CN212819224U - Be applied to feed preforming device of microelement premix feed - Google Patents

Be applied to feed preforming device of microelement premix feed Download PDF

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Publication number
CN212819224U
CN212819224U CN202020911969.5U CN202020911969U CN212819224U CN 212819224 U CN212819224 U CN 212819224U CN 202020911969 U CN202020911969 U CN 202020911969U CN 212819224 U CN212819224 U CN 212819224U
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China
Prior art keywords
stirring
blade
feed
shaft
feeding
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CN202020911969.5U
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Chinese (zh)
Inventor
马增欣
蔡闽通
郑永
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Fujian Syno Bioengineering Co ltd
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Fujian Syno Bioengineering Co ltd
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Abstract

The utility model provides a be applied to feed preforming device of microelement premix fodder, includes that the device is equallyd divide to throw material device, biax blade type agitating unit, agitator discharge mechanism, strip forming device and shaping back fodder that sets gradually from the left hand right side, it includes pit and pit apron to throw the material device, be provided with storage component in the pit, storage component's top is provided with feed assembly, storage component's right side is provided with the lifting machine, the side of lifting machine is provided with first exhaust tube. The novel design is reasonable, the maintenance is convenient, the labor intensity of workers is reduced, the specialized production is convenient, and the labor production efficiency is improved.

Description

Be applied to feed preforming device of microelement premix feed
Technical Field
The utility model relates to a be applied to feed preforming device of microelement premix feed.
Background
The premix feed is a mixture of one or more additive raw materials and a carrier or diluent which are uniformly stirred, and is also called additive premix or premix, and aims to facilitate the uniform dispersion of trace raw materials in a large amount of compound feed.
The premixed feed is usually made into granules because the premixed feed needs to be mixed with common feed finally, but the premixed feed needs to be made into strips firstly and then crushed into granules because the difficulty of one-time granulation is high and the problems of uneven granule size and the like exist.
Disclosure of Invention
An object of the utility model is to provide a be applied to the feed preforming device of microelement fodder that mixes in advance, the device can accomplish the preforming of fodder to compact structure, easy to maintain.
The technical scheme of the utility model lies in: the utility model provides a be applied to feed preforming device of microelement premix fodder, includes that the device is equallyd divide to throw material device, biax blade type agitating unit, agitator discharge mechanism, strip forming device and shaping back fodder that sets gradually from the left hand right side, it includes pit and pit apron to throw the material device, be provided with storage component in the pit, storage component's top is provided with feed assembly, storage component's right side is provided with the lifting machine, the side of lifting machine is provided with first exhaust tube.
Further, the storage assembly comprises a storage bin, a storage bin feeding port is arranged at the top of the storage bin, a first annular flange is arranged at the upper part of the storage bin feeding port, a sieve plate assembly is arranged in the first annular flange, and a vibration generator is arranged beside the storage bin; the bottom plate of the storage bin is inclined downwards, the tail end of the storage bin is provided with a storage bin discharge port, a second annular flange is arranged at the lower part of the storage bin discharge port, and a first guide pipe is arranged on the second annular flange; a plurality of fixing columns are arranged below the storage bin, and the fixing columns are connected with the storage bin through springs; the sieve plate assembly comprises an upper sieve plate and a lower sieve plate, the upper sieve plate is large in aperture, the lower sieve plate is small in aperture, and a plurality of bouncing balls are arranged between the two sieve plates; the feeding assembly comprises a dust hood fixedly connected with a pit cover plate, a dust hood feeding hole is formed in the top of the dust hood, a feeding hopper is arranged below the dust hood feeding hole, a grid plate is arranged in the feeding hopper, and a second guide pipe is arranged at a discharging hole of the feeding hopper; the discharge hole of the feed hopper is positioned right above the feed inlet of the storage bin, and the tail end of the second flow guide pipe is communicated into the first annular flange; the lifting machine is bucket elevator, the lower part of lifting machine is provided with the lifting machine feeder hopper, the upper portion of lifting machine is provided with the lifting machine discharge gate, the upper portion of lifting machine feeder hopper is provided with the lifting machine feed inlet, first honeycomb duct penetrates in the lifting machine feed inlet.
Further, the double-shaft blade type stirring device comprises a stirring machine body, wherein a feeding assembly is arranged at the top of the stirring machine body, a stirring mechanism is arranged in the stirring machine body, a shunting edge is arranged at the lower part of the stirring machine body, and discharge holes of a stirrer are arranged at the bottom of the stirring machine body and positioned at two sides of the shunting edge; the feeding assembly comprises a feeding box arranged at the top of the stirring machine body, an inlet pipe and a liquid inlet pipe are arranged on the feeding box, the inlet pipe is connected with a discharge port of the lifting machine, a shower head is arranged at the tail end of the liquid inlet pipe, a water injection pipe is arranged on the side wall of the stirring machine body, and a second exhaust pipe is arranged beside the feeding box.
