric slide rail 301, the top end of the movable electric slide rail 301 is connected with a collection fixed box 302 through a slide rail seat, two ends of the collection fixed box 302 are symmetrically welded with support fixing frames 303, a cleaning heating cylinder 304 is welded among the support fixing frames 303, one end of the cleaning heating cylinder 304 is provided with a fixed motor 305 through a motor seat, one end of an output shaft of the fixed motor 305 is clamped with a cleaning treatment barrel 306, the cleaning treatment barrel 306 is rotatably arranged at the inner side of the cleaning heating cylinder 304, so that the cleaning treatment of the millet can be effectively limited and fixed, the other end of the cleaning heating cylinder 304 is provided with a treatment motor 307 through the motor seat, one end of the output shaft of the treatment motor 307 is clamped with a linkage transmission rod 308, the linkage transmission rod 308 and the treatment scraper 309 are rotatably arranged at the inner side of the cleaning treatment barrel 306, so that the whole millet can be driven to rotate and adjusted in the cleaning linkage process, a cleaning surface is ensured, and the treatment scrapers 309 are equidistantly sleeved at the side ends of the linkage transmission rod 308;
a limiting spring 310 is welded at one end of the cleaning processing barrel 306, a limiting cover plate 311 is welded at one end of the limiting spring 310, a limiting electromagnet 312 is installed at the position, corresponding to the limiting cover plate 311, of one end of the cleaning processing barrel 306, a plurality of fixed supporting boxes 313 are welded at equal intervals at the side end of the cleaning processing barrel 306, an adsorption electromagnet 314 is embedded and clamped at the top end of the inner side of each fixed supporting box 313, a plurality of pressing springs 316 are welded at equal intervals at the side end of each fixed supporting box 313, a cleaning scraper 317 is welded at the bottom end of each pressing spring 316, the longitudinal section of each cleaning scraper 317 is T-shaped, and each cleaning scraper 317 is slidably installed at the inner side of each fixed supporting box 313, so that the cleaning position can be quickly operated, and can be effectively linked and limited when sliding is limited, cleaning heating cylinder 304 both ends symmetry joint has installation electric slide rail 318, install closed movable plate 319 through the slide rail seat between two installation electric slide rails 318, closed movable plate 319 side slides with cleaning heating cylinder 304 side and laminates, make can quick effectual operation when the closure is sealed, cleaning heating cylinder 304 side equidistance through connection has exhaust fixed tube 320, cleaning heating cylinder 304 one end bottom through connection has drain pipe 315, cleaning heating cylinder 304 side through connection has high-pressure spray tube 321, remove electric slide rail 301, fixed electric machine 305, processing motor 307, spacing electro-magnet 312, adsorption electro-magnet 314 and installation electric slide rail 318 input all with external control ware output electric connection.
A centralized processing assembly 4 is arranged on one side of the fixed support frame 1, and the centralized processing assembly 4 comprises a collecting processing box 401, an auxiliary spring 402, a drying processing box 403, a vibration motor 404, an isolated air inlet net 405, a porous heating plate 406, a flow guide fan 407, a discharging electric slide rail 408, a discharging scraper 409, a closing motor 410, a closing fixing plate 411, a clamping electromagnet 412, a closing electric slide rail 413, a limiting cover plate 414, a hammering electric push rod 415 and an impact plate 416;
the top of the side end of the fixed support frame 1 is provided with a collection processing box 401, the bottom end of the inner side of the collection processing box 401 is equidistantly and symmetrically welded with a plurality of auxiliary springs 402, the top ends of the plurality of auxiliary springs 402 are welded with a drying processing box 403, the middle part of the bottom end of the drying processing box 403 is provided with a vibration motor 404 through a motor base, two ends of the drying processing box 403 are symmetrically embedded and provided with an isolation air inlet net 405, two ends of the inner side of the collection processing box 401 are symmetrically clamped with a porous heating plate 406, two ends of the collection processing box 401 are symmetrically embedded and provided with a guide fan 407, the inner side end of the drying processing box 403 is provided with a discharge electric slide rail 408, a discharge scraper 409 is connected between the two discharge electric slide rails 408 through a slide rail base, the discharge scraper 409 is slidably arranged at the inner side of the drying processing box 403, so that the material can be fully attached to the inner wall of the drying processing box 403 during discharging, the stability