CN214962543U - Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus - Google Patents

Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus Download PDF

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CN214962543U
CN214962543U CN202120681831.5U CN202120681831U CN214962543U CN 214962543 U CN214962543 U CN 214962543U CN 202120681831 U CN202120681831 U CN 202120681831U CN 214962543 U CN214962543 U CN 214962543U
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plate
raw materials
discharging
spring
output
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刘晓红
辛小辉
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Hebei Xiong'an Liben Agricultural Ecological Technology Co ltd
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Hebei Xiong'an Liben Agricultural Ecological Technology Co ltd
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  • Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)

Abstract

The utility model discloses a preparation device for manufacturing livestock and poultry feed by reed and edible fungus waste fungus sticks, wherein a grinding disc is welded at the side end of a transmission rod, a discharging hole penetrates through the top end of the grinding disc, a fixed mixing plate is clamped at one end of the inner side of a tank body, an adsorption electromagnet is clamped at one end of a limiting discharging plate, the bottom end of a cross clamping plate is connected with a vibrating motor, the top end of the cross clamping plate is clamped with a storage screening hopper, a clamping spring is welded at the top end of the inner side of the storage screening hopper, the bottom end of a sliding clamping column penetrates through the storage screening hopper, the grinding disc is driven by the transmission motor to grind raw materials, the raw materials are intercepted by a discharging intercepting plate, the raw materials are prevented from being accumulated on the grinding disc, the discharging speed is ensured, the raw materials are mixed and stirred by a mixing and stirring plate, the raw materials are discharged by the limiting discharging plate after the stirring is completed, meanwhile, the storage screening hopper is driven by the vibrating motor to perform vibration screening, thereby ensuring the refining effect of the raw materials.

Description

Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus
Technical Field
The utility model relates to a feed production technical field specifically is a preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus.
Background
The feed processing refers to feed production and processing activities suitable for farms, farmers to raise livestock and poultry, including production of pet food, including single feed processing, compound feed processing, concentrated feed processing, additive and mixed feed processing, concentrated feed and supplement processing, and generally uses straws and fungus sticks to produce when large-scale feed production is carried out at present.
But at present when adding in raw materials and mixing the fungus stick of accomplishing the fermentation, contain some great hard wood in the fungus stick, lead to unable effectual and additive intensive mixing when mixing for the large granule blocks up the shaping mouth easily when the fodder shaping, does not filter it simultaneously, makes impurity in the raw materials mix together with the fodder easily when the shaping, thereby influences the quality and the production speed of fodder.
SUMMERY OF THE UTILITY MODEL
The utility model provides a preparation facilities of fungus stick preparation beasts and birds fodder is abandoned to reed domestic fungus, can effectively solve and propose when the fungus stick of accomplishing the fermentation feeds in raw materials and mixes at present in the above-mentioned background art, contain some great hardwoods of miscellaneous in the fungus stick, lead to unable effectual and additive intensive mixing when mixing, make the large granule block up the shaping mouth easily when the fodder shaping, do not filter it simultaneously, make impurity in the raw materials mix together with the fodder when the shaping easily, thereby influence the quality of fodder and production speed's problem.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus, which comprises a tank body, jar body one side is installed and is mixed the crushing subassembly, pulverize great granule through pulverizing dish and auxiliary disc mutually supporting to through unloading hole and unloading interception board unloading, mix the raw materials through mixing the stirring board, thereby the fineness of raw materials and the degree of mixing of multiple raw materials have been guaranteed, the too big or the same kind of raw materials accumulational condition of granule is avoided appearing, and filter the raw materials after accomplishing mixing through depositing the screening fill, thereby further guaranteed the degree of refining of raw materials and the degree of mixing of raw materials, degree of consistency when having guaranteed the fodder shaping.
The shaping ejection of compact subassembly is installed to jar body one side, drives the raw materials through the auger and removes to make the raw materials carry out preliminary shaping through porous separation plate, carry out the two-degree cutting through the cutting knife simultaneously when the shaping, thereby further carry out the breakage to the raw materials, further refine, and to its inside intensification and water injection when the cutting, stir many times to it through stirring mixing rod simultaneously, make the raw materials after refining mix once more, and finally through porous shaping board shaping, further handle the raw materials when having guaranteed the fashioned speed.
The hot shaping subassembly that dries by fire is installed to jar body one side, dries the fashioned fodder through hot baking plate, hot oven and electric push plate, has guaranteed the shaping speed of fodder, dries by fire through the heat of multistep different positions simultaneously, avoids the fodder to scatter because of dropping when the shaping to guaranteed the shaping effect of fodder, will heat the hot steam reflux who produces after drying in the transport section of thick bamboo simultaneously, thereby reduced the waste of resource, maintained the inboard constant temperature and humidity of transport section of thick bamboo simultaneously.
The discharging assembly is installed on one side of the tank body, the storage box is placed on the inner side of the tank body, the lifting spring is extruded to enable the storage box to be in extrusion contact with the switch, the electric push rod is pushed to be started, the discharging amount at each time is equal, and workers can conveniently bag the feed.