Furthermore, a stirring rack is arranged below the stirring machine body, an observation window is arranged on the side wall of one circular arc of the stirring machine body, and a sealing door is arranged on the other circular arc of the stirring machine body; the stirring mechanism comprises two rotating shafts penetrating through the stirring machine body, the rotating shafts are erected in the stirring machine body through rolling bearings arranged at two ends of the rotating shafts, a first motor is arranged at one side of the stirring machine body, and the first motor is in chain transmission connection with the two rotating shafts; a plurality of stirring rods are uniformly distributed on the rotating shaft, stirring blades are arranged on the stirring rods, and the stirring blades are arc-shaped blades; the shunting arris is the triangular prism, a side of triangular prism is hugged closely fixedly with stirring organism bottom surface.
Further, the discharge mechanism of the stirring barrel comprises an arc door arranged at the discharge port of the stirring machine, the arc door is arranged on the opening and closing mechanism, and a driving system for driving the opening and closing mechanism is arranged outside the stirring rack; the discharge port is provided with a step bulge, and a rubber sealing gasket is arranged on the step bulge; one side of the arc door facing the inside of the stirring barrel is provided with a stainless steel plate in an attaching mode.
Furthermore, the opening and closing mechanism comprises at least one opening and closing shaft penetrating through the stirring rack, the opening and closing shaft corresponds to the discharge hole of the stirring machine one by one, the opening and closing shaft is erected in the stirring rack through rolling bearings arranged at two ends of the opening and closing shaft, at least one connecting arm is arranged on each opening and closing shaft, at least one fixing stud is arranged on each connecting arm, and the top end of each fixing stud is fixedly connected with the arc-shaped door; the driving system comprises a central rotating shaft arranged outside the stirring rack, a multi-head rocker is arranged at the top end of the central rotating shaft, rockers are arranged at the top ends of the opening and closing shafts, and the multi-head rocker is connected with the rockers through connecting rods; the driving system also comprises an air cylinder arranged on the outer side of the stirring rack, the tail end of the cylinder body of the air cylinder is hinged with the rack, and the top end of the push rod of the air cylinder is hinged with the multi-head rocker; and a chute and a storage tank are arranged below the stirring rack.
Further, the strip-shaped forming device comprises a feeding funnel, a first auger device is mounted at the bottom of the feeding funnel, a discharge port of the feeding funnel is connected with an input port of the first auger device, a grid is fixedly screwed on an output port of the first auger device, and a stainless steel perforation is arranged between the grid and the output port of the first auger device; the first auger device comprises an auger cylinder sleeve, an auger shaft driven by an external second motor is sleeved in the auger cylinder sleeve, and a rotary extrusion blade rotating synchronously with the auger shaft is screwed on the end surface of the output end of the auger shaft; the periphery of the auger cylinder sleeve is in threaded connection with a plurality of damping bolts, the damping bolts penetrate through the outer wall of the auger cylinder sleeve and extend into the auger cylinder sleeve, and the auger shaft is provided with a abdicating annular groove corresponding to the damping bolts; the rotary extrusion blade comprises a blade frame, wherein the blade frame is circular, two blade fixing plates are symmetrically arranged on the blade frame by taking the circle center as a midpoint, a blade slot parallel to the blade fixing plates is arranged between the blade fixing plates and the blade frame, a blade is welded in the blade slot, and the cutting edge of the blade is inclined to the vertical surface.
Furthermore, a stirring shaft driven by a second motor is vertically arranged in the middle of the feeding funnel, the lower end of the stirring shaft is connected with a second auger shaft, and the second auger shaft is sleeved in a discharge port of the feeding funnel; a motor fixing frame is transversely arranged at the upper part of the feeding funnel, and a third motor is vertically screwed on the motor fixing frame and is connected with the upper end of the stirring shaft through a coupler; the stirring shaft is fixedly provided with a first stirring blade and a second stirring blade in a screwed mode from bottom to top, the first stirring blade is a V-shaped rod A, one rod piece of the V-shaped rod A is horizontally and fixedly connected to the stirring shaft, the other rod piece of the V-shaped rod A is attached to the side wall of the feeding hopper in an attached mode, the first stirring blade is a V-shaped rod B, one rod piece of the V-shaped rod B is horizontally and fixedly connected to the stirring shaft, one rod piece of the V-shaped rod B is attached to the side wall of the feeding hopper in an attached mode, and the attached side wall position of the one rod piece is not intersected with the attached; the first stirring blade and the second stirring blade form an angle of 180 degrees; the stirring shaft is sleeved and fixed with an upper fixing sleeve and a lower fixing sleeve, and the first stirring blade and the second stirring blade are respectively fixed with the lower fixing sleeve and the upper fixing sleeve in a screwing way.
Furthermore, the formed feed evenly-distributing device comprises a round roller, one end of the round roller is driven by a fourth motor to rotate, a plurality of groups of crushing evenly-distributing devices are evenly distributed on the round roller along the length direction of the round roller, the crushing evenly-distributing devices comprise four stirring plates evenly distributed along the circumferential direction of the surface of the round roller, two adjacent stirring plates are distributed in a staggered mode, the opposite stirring plates are located on the same vertical plane, the stirring plates are arc-shaped, the directions of arc-shaped openings of the stirring plates of the single crushing evenly-distributing device are uniform when the round roller rotates, and the opposite directions of the arc-shaped openings of the stirring plates in different crushing evenly-distributing devices are not uniform; the round roller is positioned at the lower part of an output port of the first auger device, and a conveying device is arranged below the round roller.