and the speed of discharging are ensured, one end of the collecting processing box 401 is provided with a closed motor 410 through a motor base, an output shaft of the closed motor 410 is clamped with a closed fixing plate 411, the closed fixing plate 411 is rotatably arranged on the collecting processing box 401, make the operation that can be quick when the closure is sealed, collect and handle case 401 one end joint and be connected with joint electro-magnet 412, collect and handle case 401 top symmetry joint and have closed electric slide rail 413, two closed electric slide rail 413 tops are connected with restriction apron 414 through the slide rail seat, restriction apron 414 slidable mounting is on collecting and handling case 401 top, it is effectively spacing fixed when having guaranteed vibrations dry, restriction apron 414 top middle part through connection has hammering electric push rod 415, hammering electric push rod 415 output shaft bottom joint has striking plate 416, vibrating motor 404, porous hot plate 406, water conservancy diversion fan 407, arrange material electric slide rail 408, closed motor 410, joint electro-magnet 412, closed electric slide rail 413 and hammering electric push rod 415 input and external control ware output electric connection.
The working principle and the using process of the invention are as follows: when the millet needs to be treated, the linkage motor 207 drives the sealing isolation plate 208 to open the top end of the fixed supporting cylinder 201, when the sealing isolation plate 208 is embedded into the fixed supporting cylinder 201, the sealing isolation plate 208 simultaneously pushes the closed cover plate 223, so as to open the separated fixed cylinder 211, the millet enters the inner side of the separated fixed cylinder 211 along the sealing isolation plate 208, after the placement of the millet is completed, the linkage motor 207 drives the sealing isolation plate 208 to reset, the torsion spring 222 drives the closed cover plate 223 to reset, the closed cover plate 223 is adsorbed and fixed through the fixed electromagnet 224, after the fixation is completed, the linkage electric push rod 214 drives the sliding insertion block 215 to be embedded into the inner side of the sliding insertion groove 213, so that the linkage clamping block 210 and the fixed mounting box 212 are clamped and fixed through the sliding insertion block 215, the separated fixed cylinder 211 is driven to rotate through the linkage clamping block 210, and the linkage clamping block 210 drives the transmission gear 219 to rotate, the transmission gear 219 drives the linkage gear 218 to perform meshing transmission, the linkage gear 218 drives the support fixing rod 216 and the separation fixing cylinder 211 to rotate oppositely, the support fixing rod 216 drives the linkage slapping plate 220 to continuously rotate along the inner side of the separation fixing cylinder 211 to slap and bump the grains through opposite linkage, so that the dirt containing impurities in the grains is slapped and cracked, the separation fixing cylinder 211 continuously rotates at high speed, the dust and the impurities are discharged along the separation fixing cylinder 211, then the cleaning scraper 221 scrapes the impurities from the inner side of the separation fixing cylinder 211 to the inner side of the collection fixing box 302, so that the impurities are rapidly removed, the excessive influence of the impurities on the ingestion of the grains by the sheep is avoided, in the continuous rotating process, the accelerating fan 203 drives the internal air to enter the inner side of the collection storage box 205 along the slag discharge pipe 202, so as to rapidly discharge the suspended dust, the influence of dust suspension on the subsequent treatment of the millet is avoided;
after impurity treatment and evacuation, the movable electric slide rail 301 drives the collection fixing box 302 to move to the side end of the fixed support frame 1, the cleaning heating cylinder 304 is driven by the support fixing frame 303 to synchronously move in a linkage manner in the moving process, so that the cleaning heating cylinder 304 moves to the bottom end of the fixed support cylinder 201, the fixed electromagnet 224 is closed, the closed cover plate 223 is pushed by the gravity of the millet, the millet enters the cleaning treatment barrel 306 along the closed cover plate 223, after the millet is filled, the limit cover plate 311 is driven by the limit spring 310 to seal and limit the cleaning treatment barrel 306, the limit cover plate 311 is adsorbed and fixed by the limit electromagnet 312, the linkage transmission rod 308 is driven by the treatment motor 307 to rotate along the cleaning treatment barrel 306, the fixed motor 305 drives the cleaning treatment barrel 306 to rotate, the high-pressure spray pipe 321 washes the millet, when the linkage transmission rod 308 and the treatment scraper 309 are matched with the cleaning treatment barrel 306 to continuously turn over and clean the millet, the washing cleanliness can be ensured, the cleaning effect of the millet is further ensured, water on the surface of the millet can be dried through high-speed centrifugation after cleaning is completed, the adsorption electromagnet 314 is closed while the millet is dehydrated, the cleaning scraper 317 is driven by the pressing spring 316 to slide along the fixed support box 313, so that the side end of the cleaning scraper 317 is attached to the side end of the collection fixed box 302 for cleaning, and residual water in the millet is quickly discharged;