Preferably, the mixing and crushing assembly comprises a transmission motor, a transmission rod, a crushing disc, an auxiliary disc, a discharging blocking plate, a fixed mixing plate, a discharging port, a limiting discharging plate, a torsion spring, an adsorption electromagnet, a mixing and stirring plate, a discharging hole, a vibration spring, a cross clamping plate, a vibration motor, a storage screening hopper, a clamping spring, a sliding clamping column and a radian opening plate;
the top end of the tank body is provided with a transmission motor through a motor base, an output shaft of the transmission motor is connected with a transmission rod, a grinding disc is welded at the position of the side end of the transmission rod, which is close to the top end of the tank body, a discharging hole penetrates through the top end of the grinding disc, an auxiliary disc is welded on the inner side of the tank body corresponding to the position of the grinding disc, a blanking interception plate is welded on the inner side of the tank body corresponding to the position of the top end of the grinding disc, a fixed mixing plate is clamped at one end of the inner side of the tank body, discharge ports are symmetrically arranged at two ends of the fixed mixing plate, the inner side of the discharge port is rotatably connected with a discharge limiting plate, one end of the discharge limiting plate is welded with a torsion spring, one end of the torsion spring is installed on the inner side of the discharge port in a spot welding mode, one end of the limiting discharge plate is embedded and clamped with an adsorption electromagnet, and the position, corresponding to the top end of the limiting discharge plate, of the side end of the transmission rod is welded with a mixed stirring plate;
the welding of the inboard one end equidistance of jar has vibrations spring, vibrations spring top spot welding is installed in cross joint board bottom, cross joint board bottom is connected with vibrating motor through the motor cabinet, cross joint board top joint has deposits the screening fill, deposit the inboard top welding of screening fill and have the joint spring, joint spring top spot welding is installed in slip joint post bottom, slip joint post bottom runs through and deposits the screening fill, jar body one end articulates there is the radian open plate.
Preferably, the maximum rotation angle of the blanking intercepting plate is 90 degrees, the input ends of the transmission motor, the adsorption electromagnet and the vibration motor 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.
Preferably, the slide clamping column is embedded in the inner side of the cross clamping plate, and the maximum rotation angle of the radian opening plate is 180 degrees.
Preferably, the molding discharging assembly comprises a conveying cylinder, an output motor, an output rod, a packing auger, a porous separation plate, a cutting knife, a stirring mixing rod and a porous molding plate;
the utility model discloses a multi-functional food processor, including a jar body, a conveying section of thick bamboo, output motor, output pole position department symmetry welding have a cutting knife, output pole side symmetry welding has the stirring mixing rod, the one end fixed joint that the output motor was kept away from to the conveying section of thick bamboo has porous profiled sheeting, the output motor output shaft is connected with output pole fixed connection through the pipeline, output pole side symmetry welding has the auger, the output pole side is located and has cup jointed porous profiled sheeting between two augers, porous profiled sheeting welded mounting is in the inboard one end of conveying section of thick bamboo, the output pole side is close to porous profiled sheeting position department symmetry welding and has the cutting knife, output pole side symmetry welding has the stirring mixing rod, the one end fixed joint that the output motor was kept away from to the conveying section of thick bamboo has porous profiled sheeting.
Preferably, the diameter of the porous separation plate is equal to the inner diameter of the conveying cylinder, and the input end of the output motor is electrically connected with the output end of the external controller.
Preferably, the hot drying molding assembly comprises a protective discharging cylinder, a hot drying plate, an air inlet, an exhaust fan, an exhaust pipe, an air pump, a limiting discharging cylinder, a conveying belt, a hot drying oven, a concentration pipe, a conveying pipe, a fixed support frame and an electric heating plate;
the protective discharging barrel is sleeved at the discharging end of the conveying barrel, a hot drying plate is clamped at the position, close to the conveying barrel, of the inner side of the protective discharging barrel, a plurality of air inlets are formed in the position, equal in distance, of one end of the protective discharging barrel, an exhaust fan is clamped and connected at the position, close to the air inlets, of the inner side of the protective discharging barrel, an exhaust pipe penetrates through the top end of the protective discharging barrel, the air outlet end of the exhaust pipe is penetratingly mounted at one end of an air pump, a limiting discharging barrel is welded at the bottom end of the protective discharging barrel, the bottom end of the limiting discharging barrel is welded and mounted at one side of the top end of the conveying belt through a support frame, a hot drying oven is welded at the middle part of the top end of the conveying belt, a concentrated pipe penetrates through the top equal distance, the air outlet end of the concentrated pipe is connected with the air inlet end of the air pump, the air outlet end of the air pump is connected with the inlet end of the conveying barrel, the air outlet end of the conveying belt is penetratingly mounted at the side of the fixed support frame, the inner side of the conveying belt is fixedly clamped with an electric heating plate.
Preferably, the air pump is fixedly installed at the top end of the conveying cylinder, and the input ends of the hot drying plate, the exhaust fan, the air pump, the hot drying box and the electric heating plate are electrically connected with the output end of the external controller.