Furthermore, the arc-shaped opening of the stirring plate in the crushing and uniform-distributing device close to the end of the fourth motor faces the direction of the fourth motor, the arc-shaped opening of the stirring plate is turned over at a certain angle along with the round roller in the left extending direction until the arc-shaped opening of the stirring plate in the middle of the round roller is vertical to the extending direction of the round roller, then turning is continued, the arc-shaped opening of the stirring plate gradually faces the left to a bearing seat with the end facing the left end of the round roller, namely, other crushing and uniform-distributing devices except the crushing and uniform-distributing device in the middle are bilaterally symmetrical along the crushing and uniform-distributing device in the middle of; a bearing is arranged in the bearing seat and horizontally connected with the bearing seat in a penetrating way by a round roller; the bottom of each stirring plate is fixedly connected to the surface of the round roller; the slant stock guide is installed to the discharge gate below that is located left and right ends, and this slant stock guide upper end all links firmly terminal surface before discharging device, and the lower extreme all extends to and smashes the equal device top of dividing.
Compared with the prior art, the utility model has the advantages of it is following: this reality new construction is compact, the maintenance of being convenient for. In the feeding device, the dust hood and the feed hopper are higher than the ground, so that dust and the like are prevented from falling into the storage bin along with walking and carrying; two layers of sieve plates and bouncing balls are arranged, so that the blanking capacity is enhanced, and blockage is avoided; the first exhaust pipe is arranged, so that dust raised after raw materials are poured in is sucked away through a gap between the dust hood and the feed hopper. A shunting edge is arranged in the stirring device, so that uneven mixing caused by material accumulation is avoided; the liquid inlet and the feed inlet are separately arranged, so that the pipeline is prevented from being blocked after particles and the like are dissolved; be provided with the second exhaust tube for dust when throwing the material, peculiar smell when mixing etc. are discharged fast, reduce intensity of labour. In the discharging device of the stirring barrel, a cylinder is used as a power source, so that manual operation is avoided, and the danger is reduced; the arc door is provided with the stainless steel plate to resist corrosion, so that the maintenance cost of the mechanism is greatly reduced; a plurality of discharge gates can be arranged, so that the mechanism can be used on a large-scale stirring barrel, and the adaptability is high. The stirring plates which are distributed in a staggered manner from left to right are arranged in the formed feed homogenizing device, so that the gap filling of the adjacent crushing homogenizing devices is ensured, and the problem of incomplete gap chopping is avoided when the round roller drives the crushing homogenizing device to rotate to chop the mixed feed; the arc face through stirring the board will mix the fodder and be in the same direction as the area and divide equally to conveyor surface, carry to next step process through conveyor at last, can avoid installing again on conveyor and divide equally tiling device, save the cost. The novel design is reasonable, the labor intensity of workers is reduced, specialized production is facilitated, and the labor production efficiency is improved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention (omitting the room building for fixing each device);
FIG. 2 is a schematic structural view of a feeding device;
FIG. 3 is an enlarged view of the area I in FIG. 2;
FIG. 4 is an enlarged view of area II of FIG. 2;
FIG. 5 is a schematic structural view of a double-shaft blade type stirring device;
FIG. 6 is a top view of a dual-axis blade type stirring apparatus;
FIG. 7 is a schematic view of the internal structure of the discharge mechanism of the mixing drum;
FIG. 8 is a schematic view of the external structure of the discharge mechanism of the mixing drum;
FIG. 9 is an enlarged view of the area V in FIG. 7;
FIG. 10 is a schematic structural view of a strip forming apparatus;
FIG. 11 is a side view of the strip forming apparatus;
FIG. 12 is an enlarged view of area III of FIG. 10;
FIG. 13 is an enlarged view of the area IV of FIG. 11;
FIG. 14 is a schematic structural view of the molded feed equipartition device;
in the figure: a-feeding device, B-double-shaft blade type stirring device, C-stirring barrel discharging mechanism, D-strip forming device, E-formed feed homogenizing device, A1-pit, A2-pit cover plate, A3-elevator, A4-first air suction pipe, A5-storage bin, A6-storage bin feeding port, A7-first annular flange, A8-vibration generator, A9-storage bin discharging port, A10-second annular flange, A11-first guide pipe, A12-fixed column, A13-spring, A14-upper sieve plate, A15-lower sieve plate, A16-bouncing ball, A17-dust hood, A18-feeding hopper, A19-grating plate, A20-second guide pipe, A21-elevator feeding hopper, A22-elevator feeding port, b1-stirring machine body, B2-shunt edge, B3-stirring machine discharge port, B4-stirring machine frame, B5-observation window, B6-sealing door, B7-feeding box, B8-feeding pipe, B9-liquid inlet pipe, B10-shower head, B11-water injection pipe, B12-second air suction pipe, B13-rotating shaft, B14-rolling bearing, B15-first motor, B16-stirring rod, B17-stirring blade, C1-arc door, C2-step bulge, C3-rubber sealing gasket, C4-stainless steel plate, C5-opening and closing shaft, C6-connecting arm, C7-fixing stud, C8-nut, C9-central rotating shaft, C10-multi-head rocker, C11-rocker, C12-connecting rod, C13-air cylinder, C3875-14-sliding chute, c15-a storage trough, D1-a feeding hopper, D2-a first cylinder sleeve, D3-a second cylinder sleeve, D4-an auger shaft, D5-a second motor, D6-a stirring shaft, D7-a second auger shaft, D8-a first stirring blade, D9-a second stirring blade, D10-a third motor, D11-a motor fixing frame, D12-a blade holder, D13-a blade, D14-a blade fixing plate, D15-a grid, E1-a round roller, E2-a smashing and uniform distribution device, E3-a stirring plate, E4-a conveying device, E5-a bearing seat and E6-an oblique guide plate.