drive closed movable plate 319 by installation electric slide rail 318, close spacing electro-magnet 312 again, make the millet discharge from washing processing barrel 306, and it is inboard to discharge into drying process box 403, drive drying process box 403 vibrations under the auxiliary action of auxiliary spring 402 by vibrating motor 404, thereby drive the millet and turn over, drive the air through porous hot plate 406 along keeping apart air inlet net 405 by guiding fan 407 and continue drying process to the millet, after the drying is accomplished, drive restriction apron 414 by closed electric slide rail 413 and remove and reset, drive striking plate 416 by hammering electric push rod 415 and flatten the millet, make can avoid appearing because of piling up the condition of uneven influence row material when arranging the material through row material scraper blade 409.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A feeding method for producing high-grade mutton by using forage millet is characterized by comprising the following steps:
s1: selecting millet: selecting the type, the particle size and the quality of the needed millet;
s2: removing impurities from millet: the selected millet is put into the inner side of a separation fixed cylinder (211), the separation fixed cylinder (211) rotates, and meanwhile, a linkage gear (218) and a transmission gear (219) drive a support fixed rod (216) and a linkage slapping plate (220) to rotate oppositely, so that impurities contained in the millet and impurities attached to the surface of the millet are slapped, soil is crushed, the impurities are discharged, the impurities are quickly removed, and the cleanliness of the millet is ensured;
s3: washing millet: putting the grains after impurity removal into the inner side of a cleaning treatment barrel (306), driving the cleaning treatment barrel (306) through a fixed motor (305), driving a linkage transmission rod (308) and a treatment scraper (309) through a treatment motor (307), and simultaneously matching with a high-pressure spray pipe (321) to wash and clean floating dust on the surface, so that the surfaces of the grains are clean and convenient for subsequent operation and treatment;
s4: drying the millet: the cleaning treatment barrel (306) is driven by the fixed motor (305), the drying treatment box (403) is driven by the vibrating motor (404) and is matched with the porous heating plate (406) and the guide fan (407), so that the millet is dried, and the condition that the subsequent treatment is influenced by the over-tide of the millet is avoided;
s5: fermentation treatment: the treated millet is fermented, so that the millet is treated, and the phenomenon that the millet is fermented in the stomach due to direct ingestion of the millet by sheep can be effectively avoided through fermentation, so that the phenomenon of flatulence after the millet is ingested by the sheep is avoided;
s6: detecting and feeding: the fermented millet is detected, and can be directly mixed with feed for feeding after meeting the requirements.
2. The feeding method for producing high-grade mutton by using the feeding foxtail millet according to the claim 1, characterized in that one side of the fixed support frame (1) is provided with a slapping separation component (2), and the slapping separation component (2) comprises a fixed support barrel (201);
the linkage motor (207) drives the sealing isolation plate (208) to open the top end of the fixed support cylinder (201), the sealing isolation plate (208) simultaneously pushes the closed cover plate (223), the torsion spring (222) drives the closed cover plate (223) to reset, the closed cover plate (223) is adsorbed and fixed through the fixed electromagnet (224), and the linkage electric push rod (214) drives the sliding insertion block (215) to be embedded into the inner side of the sliding insertion groove (213);
the linkage clamping block (210) drives the separation fixing cylinder (211) to rotate, meanwhile, the linkage clamping block (210) drives the transmission gear (219) to rotate, the transmission gear (219) drives the linkage gear (218) to be in meshing transmission, and the linkage gear (218) drives the support fixing rod (216) and the separation fixing cylinder (211) to rotate oppositely;
the cleaning scraper (221) scrapes impurities from the inner side of the separation fixed cylinder (211), and the accelerating fan (203) drives the internal air to enter the inner side of the collection storage box (205) along the slag discharge pipe (202).