Preferably, the discharging assembly comprises a lifting spring, a storage box, a return spring, a rotary limiting plate, a pushing electric push rod, a discharging plate and a contact switch;
the welding of fixed stay frame top one side equidistance has a lifting spring, spot welding in the case bottom is gone up and down spring top is installed, case one end bilateral symmetry welding has reset spring, the spot welding of reset spring one end is installed in rotatory limiting plate one end, case one end runs through the joint and has the propelling movement electric push rod, the discharge board of propelling movement electric push rod one end fixedly connected with, fixed stay frame top fixed mounting has contact switch.
Preferably, the contact switch is connected with a pushing electric push rod in series, and the input end of the pushing electric push rod is electrically connected with the output end of the external controller.
Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:
1. be provided with and mix and pulverize the subassembly, it grinds the raw materials to drive through driving motor, and intercept the raw materials through unloading interceptor plate, avoid the raw materials to pile up on pulverizing the dish, thereby the speed of unloading has been guaranteed, and filter pulverous raw materials through the discharge gate, avoid the raw materials to pile up the effect of pulverizing that influences the raw materials between pulverizing dish and auxiliary tray, drop on fixed mixing plate after the raw materials pulverize and accomplish, mix the stirring to it by mixing the stirring board, and carry out the ejection of compact through restriction play flitch after the stirring is accomplished, deposit the screening fill through vibrating motor drive simultaneously and shake the screening, thereby guaranteed the effect of refining to the raw materials, intercept the part impurity that contains in the raw materials simultaneously, avoid influencing the quality of fodder.
2. Be provided with shaping ejection of compact subassembly, it rotates to drive the auger through output motor, thereby it removes to drive the raw materials, and heat and the humidification to it when the raw materials removes, overturn the raw materials through stirring the mixed rod simultaneously, thereby it is even to have guaranteed that the raw materials is heated, the gelatinization of the starch in the raw materials and the rotten speed of protein have been guaranteed, strike off the separation plate surface through the cutting knife simultaneously, avoid the adhesion on the separation plate surface, simultaneously through the processing of two-step different temperatures and humidity, the treatment effect of raw materials has been guaranteed, the taste of fodder has been guaranteed simultaneously, avoid appearing coarse taste and influence the animal and eat.
To sum up, grind subassembly and shaping ejection of compact subassembly through mixing and mutually support to carry out abundant processing to the raw materials, avoid appearing large granule and other impurity departments in the raw materials, thereby guaranteed the treatment effect to the raw materials, simultaneously through carrying out thermal treatment to the raw materials, make the raw materials can obtain abundant processing, guaranteed the quality of fodder.
3. Be provided with hot shaping subassembly that dries by fire, carry out preliminary stoving to the fodder through hot drying plate and exhaust fan, thereby avoid the wet soft condition that leads to unable effective shaping that drops of fodder to appear, go out the feed cylinder and restrict it through the protection simultaneously, avoid its condition of the skew that drops to appear, rethread hot oven and electric plate carry out two degrees stoving to the fodder, the degree of drying of fodder has been guaranteed, avoid moist the condition that leads to the fodder rotten to appear, simultaneously through the blast pipe, concentrated pipe and conveyer pipe are retrieved hot steam, reduce the waste of resource.
4. Be provided with row material subassembly, through case compression lifting spring to touching contact switch starts to promote the electric push rod and promotes the discharge flitch, thereby discharges the fodder, makes the volume of fodder that can be quick when needs are collected the fodder restrict, avoids appearing bagging-off uneven in weight's the condition simultaneously, and the personnel of being convenient for operate simultaneously.
Combine to use, through the stoving shaping subassembly with arrange the material subassembly and mutually support, guaranteed the fashioned stability of fodder, simultaneously can be quick after the shaping is accomplished collect, guaranteed fodder production's speed and efficiency, mutually support through a plurality of subassemblies, guaranteed fodder production's speed and the quality of fodder.
Drawings
The accompanying drawings 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 invention and not to limit the invention.