Detailed Description
In order to make the aforementioned features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below, but the present invention is not limited thereto.
Refer to fig. 1-14.
The utility model provides a be applied to fodder preforming device of microelement premix fodder, includes that the device E is equallyd divide to throwing material device A, biax blade type agitating unit B, agitator discharge mechanism C, strip forming device D and shaping back fodder that set gradually from the left hand right side, throw the material device and include pit A1 and pit apron A2, be provided with storage component in the pit, storage component's top is provided with feeding component, storage component's right side is provided with lifting machine A3, the side of lifting machine is provided with first exhaust tube A4, first exhaust tube top-down passes the pit apron and links to each other with the pit, the first exhaust tube other end is provided with large-scale air exhauster.
In this embodiment, storage assembly includes storage silo A5, the top of storage silo is provided with storage silo pan feeding mouth A6, storage silo pan feeding mouth upper portion is provided with first annular flange A7, be provided with the sieve subassembly in the first annular flange, the side of storage silo is provided with vibration generator A8. During operation, the vibration generator makes the storage bin vibrate, and forms a vibrating screen structure with the sieve plate assembly, so that the raw materials can pass through the vibrating screen structure in an accelerated mode.
In this embodiment, the bottom plate downward sloping of storage silo, its end is provided with storage silo discharge gate A9, because the vibrator makes the storage silo vibration, raw and other materials freely slide down with higher speed, storage silo discharge gate lower part is provided with second annular flange A10, be provided with first honeycomb duct A11 on the second annular flange, pure cotton cloth is adopted to first honeycomb duct, avoids the vibration of storage silo to cause the influence to other equipment.
In this embodiment, a plurality of fixed columns a12 are arranged below the storage bin, and the fixed columns a12 are connected with the storage bin through springs a13 to increase the vibration amplitude of the storage bin, so that the raw material falls down faster, and the influence on other equipment is reduced.
In this embodiment, the sieve plate subassembly includes two-layer upper and lower sieve, and upper screen A14 is the large aperture, and lower floor sieve A15 is the small aperture, be provided with a plurality of bouncy balls A16 between the two-layer sieve. Because the storage silo vibrates for the bounce ball bumps back and forth between two-layer sieve to avoid raw and other materials caking to block up the screen cloth.
In this embodiment, the feeding subassembly includes the suction hood A17 that links firmly with the pit apron, the suction hood top is provided with the suction hood feed inlet, suction hood feed inlet below is provided with feeder hopper A18, and first exhaust tube is bled from the gap between suction hood and the feeder hopper for the dust of raising is taken away, avoids dust pollution, be provided with grid plate A19 in the feeder hopper, prevent to have the foreign matter to call into equipment, causes equipment damage, the discharge gate of feeder hopper is provided with second honeycomb duct A20, the second honeycomb duct adopts pure cotton, and the vibration of avoiding the storage silo causes the influence to other equipment.
In this embodiment, the discharge gate of feeder hopper is located the storage silo pan feeding mouth directly over, the second honeycomb duct is terminal to be led to in the first annular flange, avoids the material to shed.
In this embodiment, the lifting machine is bucket elevator, the lower part of lifting machine is provided with lifting machine feeder hopper A21, the upper portion of lifting machine is provided with the lifting machine discharge gate, the upper portion of lifting machine feeder hopper is provided with lifting machine feed inlet A22, first honeycomb duct penetrates in the lifting machine feed inlet, avoids the material to shed.
The double-shaft blade type stirring device comprises a stirring machine body B1, wherein a feeding assembly is arranged at the top of the stirring machine body, a stirring mechanism is arranged in the stirring machine body, a shunting edge B2 is arranged at the lower part of the stirring machine body, and stirrer discharge holes B3 are arranged on two sides of the shunting edge at the bottom of the stirring machine body.