3. The feeding method for producing the high-grade mutton by the feeding millet according to claim 2, characterized in that a fixed support cylinder (201) is welded at one end of the fixed support frame (1), a slag discharge pipe (202) is connected at one end of the fixed support cylinder (201) in a penetrating manner, an accelerating fan (203) is embedded and installed on the inner side of the slag discharge pipe (202), a support mounting plate (204) is connected at the side end of the fixed support cylinder (201) through a clamping pin (225), a collection storage box (205) is slidably sleeved at the top end of the support mounting plate (204) corresponding to the position of the slag discharge pipe (202), an isolation net rack (206) is embedded and installed at one side of the top end of the collection storage box (205) in a clamping manner, a linkage motor (207) is symmetrically installed at one end of the fixed support cylinder (201) through a motor base, and a sealing isolation plate (208) is clamped at the position of an output shaft of the linkage motor (207) corresponding to the fixed support cylinder (201);
one end of the fixed supporting cylinder (201) is provided with a transmission motor (209) through a motor base, an output shaft of the transmission motor (209) is clamped with a linkage clamping block (210), the side end of the linkage clamping block (210) is connected with a separation fixed cylinder (211) in a sleeved mode, one end of the separation fixed cylinder (211) is welded with a fixed mounting box (212) corresponding to the position of the linkage clamping block (210), one ends of the linkage clamping block (210) and the fixed mounting box (212) are provided with a sliding insertion groove (213), one end of the fixed mounting box (212) is embedded and installed with a linkage electric push rod (214), one end of the output shaft of the linkage electric push rod (214) is clamped with a sliding insertion block (215), the position of the inner side of the separation fixed cylinder (211) corresponding to the linkage clamping block (210) is rotatably connected with a supporting fixed rod (216), one end of the supporting fixed rod (216) is provided with a linkage hole (217), the inner side of the mounting linkage electric push rod (217) is clamped and connected with a linkage gear (218), one end of the linkage clamping block (210) is provided with a transmission gear (219) corresponding to the position of the mounting hole (217), the linkage clamping block, the supporting fixed rod (216) is symmetrically welded with a plurality of cleaning scrapers (220);
the top of the side end of the separation fixed cylinder (211) is welded with a torsion spring (222), one end of the torsion spring (222) is welded with a closed cover plate (223), and the position of the side end of the separation fixed cylinder (211) corresponding to the closed cover plate (223) is provided with a fixed electromagnet (224).
4. The feeding method for producing high-grade mutton with forage millet according to claim 3, wherein the side end of the collecting storage box (205) is connected with the slag discharge pipe (202) in a sleeved mode, the sealing isolation plate (208) is rotatably installed at the side end of the fixed supporting cylinder (201), the maximum rotating angle of the sealing isolation plate (208) is 90 degrees, the input ends of the accelerating fan (203), the linkage motor (207), the transmission motor (209), the linkage electric push rod (214) and the fixed electromagnet (224) are electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.
5. The raising method for producing high-grade mutton with the feeding foxtail millet according to the claim 3, characterized in that the longitudinal sections of the supporting mounting plate (204) and the sliding insertion block (215) are T-shaped, the transmission gear (219) is rotatably embedded and mounted inside the mounting linkage hole (217), the linkage gear (218) is meshed and connected with the transmission gear (219), and the side end of the cleaning scraper (221) is attached to the inner side end of the fixed supporting cylinder (201).