In the drawings:
fig. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic structural view of the mixing and grinding assembly of the present invention;
FIG. 3 is a schematic view of the installation structure of the limited discharging plate of the present invention;
FIG. 4 is a schematic view of the installation structure of the storage hopper of the present invention;
FIG. 5 is a schematic structural view of the forming and discharging assembly of the present invention;
FIG. 6 is a schematic view of the mounting structure of the packing auger of the present invention;
fig. 7 is a schematic structural view of the thermal forming assembly of the present invention;
fig. 8 is a schematic view of the installation structure of the conveyor belt of the present invention;
fig. 9 is a schematic structural view of the discharge assembly of the present invention;
fig. 10 is a schematic view of the installation structure of the rotation limiting plate of the present invention;
reference numbers in the figures: 1. a tank body;
2. a mixing and grinding assembly; 201. a drive motor; 202. a transmission rod; 203. a grinding pan; 204. an auxiliary disc; 205. blanking interception plates; 206. a stationary mixing plate; 207. a discharge port; 208. a limiting discharging plate; 209. a torsion spring; 210. an adsorption electromagnet; 211. mixing and stirring plates; 212. a blanking hole; 213. vibrating the spring; 214. a cross-shaped clamping and connecting plate; 215. a vibration motor; 216. storing the screening hopper; 217. clamping a spring; 218. sliding the clamping column; 219. a radian plywood;
3. forming a discharging component; 301. a delivery cartridge; 302. an output motor; 303. an output rod; 304. a packing auger; 305. a porous separation plate; 306. a cutting knife; 307. a stirring and mixing rod; 308. a porous forming plate;
4. baking the formed component; 401. a protective discharge barrel; 402. heating the drying plate; 403. an air inlet; 404. an exhaust fan; 405. an exhaust pipe; 406. an air pump; 407. a limiting discharging barrel; 408. a conveyor belt; 409. a hot oven; 410. a concentration pipe; 411. a delivery pipe; 412. fixing a support frame; 413. an electric hot plate;
5. a discharge assembly; 501. a lift spring; 502. a storage box; 503. a return spring; 504. rotating the limiting plate; 505. pushing the electric push rod; 506. discharging the discharging plate; 507. a contact switch.
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 presented herein only to illustrate and explain the present invention, and not to limit the present invention.
Example (b): as shown in fig. 1-10, the utility model provides a technical scheme, a preparation facilities of fungus stick preparation beasts and birds fodder is abandoned to reed domestic fungus, which comprises a tank body 1, jar body 1 one side is installed and is mixed grinding subassembly 2, grind through grinding dish 203 and auxiliary disc 204 mutually supporting great granule, and block board 205 unloading through unloading hole 212 and unloading, mix the raw materials through mixing stirring board 211, thereby the fineness of raw materials and the mixedness of multiple raw materials have been guaranteed, the too big or the same kind of raw materials accumulational condition of granule appears in avoiding appearing, and filter the raw materials after accomplishing through depositing screening fill 216, thereby further guarantee the degree of refining of raw materials and the mixedness of raw materials, degree of consistency when having guaranteed the fodder shaping.
Shaping ejection of compact subassembly 3 is installed to jar body 1 one side, it removes to drive the raw materials through auger 304, and make the raw materials carry out preliminary shaping through porous separation plate 305, carry out the second degree cutting through cutting knife 306 simultaneously when the shaping, thereby further carry out the breakage to the raw materials, further refine, and to its inside intensification and water injection when the cutting, stir many times to it through stirring puddler 307 simultaneously, make the raw materials after refining mix once more, and finally through porous shaping plate 308 shaping, further handle the raw materials when having guaranteed fashioned speed.
The hot drying forming component 4 is installed on one side of the tank body 1, formed feed is dried through the hot drying plate 402, the hot drying oven 409 and the electric heating plate 413, the forming speed of the feed is guaranteed, meanwhile, the feed is prevented from falling and scattering during forming through hot drying at different steps, the forming effect of the feed is guaranteed, hot steam generated after hot drying flows back into the conveying cylinder 301, the waste of resources is reduced, and meanwhile, the constant temperature and humidity inside the conveying cylinder 301 are maintained.
Discharging assembly 5 is installed to jar 1 one side, and is inboard through placing the case 502 with the fodder to it makes case 502 extrusion contact switch 507 to extrude lift spring 501, thereby starts to push electric push rod 505, thereby has guaranteed that the unloading volume of every turn equals, and the staff of being convenient for bags.
The mixing and crushing assembly 2 comprises a transmission motor 201, a transmission rod 202, a crushing disc 203, an auxiliary disc 204, a blanking interception plate 205, a fixed mixing plate 206, a discharge hole 207, a limiting discharge plate 208, a torsion spring 209, an adsorption electromagnet 210, a mixing and stirring plate 211, a blanking hole 212, a vibration spring 213, a cross clamping plate 214, a vibration motor 215, a storage screening hopper 216, a clamping spring 217, a sliding clamping column 218 and an arc opening plate 219;
the top end of the tank body 1 is provided with a transmission motor 201 through a motor base, the output shaft of the transmission motor 201 is connected with a transmission rod 202, the side end of the transmission rod 202 close to the top end of the tank body 1 is welded with a grinding disc 203, the top end of the grinding disc 203 penetrates through a discharging hole 212, the inner side of the tank body 1 is welded with an auxiliary disc 204 corresponding to the position of the grinding disc 203, the inner side of the tank body 1 is welded with a discharging interception plate 205 corresponding to the position of the top end of the grinding disc 203, the maximum rotating angle of the discharging interception plate 205 is 90 degrees, so that discharging is convenient, one end of the inner side of the tank body 1 is clamped with a fixed mixing plate 206, two ends of the fixed mixing plate 206 are symmetrically provided with discharging holes 207, the inner side of the discharging hole 207 is rotatably connected with a limiting discharging plate 208, one end of the limiting discharging plate 208 is welded with a torsion spring 209, one end of the torsion spring 209 is spot-welded on the inner side of the discharging hole 207, one end of the limiting discharging plate 208 is clamped with an adsorption electromagnet 210, and the side end of the transmission rod 202 is welded with a mixing plate 211 corresponding to the top end of the limiting discharging plate 208;
the vibration spring 213 is welded at one end of the inner side of the tank body 1 at equal distance, the top end of the vibration spring 213 is spot-welded at the bottom end of a cross clamping plate 214, a sliding clamping column 218 is embedded and installed at the inner side of the cross clamping plate 214 for fixing, the bottom end of the cross clamping plate 214 is connected with a vibration motor 215 through a motor base, a storage screening hopper 216 is clamped at the top end of the cross clamping plate 214, a clamping spring 217 is welded at the top end of the inner side of the storage screening hopper 216, the top end of the clamping spring 217 is spot-welded at the bottom end of the sliding clamping column 218, the bottom end of the sliding clamping column 218 penetrates through the storage screening hopper 216, one end of the tank body 1 is hinged with a radian open plate 219, the maximum rotation angle of the radian open plate 219 is 180 degrees, the storage screening hopper 216 can be conveniently taken out, and the motor 201 is driven, the input ends of the adsorption electromagnet 210 and the vibration motor 215 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.