In this embodiment, the feeding assembly includes a feeding box B7 disposed at the top of the stirring machine body, the feeding box is provided with a feeding pipe B8 and a liquid inlet pipe B9, the feeding pipe is connected to a discharge port of the lifting machine, the feeding pipe is used for feeding solid materials, a shower head B10 is disposed at the end of the liquid inlet pipe, the liquid inlet pipe is used for feeding solvents, a liquid storage box and a water pump are disposed at the other end of the liquid inlet pipe, a water injection pipe B11 is disposed on the side wall of the stirring machine body, the water injection pipe is connected to a tap water pipe, a filter is disposed at the joint of the water injection pipe, a second air extraction pipe is disposed beside the feeding box, the other end of the second air extraction pipe B12 is connected to a large-scale exhaust fan, and the second air extraction pipe is used for extracting a large amount of dust generated when.
In this embodiment, the machine body below is provided with stirring frame B4, a circular arc lateral wall of stirring machine body is provided with observation window B5 to observe the stirring condition, in time intervene, another circular arc wall of stirring machine body is provided with sealing door B6, so that intervene the stirring condition in the agitating unit, prevent the production of waste material.
In this embodiment, rabbling mechanism includes two pivot B13 that run through the stirring organism, the pivot erects in the stirring organism via the antifriction bearing B14 that sets up at the pivot both ends, antifriction bearing sets up in the stirring organism outside, avoids the fodder to pollute the ball raceway, one side of stirring organism is provided with first motor B15, be connected via chain drive between first motor and the two pivots, the motor frequency is adjustable to adapt to different mixing requirements.
In this embodiment, many stirring rods B16 are evenly distributed on the pivot, be provided with stirring vane on the stirring rod, the blade is arc blade B17.
In this embodiment, the shunting edge is a triangular prism, and one side surface of the triangular prism is tightly attached and fixed to the bottom surface of the stirring machine body.
In this embodiment, agitator discharge mechanism is including setting up in the arc door C1 of mixer discharge gate, the arc door can also lead discharge gate exhaust material after opening to control the material placement, the arc door sets up on closing mechanism, the agitator frame outside is provided with the actuating system who is used for driving closing mechanism.
In this embodiment, the discharge hole is provided with a step protrusion C2, and a rubber gasket C3 is arranged on the step protrusion to avoid leakage.
In this embodiment, arc door is equipped with corrosion resistant plate C4 towards one side subsides in the agitator to avoid arc door corrosion damage, reduced the requirement to arc door material simultaneously, the cost is reduced.
In this embodiment, switching mechanism includes an at least switching axle C5 that runs through the agitator frame, switching axle and discharge gate one-to-one, the switching axle erects in the agitator frame through the rolling bearing that sets up in switching axle both ends, antifriction bearing sets up in the agitator frame outside, avoids feed pollution ball raceway, the epaxial at least linking arm C6 that all is provided with of switching, the one end that the linking arm meets with the switching axle is the ring, the ring cover is established at the switching epaxially and is passed through the bolt fastening, be provided with at least one fixing stud C7 on the linking arm, fixing stud links firmly with the linking arm through the nut C8 that sets up in the linking arm both sides, fixing stud's top links firmly with the arc door.
In this embodiment, the driving system includes a central rotating shaft C9 disposed outside the mixer frame, a multi-head rocker C10 is disposed at the top end of the central rotating shaft, rockers C11 are disposed at the top ends of the opening and closing shafts, the multi-head rocker and the rocker are connected through a connecting rod C12, the connecting rods are hinged to the multi-head rocker and the rocker in a connecting manner, and the multi-head rocker, the connecting rod and the mixer frame form a planar four-bar mechanism.
In this embodiment, the driving system further includes an air cylinder C13 disposed outside the mixer frame, the tail end of the cylinder body of the air cylinder is hinged to the mixer frame, the top end of the cylinder push rod is hinged to the multi-head rocker, and when the cylinder push rod is pushed out or retracted, the multi-head rocker is driven to rotate, so that each rocker drives each opening and closing shaft to rotate.
In this embodiment, a chute C14 and a storage chute C15 are disposed below the mixer frame, so as to store the mixed feed.
In this embodiment, strip forming device includes pan feeding funnel D1, pan feeding funnel side top is provided with the connecting pipe of being connected with the stock chest, and first han long device is installed to pan feeding funnel bottom, and the discharge gate of pan feeding funnel is connected with the input port of first han long device, and the spiral shell has grid D15 on the output port of first han long device admittedly, is provided with the stainless steel between the output port of grid and first han long device and perforates.
In this embodiment, the first auger device comprises an auger cylinder sleeve, an auger shaft D4 driven by an external second motor D5 is sleeved in the auger cylinder sleeve, and a rotary extrusion blade rotating synchronously with the auger shaft is screwed on the end face of the output end of the auger shaft; the packing auger cylinder sleeve comprises a first cylinder sleeve D2 and a second cylinder sleeve D3, the first cylinder sleeve and the second cylinder sleeve are screwed through flanges, and a discharge port of the feeding hopper is connected with the periphery of the first cylinder sleeve and communicated with the interior of the first cylinder sleeve.