6. The raising method for producing high-grade mutton by using the feeding foxtail millet according to the claim 1, characterized in that a collection and cleaning component (3) is installed on one side of the fixed support frame (1), and the collection and cleaning component (3) comprises a movable electric sliding rail (301);
one end of the fixed support frame (1) is clamped with a movable electric sliding rail (301), the top end of the movable electric sliding rail (301) is connected with a collection fixed box (302) through a sliding rail seat, two ends of the collection fixed box (302) are symmetrically welded with support fixing frames (303), a cleaning heating cylinder (304) is welded among the support fixing frames (303), one end of the cleaning heating cylinder (304) is provided with a fixed motor (305) through a motor seat, one end of an output shaft of the fixed motor (305) is clamped with a cleaning treatment barrel (306), the other end of the cleaning heating cylinder (304) is provided with a treatment motor (307) through the motor seat, one end of an output shaft of the treatment motor (307) is clamped with a linkage transmission rod (308), and the side end of the linkage transmission rod (308) is equidistantly sleeved with treatment scraping plates (309);
cleaning treatment bucket (306) one end welding has spacing spring (310), spacing spring (310) one end welding has spacing apron (311), cleaning treatment bucket (306) one end corresponds spacing apron (311) position department and installs spacing electro-magnet (312), cleaning treatment bucket (306) side equidistance welding has a plurality of fixed stay box (313), fixed stay box (313) inboard top embedding joint has adsorption electro-magnet (314), fixed stay box (313) side equidistance welding has a plurality of to push down spring (316), and is a plurality of push down spring (316) bottom welding has one to wash scraper blade (317), cleaning heating cylinder (304) both ends symmetry joint has installation electric slide rail (318), two install closed movable plate (319) through the slide rail seat between installation electric slide rail (318), cleaning heating cylinder (304) side equidistance runs through and is connected with exhaust fixed pipe (320), cleaning heating cylinder (304) one end bottom through connection has drain pipe (315), cleaning heating cylinder (304) side through connection has high-pressure spray tube (321).
7. The raising method for producing high-grade mutton by using the feeding foxtail millet according to claim 6, wherein the cleaning treatment barrel (306) is rotatably installed inside the cleaning heating barrel (304), the linkage transmission rod (308) and the treatment scraping plate (309) are rotatably installed inside the cleaning treatment barrel (306), and the input ends of the movable electric sliding rail (301), the fixed motor (305), the treatment motor (307), the limiting electromagnet (312), the adsorption electromagnet (314) and the installation electric sliding rail (318) are electrically connected with the output end of an external controller.
8. The raising method for producing high-grade mutton with forage millet according to claim 6, wherein the longitudinal section of the cleaning scraper (317) is T-shaped, the cleaning scraper (317) is slidably mounted inside the fixed support box (313), and the side end of the closed moving plate (319) is slidably attached to the side end of the cleaning heating cylinder (304).
9. The raising method for producing high-grade mutton by using the feeding foxtail millet according to the claim 1, characterized in that a centralized processing component (4) is installed on one side of the fixed support frame (1), and the centralized processing component (4) comprises a collection processing box (401);
the utility model discloses a material collecting and processing device, including fixed bolster (1) side top install collect handle case (401), collect handle case (401) inboard bottom equidistance symmetrical welding have a plurality of auxiliary spring (402), a plurality of auxiliary spring (402) top welding has a drying process box (403), vibrating motor (404) is installed through the motor cabinet in drying process box (403) bottom middle part, drying process box (403) both ends symmetry embedding is installed and is kept apart air inlet net (405), collect and handle case (401) inboard both ends symmetry joint have porous hot plate (406), collect and handle case (401) both ends symmetry embedding and install water conservancy diversion fan (407), drying process box (403) medial extremity installs row material electric slide rail (408), two it is connected with scraper blade (409) through the slide rail seat between material electric slide rail (408), collect and handle case (401) one end and install closed motor (410) through the motor cabinet, closed motor (410) output shaft joint has closed fixed plate (411), collect hammering and handle case (401) one end joint and be connected with joint (412), it has closed electric slide rail (413) through the restriction slide rail (414) top end to collect and handle case (401) top symmetry joint and be connected with two material discharge electromagnet (413), and the bottom end of an output shaft of the hammering electric push rod (415) is clamped with an impact plate (416).