The forming and discharging assembly 3 comprises a conveying cylinder 301, an output motor 302, an output rod 303, an auger 304, a porous separation plate 305, a cutting knife 306, a stirring and mixing rod 307 and a porous forming plate 308;
the bottom of jar body 1 is connected with a transport cylinder 301 through the pipeline, transport cylinder 301 one end is connected with output motor 302 through the motor cabinet, output motor 302 output shaft and output pole 303 fixed connection, output pole 303 side symmetric welding has auger 304, output pole 303 side is located and has cup jointed porous separation plate 305 between two auger 304, porous separation plate 305 diameter equals with transport cylinder 301 internal diameter, be convenient for install fixedly, porous separation plate 305 welded mounting is in transport cylinder 301 inboard one end, output pole 303 side is close to porous separation plate 305 position symmetry welding and has cutting knife 306, output pole 303 side symmetric welding has stirring hybrid pole 307, the fixed joint of one end that output motor 302 was kept away from to transport cylinder 301 has porous shaping plate 308, output motor 302 input and external control ware output electric connection.
The hot drying molding assembly 4 comprises a protective discharging cylinder 401, a hot drying plate 402, an air inlet 403, an exhaust fan 404, an exhaust pipe 405, an air pump 406, a limiting discharging cylinder 407, a conveying belt 408, a hot drying oven 409, a concentration pipe 410, a conveying pipe 411, a fixed support frame 412 and an electric heating plate 413;
the discharge end of the conveying cylinder 301 is sleeved with a protective discharge cylinder 401, a hot drying plate 402 is clamped at the position, close to the conveying cylinder 301, of the inner side of the protective discharge cylinder 401, a plurality of air inlets 403 are equidistantly arranged at one end of the protective discharge cylinder 401, an exhaust fan 404 is clamped and connected at the position, close to the air inlets 403, of the inner side of the protective discharge cylinder 401, an exhaust pipe 405 penetrates through the top end of the protective discharge cylinder 401, the air outlet end of the exhaust pipe 405 penetrates through one end of an air pump 406, the air pump 406 is fixedly arranged at the top end of the conveying cylinder 301 and is convenient to fixedly support, a limiting discharge cylinder 407 is welded at the bottom end of the protective discharge cylinder 401, the bottom end of the limiting discharge cylinder 407 is welded and arranged at one side of the top end of a conveying belt 408 through a support frame, a hot oven 409 is welded at the middle part of the top end of the conveying belt 408, a concentration pipe 410 penetrates through the top end of the thermal oven 409 at an equal distance, the air outlet end of the concentration pipe 410 is connected with the air inlet end of the air pump 406, the air outlet end of the conveying pipe 411 is installed at the side end of the conveying cylinder 301 in a penetrating manner, the side end of the conveying belt 408 is welded with a fixed support frame 412, the inner side of the conveying belt 408 is fixedly clamped with an electric heating plate 413, and the input ends of the hot drying plate 402, the exhaust fan 404, the air pump 406, the hot drying oven 409 and the electric heating plate 413 are electrically connected with the output end of an external controller
The discharging assembly 5 comprises a lifting spring 501, a storage box 502, a return spring 503, a rotation limiting plate 504, a pushing electric push rod 505, a discharging plate 506 and a contact switch 507;
lifting spring 501 is welded to one side of the top of fixed support frame 412 at equal intervals, spot welding is installed in the bottom of storage box 502 at the top of lifting spring 501, symmetrical welding is equipped with reset spring 503 in storage box 502 one end both sides, spot welding is installed in rotatory limiting plate 504 one end at reset spring 503 one end, storage box 502 one end is run through the joint and is had propelling movement push rod 505, it discharges play flitch 506 to promote electric push rod 505 one end fixedly connected with, fixed support frame 412 top fixed mounting has contact switch 507, contact switch 507 establishes ties with propelling movement push rod 505, be convenient for carry out the ejection of compact, it inputs and external control ware output electric connection to promote electric push rod 505.