In this embodiment, auger cylinder liner periphery on the spiro union have a plurality of damping bolts, damping bolt link up the outer wall of auger cylinder liner and stretch into the auger cylinder liner, the epaxial damping bolt that corresponds of auger sets up the annular of stepping down, adjusts damping bolt's screw in volume according to different materials, and then the velocity of flow of control material.
In this embodiment, rotatory extrusion blade include blade frame D12, the blade frame be circular, use the centre of a circle as mid point central symmetry integrated into one piece on the blade frame have two blade fixed plates D14, this only has the sword slot parallel with the blade fixed plate between blade fixed plate and the blade frame, the welding has blade D13 in the sword slot, the blade slope and the vertical face of blade, the blade can impel, the water conservancy diversion, cut the material.
In this embodiment, a stirring shaft D6 driven by a third motor D10 is vertically arranged in the middle of the feeding funnel, a second auger shaft D7 is welded at the lower end of the stirring shaft, and the second auger shaft is sleeved in a discharge port of the feeding funnel.
In this embodiment, pan feeding funnel upper portion horizontal have motor mount D11, the third motor vertical to the spiral shell in motor mount and through the shaft coupling with the (mixing) shaft upper end link to each other.
In this embodiment, the (mixing) shaft on by the inherent first stirring vane D8 of lower supreme spiral, second stirring vane D9, first stirring vane be V type pole A, one member level of V type pole A links firmly on the (mixing) shaft, another member pastes and leans on pan feeding funnel lateral wall, first stirring vane be V type pole B, one member level of V type pole B links firmly on the (mixing) shaft, one member pastes and leans on pan feeding funnel lateral wall and the lateral wall position of leaning on does not intersect with the position of leaning on of first stirring vane's lateral wall.
In this embodiment, the first stirring blade and the second stirring blade form an angle of 180 degrees.
In this embodiment, the stirring shaft is fixed with an upper fixing sleeve and a lower fixing sleeve in a sleeved manner, a horizontal rod is integrally formed on the periphery of the fixing sleeve, and the first stirring blade and the second stirring blade are respectively screwed with the horizontal rod of the lower fixing sleeve and the horizontal rod of the upper fixing sleeve.
In this embodiment, the formed feed equally-dividing device comprises a round roller E1 with one end driven by a fourth motor to rotate, the round roller is uniformly distributed with a plurality of groups of crushing equally-dividing devices E2 along the length direction, the crushing equally-dividing device comprises four stirring plates E3 uniformly distributed along the circumferential direction of the surface of the round roller, two adjacent stirring plates are distributed in a staggered manner, the opposite stirring plates are positioned on the same vertical plane, the stirring plates are arc-shaped, the directions of arc-shaped openings of the stirring plates of a single crushing equally-dividing device are uniform when the round roller rotates, and the opposite directions of the arc-shaped openings of the stirring plates in different crushing equally-dividing devices are not uniform; stir the board and all fasten through bolt and round roller spiro union, and the accessible increases and decreases the mode of gasket and stir the angle modulation of board to reach the best and smash and equally divide the effect.
In this embodiment, the round roller is located at the lower part of the output port of the first auger device, and a conveying device E4 is arranged below the round roller.
In this embodiment, the arc opening that stirs the board among the crushing equal device that is close to fourth motor end is towards fourth motor direction, stir the arc opening of board with certain angle upset along with the round roller towards left extending direction, the arc opening direction that stirs the board to the round roller middle part is perpendicular with round roller extending direction, the successor continues the upset, the arc opening direction that stirs the board progressively towards left to the bearing frame E5 of tip towards round roller left end, device bilateral symmetry is equallyd divide all along the crushing equal device in round roller middle part to other crushing equal device except that the crushing equal device in middle part promptly, this design can guarantee to divide the fodder tiling after smashing in conveyor surface with better process on next step when fully smashing different blanking mouth blanks.
In this embodiment, every smash and equally divide the device all to be similar fan form, nevertheless because adjacent stirring board all controls the dislocation distribution, guaranteed promptly that adjacent crushing equally divides the gap of device to fill, drive to smash equally divide the device rotation and can not appear again because of the incomplete problem is chopped up to the mixed fodder to the gap at the round roller.
In the embodiment, the bearing seat is internally provided with a bearing and horizontally penetrated by a round roller.
In this embodiment, the bottom of the stirring plate is fixedly connected to the surface of the round roller.
In this embodiment, all install slant stock guide E6 below the discharge gate that is located left and right ends, this slant stock guide upper end all links firmly the delivery outlet lower part at first hank dragon device, and the lower extreme all extends to and smashes the equal device top of dividing.
The above is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a be applied to fodder preforming device of microelement premix fodder, its characterized in that, include from the left hand right side set gradually throw material device, biax blade type agitating unit, agitator discharge mechanism, strip forming device and shaping back fodder and equally divide the device, it includes pit and pit apron to throw the material device, be provided with storage component in the pit, storage component's top is provided with feed assembly, storage component's right side is provided with the lifting machine, the side of lifting machine is provided with first exhaust tube.