10. The feeding method for producing high-grade mutton by using the feeding millet as claimed in claim 9, wherein the discharging scraper (409) is slidably mounted inside the drying treatment box (403), the closing fixing plate (411) is rotatably mounted in the collection treatment box (401), the limiting cover plate (414) is slidably mounted at the top end of the collection treatment box (401), and the input ends of the vibrating motor (404), the porous heating plate (406), the guide fan (407), the discharging electric slide rail (408), the closing motor (410), the clamping electromagnet (412), the closing electric slide rail (413) and the hammering electric push rod (415) are electrically connected with the output end of an external controller.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202211725220.1A CN115885926A (en) | 2022-12-30 | 2022-12-30 | Feeding method for producing high-grade mutton by using feed millet |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202211725220.1A CN115885926A (en) | 2022-12-30 | 2022-12-30 | Feeding method for producing high-grade mutton by using feed millet |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN116099809A (en) * | 2023-04-14 | 2023-05-12 | 雄县高姿乳胶制品设备技术有限公司 | Washing and drying integrated machine for latex glove production |
| CN116555562A (en) * | 2023-07-11 | 2023-08-08 | 河北燕山钢铁集团有限公司 | Recovery reprocessing device for metallized pellets |
-
2022
- 2022-12-30 CN CN202211725220.1A patent/CN115885926A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN116099809A (en) * | 2023-04-14 | 2023-05-12 | 雄县高姿乳胶制品设备技术有限公司 | Washing and drying integrated machine for latex glove production |
| CN116099809B (en) * | 2023-04-14 | 2023-06-06 | 雄县高姿乳胶制品设备技术有限公司 | Washing and drying integrated machine for latex glove production |
| CN116555562A (en) * | 2023-07-11 | 2023-08-08 | 河北燕山钢铁集团有限公司 | Recovery reprocessing device for metallized pellets |
| CN116555562B (en) * | 2023-07-11 | 2023-09-12 | 河北燕山钢铁集团有限公司 | Recovery reprocessing device for metallized pellets |
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Effective date of registration: 20230720 Address after: 076250 Qingshui Henan Road, Gaoxin District, Zhangjiakou City, Hebei Province Applicant after: ZHANGJIAKOU ACADEMY OF AGRICULTURAL SCIENCES (HEBEI ARCTIC-ALPINE CROP INSTITUTE) Applicant after: CENTER FOR AGRICULTURAL RESOURCES Research Institute OF GENETICS AND DEVELOPMENTAL BIOLOGY CHINESE ACADEMY OF SCIENCES Address before: 076250 Qingshui Henan Road, Gaoxin District, Zhangjiakou City, Hebei Province Applicant before: ZHANGJIAKOU ACADEMY OF AGRICULTURAL SCIENCES (HEBEI ARCTIC-ALPINE CROP INSTITUTE) |
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Inventor after: Bo Yukun Inventor after: Xu Yinsheng Inventor after: Fan Guangyu Inventor after: Zheng Chunyan Inventor after: Ma Yue Inventor after: Feng Ruixin Inventor after: Zhao Yian Inventor after: Zhao Yingtao Inventor after: Zhao Zhihai Inventor after: Yan Jingjiao Inventor after: Wen Jun Inventor after: Zhu Feng Inventor after: Wang Xuan Inventor after: Bai Zhaohai Inventor after: Ma Lin Inventor after: Ren Quanjun Inventor before: Bo Yukun Inventor before: Xu Yinsheng Inventor before: Fan Guangyu Inventor before: Zheng Chunyan Inventor before: Ma Yue Inventor before: Feng Ruixin Inventor before: Zhao Yian Inventor before: Zhao Yingtao Inventor before: Zhao Zhihai Inventor before: Zhu Feng Inventor before: Wen Jun Inventor before: Yan Jingjiao Inventor before: Wang Xuan Inventor before: Bai Zhaohai Inventor before: Ma Lin Inventor before: Ren Quanjun |