The utility model discloses a theory of operation and use flow: when the feed is required to be manufactured, a worker places fermented fungus stick raw materials and additives into the tank body 1, the transmission motor 201 is started, the transmission rod 202 is driven by the transmission motor 201 to rotate, the suspended ceiling grinding disc 203 rotates, the raw materials are intercepted by the blanking intercepting plate 205 and fall between the grinding disc 203 and the auxiliary disc 204, partial fine particles directly fall onto the fixed mixing plate 206 through the blanking hole 212, the influence of the fine particles on the grinding effect of the grinding disc 203 on the large particles is avoided, the large particles fall onto the fixed mixing plate 206 after being mutually rolled by the grinding disc 203 and the auxiliary disc 204, the transmission rod 202 drives the mixing stirring plate 211 to rotate, the raw materials on the surface of the falling blade fixed mixing plate 206 are mixed, the adsorption electromagnet 210 is turned off after the mixing is finished, the rotation of the discharging plate 208 is limited under the gravity action of the raw materials, so that the raw material falls into the storage screening hopper 216, after the raw material is discharged, the torsion spring 209 drives the limiting discharge plate 208 to reset, the adsorption electromagnet 210 is started again, the limiting discharge plate 208 and the fixed mixing plate 206 are clamped and fixed with each other, when the raw material falls into the storage screening hopper 216, the vibration motor 215 is started, the vibration motor 215 vibrates the ceiling cross clamping plate 214, the vibration effect is increased under the auxiliary action of the vibration spring 213, the raw material can be rapidly sieved, the raw material is mixed again when being sieved, the mixing degree of the raw material is ensured, when the storage screening hopper 216 needs to be taken out, the radian opening plate 219 is rotated to open the tank body 1, the sliding clamping column 218 is pulled, when the sliding clamping column 218 is pulled, the clamping spring 217 is stretched, the storage screening hopper 216 and the cross clamping plate 214 are loosened, and the storage screening hopper 216 is conveniently and rapidly taken out, the storage screening hopper 216 is convenient to clean quickly, and the screening effect and efficiency of the storage screening hopper 216 are guaranteed;
after the raw materials are crushed, the raw materials fall into the conveying cylinder 301, the output motor 302 is started, the output rod 303 is driven to rotate by the output motor 302, the auger 304 is driven to rotate, the raw materials are driven to move by the auger 304, the raw materials are thermally steamed in the conveying cylinder 301 by hot steam and are stirred at the position of the stirring mixing rod 307, after the raw materials are stirred for the first time, the raw materials are moved to the position of the cutting knife 306, after the raw materials are preliminarily layered by the cutting knife 306, the raw materials are preliminarily formed through the porous separation plate 305, after the raw materials pass through the porous separation plate 305, the raw materials are secondarily thermally steamed and cut for layering, the raw materials are stirred again after the layering is completed, the raw materials can be fully thermally treated through multi-step thermal steaming, cutting for layering and mixing, the softening of the raw materials, the gelatinization of starch and the denaturation of protein are realized, meanwhile, the mixed materials are further refined, and the influence on the mouthfeel of the feed due to the rough condition of the mixed materials is avoided, after the treatment is finished, the mixture is formed by a porous forming plate 308;
the formed feed is discharged through the porous forming plate 308, the hot drying plate 402 and the exhaust fan 404 are simultaneously started, air is fed by the exhaust fan 404, air is discharged through the air inlet 403 and passes through the hot drying plate 402, so that the wet feed is primarily dried, the feed can be rapidly formed, the situation that the feed cannot be effectively formed due to falling and breaking of the feed when falling onto the conveying belt 408 is avoided, the feed enters the limiting discharging cylinder 407 through the protective discharging cylinder 401 after primary forming, the feed is protected through the limiting discharging cylinder 407, the feed falling position deviation is avoided, after falling onto the conveying belt 408, the feed is dried through the hot oven 409, the conveying belt 408 is dried through the electric heating plate 413, the rapid drying of the feed is ensured, the forming of the feed is accelerated, the situation that the feed is deteriorated when being stored due to humidity is avoided, the air pump 406 is simultaneously started, hot steam in the protective discharging barrel 401 is conveyed to the position of the air pump 406 through the exhaust pipe 405, hot steam in the hot oven 409 is discharged into the air pump 406 through the concentration pipe 410 and conveyed into the conveying barrel 301 through the conveying pipe 411, so that resources are recycled, and energy waste is reduced;
the dried feed is transported into the storage box 502 under the driving of the conveyer belt 408, the feed falls into the storage box 502, the storage box 502 presses the lifting spring 501 while stacking, and after the fodder is set to a limited amount, the storage box 502 presses the lifting spring 501 to a fixed position, thereby touching the contact switch 507 to activate the push electric push rod 505, the push electric push rod 505 drives the discharge plate 506 to move, thereby pushing the feed to the position of the rotary limit plate 504 and continuing to push the feed out, when the rotation is pushed in the rotation limiting plate 504, the return spring 503 is compressed, after the fodder is pushed out, the electric push rod 505 is pushed to return, the rotating limit plate 504 is driven to reset under the action of the reset spring 503, thereby sealing the storage box 502, the amount of control fodder that can be stable when needs are bagged to the fodder avoids appearing the uneven condition of bagging-off.