2. The feed preforming device for the premixed feed with trace elements as claimed in claim 1, wherein the storage assembly comprises a storage bin, a storage bin feeding port is formed in the top of the storage bin, a first annular flange is arranged on the upper portion of the storage bin feeding port, a sieve plate assembly is arranged in the first annular flange, and a vibration generator is arranged beside the storage bin; the bottom plate of the storage bin is inclined downwards, the tail end of the storage bin is provided with a storage bin discharge port, a second annular flange is arranged at the lower part of the storage bin discharge port, and a first guide pipe is arranged on the second annular flange; a plurality of fixing columns are arranged below the storage bin, and the fixing columns are connected with the storage bin through springs; the sieve plate assembly comprises an upper sieve plate and a lower sieve plate, the upper sieve plate is large in aperture, the lower sieve plate is small in aperture, and a plurality of bouncing balls are arranged between the two sieve plates; the feeding assembly comprises a dust hood fixedly connected with a pit cover plate, a dust hood feeding hole is formed in the top of the dust hood, a feeding hopper is arranged below the dust hood feeding hole, a grid plate is arranged in the feeding hopper, and a second guide pipe is arranged at a discharging hole of the feeding hopper; the discharge hole of the feed hopper is positioned right above the feed inlet of the storage bin, and the tail end of the second flow guide pipe is communicated into the first annular flange; the lifting machine is bucket elevator, the lower part of lifting machine is provided with the lifting machine feeder hopper, the upper portion of lifting machine is provided with the lifting machine discharge gate, the upper portion of lifting machine feeder hopper is provided with the lifting machine feed inlet, first honeycomb duct penetrates in the lifting machine feed inlet.
3. The feed preforming device for the pre-mixed micro-element feed as claimed in claim 2, wherein the double-shaft blade type stirring device comprises a stirring body, a feeding component is arranged on the top of the stirring body, a stirring mechanism is arranged in the stirring body, a shunting ridge is arranged on the lower portion of the stirring body, and mixer outlets are arranged on the bottom of the stirring body on two sides of the shunting ridge; the feeding assembly comprises a feeding box arranged at the top of the stirring machine body, an inlet pipe and a liquid inlet pipe are arranged on the feeding box, the inlet pipe is connected with a discharge port of the lifting machine, a shower head is arranged at the tail end of the liquid inlet pipe, a water injection pipe is arranged on the side wall of the stirring machine body, and a second exhaust pipe is arranged beside the feeding box.
4. The feed preforming device for the pre-mixed feed with trace elements as claimed in claim 3, wherein a mixer frame is provided under the mixer body, an observation window is provided on one arc side wall of the mixer body, and a sealing door is provided on the other arc wall of the mixer body; the stirring mechanism comprises two rotating shafts penetrating through the stirring machine body, the rotating shafts are erected in the stirring machine body through rolling bearings arranged at two ends of the rotating shafts, a first motor is arranged at one side of the stirring machine body, and the first motor is in chain transmission connection with the two rotating shafts; a plurality of stirring rods are uniformly distributed on the rotating shaft, stirring blades are arranged on the stirring rods, and the stirring blades are arc-shaped blades; the shunting arris is the triangular prism, a side of triangular prism is hugged closely fixedly with stirring organism bottom surface.
5. The feed preforming device for the premixed feed with trace elements as claimed in claim 4, wherein the discharge mechanism of the stirring barrel comprises an arc door disposed on the discharge port of the stirring machine, the arc door is disposed on the opening and closing mechanism, and a driving system for driving the opening and closing mechanism is disposed outside the stirring frame; the discharge port is provided with a step bulge, and a rubber sealing gasket is arranged on the step bulge; one side of the arc door facing the inside of the stirring barrel is provided with a stainless steel plate in an attaching mode.
6. The pre-forming device of trace element pre-mixed fodder as claimed in claim 5, wherein the opening and closing mechanism includes at least one opening and closing shaft passing through the mixer frame, the opening and closing shaft is in one-to-one correspondence with the discharge port of the mixer, the opening and closing shaft is erected in the mixer frame through rolling bearings arranged at both ends of the opening and closing shaft, the opening and closing shaft is provided with at least one connecting arm, the connecting arm is provided with at least one fixing stud, and the top end of the fixing stud is fixedly connected with the arc door; the driving system comprises a central rotating shaft arranged outside the stirring rack, a multi-head rocker is arranged at the top end of the central rotating shaft, rockers are arranged at the top ends of the opening and closing shafts, and the multi-head rocker is connected with the rockers through connecting rods; the driving system also comprises an air cylinder arranged on the outer side of the stirring rack, the tail end of the cylinder body of the air cylinder is hinged with the rack, and the top end of the push rod of the air cylinder is hinged with the multi-head rocker; and a chute and a storage tank are arranged below the stirring rack.