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 modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. 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. The utility model provides a preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus, includes jar body (1), its characterized in that: the mixed grinding component (2) is installed on one side of the tank body (1), larger particles are ground by mutual matching of the grinding disc (203) and the auxiliary disc (204), blanking is carried out through the blanking hole (212) and the blanking interception plate (205), raw materials are mixed through the mixed stirring plate (211), so that the fineness of the raw materials and the mixing degree of various raw materials are ensured, the condition that the particles are too large or the like raw materials are piled is avoided, the raw materials after mixing is screened through the storage screening hopper (216), the refining degree of the raw materials and the mixing degree of the raw materials are further ensured, and the uniformity during feed forming is ensured,
the forming discharging component (3) is installed on one side of the tank body (1), the raw materials are driven to move through the auger (304), the raw materials are subjected to preliminary forming through the porous separation plate (305), meanwhile, the raw materials are subjected to secondary cutting through the cutting knife (306) during forming, so that the raw materials are further crushed and refined, the temperature rise and water injection are carried out in the tank body during cutting, meanwhile, the raw materials after refining are mixed again through the stirring mixing rod (307), and finally, the raw materials are formed through the porous forming plate (308), the forming speed is ensured, and meanwhile, the raw materials are further processed,
one side of the tank body (1) is provided with a hot drying forming component (4), formed feed is dried through a hot drying plate (402), a hot drying oven (409) and an electric heating plate (413), the forming speed of the feed is ensured, meanwhile, the feed is prevented from falling and scattering during forming through multi-step hot drying at different positions, the forming effect of the feed is ensured, meanwhile, hot steam generated after hot drying flows back into the conveying cylinder (301), the waste of resources is reduced, and meanwhile, the constant temperature and humidity of the inner side of the conveying cylinder (301) are maintained,
discharge material subassembly (5) are installed to jar body (1) one side, and it is inboard through placing case (502) with the fodder to extrusion lifting spring (501) make case (502) extrusion contact switch (507), thereby start to push electric push rod (505), thereby guaranteed that the unloading volume at every turn equals, the staff of being convenient for bags.
2. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste mushroom sticks as claimed in claim 1, wherein the mixing and crushing component (2) comprises a transmission motor (201), a transmission rod (202), a crushing disc (203), an auxiliary disc (204), a blanking interception plate (205), a fixed mixing plate (206), a discharge hole (207), a limiting discharge plate (208), a torsion spring (209), an adsorption electromagnet (210), a mixing and stirring plate (211), a blanking hole (212), a vibration spring (213), a cross clamping plate (214), a vibration motor (215), a storage and screening hopper (216), a clamping spring (217), a sliding clamping column (218) and a radian opening plate (219);
the utility model discloses a grinding device for the food, including jar body (1), transmission motor (201) is installed through the motor cabinet in jar body (1) top, transmission motor (201) output shaft is connected with transfer line (202), transfer line (202) side department of being close to jar body (1) top position welds and has grinded the dish (203), it has unloading hole (212) to run through on grinding dish (203) top, jar body (1) inboard department of corresponding to grinding dish (203) position welds and has supplementary dish (204), jar body (1) inboard department of corresponding to grinding dish (203) top position welds unloading interception board (205), jar body (1) inboard one end joint has fixed hybrid board (206), discharge gate (207) have been seted up to fixed hybrid board (206) both ends symmetry, discharge gate (207) inboard rotation is connected with restriction ejection of compact board (208), restriction ejection of compact board (208) one end welding has torsion spring (209), one end of the torsion spring (209) is installed on the inner side of the discharge port (207) in a spot welding mode, one end of the limiting discharge plate (208) is embedded and clamped with an adsorption electromagnet (210), and the position, corresponding to the top end of the limiting discharge plate (208), of the side end of the transmission rod (202) is welded with a mixed stirring plate (211);
the welding of jar body (1) inboard one end equidistance has vibrations spring (213), vibrations spring (213) top spot welding is installed in cross joint board (214) bottom, cross joint board (214) bottom is connected with vibrating motor (215) through the motor cabinet, cross joint board (214) top joint has deposits the screening fill (216), it has joint spring (217) to deposit the inboard top welding of screening fill (216), joint spring (217) top spot welding is installed in slip joint post (218) bottom, slip joint post (218) bottom is run through and is deposited the screening fill (216), jar body (1) one end articulates there is radian open plate (219).
3. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste sticks as claimed in claim 2, wherein the maximum rotation angle of the blanking interception plate (205) is 90 degrees, the input ends of the transmission motor (201), the adsorption electromagnet (210) and the vibration motor (215) 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.
4. The device for preparing the livestock and poultry feed by using the waste reed and edible fungus sticks as claimed in claim 2, wherein the sliding clamping columns (218) are embedded and installed on the inner side of the cross-shaped clamping plate (214), and the maximum rotation angle of the radian opening plate (219) is 180 degrees.
5. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste sticks as claimed in claim 1, wherein the molding and discharging assembly (3) comprises a conveying cylinder (301), an output motor (302), an output rod (303), a packing auger (304), a porous separation plate (305), a cutting knife (306), a stirring and mixing rod (307) and a porous molding plate (308);
the jar body (1) bottom is connected with a transport section of thick bamboo (301) through the pipeline, a transport section of thick bamboo (301) one end is connected with output motor (302) through the motor cabinet, output motor (302) output shaft and output pole (303) fixed connection, there is auger (304) output pole (303) side symmetric welding, porous separation plate (305) have been cup jointed to output pole (303) side between being located two auger (304), porous separation plate (305) welded mounting is in transport section of thick bamboo (301) inboard one end, there is cutting knife (306) output pole (303) side near porous separation plate (305) position department symmetric welding, there is stirring mixing bar (307) output pole (303) side symmetric welding, the fixed joint of one end that output motor (302) was kept away from to a transport section of thick bamboo (301) has porous shaping board (308).
6. The device for preparing the livestock and poultry feed by using the reed-edible fungi discarded mushroom sticks as claimed in claim 5, wherein the diameter of the porous separation plate (305) is equal to the inner diameter of the conveying cylinder (301), and the input end of the output motor (302) is electrically connected with the output end of an external controller.
7. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste sticks as claimed in claim 5, wherein the hot drying molding assembly (4) comprises a protective discharging cylinder (401), a hot drying plate (402), an air inlet (403), an exhaust fan (404), an exhaust pipe (405), an air pump (406), a limiting discharging cylinder (407), a conveying belt (408), a hot drying oven (409), a concentration pipe (410), a conveying pipe (411), a fixed support frame (412) and an electric heating plate (413);
the protective discharging barrel (401) is sleeved at the discharging end of the conveying barrel (301), a hot drying plate (402) is connected to the position, close to the conveying barrel (301), of the inner side of the protective discharging barrel (401), a plurality of air inlets (403) are formed in the same distance at one end of the protective discharging barrel (401), an exhaust fan (404) is connected to the position, close to the air inlets (403), of the inner side of the protective discharging barrel (401), an exhaust pipe (405) penetrates through the top end of the protective discharging barrel (401), an air outlet end of the exhaust pipe (405) penetrates through and is installed at one end of an air pump (406), a limiting discharging barrel (407) is welded at the bottom end of the protective discharging barrel (401), the bottom end of the limiting discharging barrel (407) is welded and installed on one side of the top end of the conveying belt (408), a hot drying oven (409) is welded at the middle of the top end of the conveying belt (408), a concentration pipe (410) penetrates through the same distance at the top end of the hot drying oven (409), concentrate pipe (410) give vent to anger the end and be connected with air pump (406) inlet end, air pump (406) give vent to anger the end and be connected with conveyer pipe (411) inlet end, conveyer pipe (411) are given vent to anger the end and are run through and install in a transport section of thick bamboo (301) side, conveyer belt (408) side welding has fixed support frame (412), conveyer belt (408) inboard fixed joint has electric plate (413).
8. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste sticks as claimed in claim 7, wherein the air pump (406) is fixedly installed at the top end of the conveying cylinder (301), and the input ends of the hot drying plate (402), the exhaust fan (404), the air pump (406), the hot drying oven (409) and the electric heating plate (413) are electrically connected with the output end of an external controller.
9. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste sticks as claimed in claim 7, wherein the discharging assembly (5) comprises a lifting spring (501), a storage box (502), a return spring (503), a rotary limiting plate (504), a pushing electric push rod (505), a discharging plate (506) and a contact switch (507);
fixed bolster (412) top one side equidistance welding has lift spring (501), lift spring (501) top spot welding is installed in case (502) bottom, case (502) one end bilateral symmetry welding has reset spring (503), reset spring (503) one end spot welding is installed in rotatory limiting plate (504) one end, case (502) one end is run through the joint and is had propelling movement electric putter (505), propelling movement electric putter (505) one end fixedly connected with discharges flitch (506), fixed bolster (412) top fixed mounting has contact switch (507).
10. The device for preparing the livestock and poultry feed by using the reed-edible fungus waste stick as recited in claim 9, wherein the contact switch (507) is connected in series with the push electric push rod (505), and the input end of the push electric push rod (505) is electrically connected with the output end of an external controller.
CN202120681831.5U 2021-04-02 2021-04-02 Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus Active CN214962543U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112998294A (en) * 2021-04-02 2021-06-22 河北雄安立本农业生态科技有限公司 Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112998294A (en) * 2021-04-02 2021-06-22 河北雄安立本农业生态科技有限公司 Preparation facilities of useless fungus stick preparation beasts and birds fodder of abandoning of reed domestic fungus

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