7. The feed preforming device applied to the trace element premix feed as claimed in claim 6, wherein the strip-shaped forming device comprises a feeding funnel, a first auger device is installed at the bottom of the feeding funnel, a discharge port of the feeding funnel is connected with an input port of the first auger device, a grid is fixedly screwed on an output port of the first auger device, and a stainless steel perforation is arranged between the grid and the output port of the first auger device; the first auger device comprises an auger cylinder sleeve, an auger shaft driven by an external second motor is sleeved in the auger cylinder sleeve, and a rotary extrusion blade rotating synchronously with the auger shaft is screwed on the end surface of the output end of the auger shaft; the periphery of the auger cylinder sleeve is in threaded connection with a plurality of damping bolts, the damping bolts penetrate through the outer wall of the auger cylinder sleeve and extend into the auger cylinder sleeve, and the auger shaft is provided with a abdicating annular groove corresponding to the damping bolts; the rotary extrusion blade comprises a blade frame, wherein the blade frame is circular, two blade fixing plates are symmetrically arranged on the blade frame by taking the circle center as a midpoint, a blade slot parallel to the blade fixing plates is arranged between the blade fixing plates and the blade frame, a blade is welded in the blade slot, and the cutting edge of the blade is inclined to the vertical surface.
8. The feed preforming device for the premixed trace element feed as claimed in claim 7, wherein a stirring shaft driven by a third motor is vertically arranged at the middle part in the feeding funnel, the lower end of the stirring shaft is connected with a second auger shaft, and the second auger shaft is sleeved in a discharge port of the feeding funnel; a motor fixing frame is transversely arranged at the upper part of the feeding funnel, and a third motor is vertically screwed on the motor fixing frame and is connected with the upper end of the stirring shaft through a coupler; the stirring shaft is fixedly provided with a first stirring blade and a second stirring blade in a screwed mode from bottom to top, the first stirring blade is a V-shaped rod A, one rod piece of the V-shaped rod A is horizontally and fixedly connected to the stirring shaft, the other rod piece of the V-shaped rod A is attached to the side wall of the feeding hopper in an attached mode, the first stirring blade is a V-shaped rod B, one rod piece of the V-shaped rod B is horizontally and fixedly connected to the stirring shaft, one rod piece of the V-shaped rod B is attached to the side wall of the feeding hopper in an attached mode, and the attached side wall position of the one rod piece is not intersected with the attached; the first stirring blade and the second stirring blade form an angle of 180 degrees; the stirring shaft is sleeved and fixed with an upper fixing sleeve and a lower fixing sleeve, and the first stirring blade and the second stirring blade are respectively fixed with the lower fixing sleeve and the upper fixing sleeve in a screwing way.
9. The pre-forming device of feedstuff applied to premixed feedstuff with trace elements as claimed in claim 8, wherein the uniform distribution device of feedstuff after forming comprises a round roller with one end driven by a fourth motor, the round roller is provided with a plurality of groups of uniform distribution devices along the length direction, the uniform distribution device of feedstuff comprises four stirring plates circumferentially and uniformly distributed along the surface of the round roller, two adjacent stirring plates are distributed in a staggered way, the opposite stirring plates are positioned on the same vertical plane, the stirring plates are arc-shaped, the direction of the arc-shaped opening of the stirring plate of a single uniform distribution device is uniform when the round roller rotates, and the opposite directions of the arc-shaped openings of the stirring plates in different uniform distribution devices are not uniform; the round roller is positioned at the lower part of an output port of the first auger device, and a conveying device is arranged below the round roller.
10. The pre-forming device of trace element pre-mixed fodder as claimed in claim 9, wherein the arc opening of the stirring plate of the crushing and distributing device near the end of the fourth motor faces the direction of the fourth motor, the arc opening of the stirring plate is turned over with the round roller in the left extending direction at a certain angle until the arc opening of the stirring plate in the middle of the round roller is perpendicular to the extending direction of the round roller, and then turning over is continued, the arc opening of the stirring plate gradually faces left to the bearing seat with the end facing the left end of the round roller, that is, the other crushing and distributing devices except the crushing and distributing device in the middle are symmetrical left and right along the crushing and distributing device in the middle of the round roller; a bearing is arranged in the bearing seat and horizontally connected with the bearing seat in a penetrating way by a round roller; the bottom of each stirring plate is fixedly connected to the surface of the round roller; the slant stock guide is installed to the discharge gate below that is located left and right ends, and this slant stock guide upper end all links firmly terminal surface before discharging device, and the lower extreme all extends to and smashes the equal device top of dividing.
CN202020911969.5U 2020-05-27 2020-05-27 Be applied to feed preforming device of microelement premix feed Active CN212819224U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020911969.5U CN212819224U (en) 2020-05-27 2020-05-27 Be applied to feed preforming device of microelement premix feed

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020911969.5U CN212819224U (en) 2020-05-27 2020-05-27 Be applied to feed preforming device of microelement premix feed

Publications (1)

Publication Number Publication Date
CN212819224U true CN212819224U (en) 2021-03-30

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020911969.5U Active CN212819224U (en) 2020-05-27 2020-05-27 Be applied to feed preforming device of microelement premix feed

Country Status (1)

Country Link
CN (1) CN212819224U (en)

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