CN114870746A

CN114870746A - Biological feed granulation equipment with prevent bonding structure

Info

Publication number: CN114870746A
Application number: CN202210645661.4A
Authority: CN
Inventors: 胡志军; 郭闯; 赵慧
Original assignee: Jiangsu Fuhai Biotechnology Co ltd
Current assignee: Jiangsu Fuhai Biotechnology Co ltd
Priority date: 2022-06-08
Filing date: 2022-06-08
Publication date: 2022-08-09

Abstract

The invention discloses biological feed granulation equipment with an anti-bonding structure, which comprises a mixing box body, wherein a water guide pipe is arranged on the inner side of the mixing box body through a support piece, a water spray head is arranged on the lower surface of the water guide pipe, a conveying pipe is arranged at one end of the water guide pipe and penetrates through the inner wall of the mixing box body, a flow monitoring valve is arranged at one end of the conveying pipe, a connector is arranged at the input end of the flow monitoring valve, a connecting pipe is arranged at the bottom of the mixing box body in a penetrating manner, and a control valve is arranged on the outer side of the connecting pipe. The assembly cover is arranged to fix the control motor, the control motor operates to drive the rotor at the output end to rotate, the rotor rotates to drive the cutting plate at the outer side to rotate, the extruded feed is cut off by the cutting plate in the process of moving the cutting plate and passes through the front of the extrusion opening, the feed granulation speed is accelerated, the feed is placed on the assembly and is adhered to the device, the feed cannot fall off, and the feed specification can be conveniently controlled in use.

Description

Biological feed granulation equipment with prevent bonding structure

Technical Field

The invention relates to the technical field of biological feed production, in particular to biological feed granulation equipment with an anti-bonding structure.

Background

The biological feed is prepared by adding beneficial microorganisms into the feed as an additive, can effectively improve the digestibility of animals, effectively prevent and treat digestive tract diseases, reduce the death rate of young animals, enhance the immunity function of organisms and promote the growth of the animals, and the production of the biological feed at present is to mix raw materials together, extrude the materials through an extrusion structure and then process the materials into granules.

The existing feed granulating equipment has the defects that:

1. patent document CN211721832U discloses a pig feed granulation device, the pig feed granulation device includes: a base; the bottom of the box body is fixed at the top of the base; the feed granulating device is arranged in the box body. The utility model provides a pig feed prilling granulator, have and make fashioned pig feed pellet abundant contact, the function of even stoving, the device can be fine carry out abundant contact to pig feed pellet, realize the effect of even stoving, place fashioned granule in rotating the piece, through inside filter screen, under the work of motor, make it rotate the granule and rotate the whereabouts, thermal area of contact in granule and the treatment box has been increased, make the fan and the jet-propelled shower nozzle of setting effectively dry the granule of whereabouts, avoid the granule because of piling up the insufficient phenomenon of stoving that appears, and then improved the quality of pig feed, further improvement the device's practicality.

However, the granulation structure in the above publication lacks a slitting structure, so that the granules are adhered to the equipment after being extruded, and the specification of the granules cannot be controlled;

2. patent document CN209184008U discloses a modular energy memory, comprises a box bod, the top of box body has the lid through the hinge handing-over, the bottom difference fixedly connected with fixed block, joint piece and the energy of box inner chamber connect to the sliding surface that the energy connects is connected with the energy storage module, the right side sliding connection of joint piece inner chamber has the sliding block, the sliding block is provided with two, the internal surface fixedly connected with limiting plate of joint piece inner chamber to the right side of limiting plate and the left side sliding connection of sliding block, two the front of sliding block all rotates and is connected with dwang, two the equal fixedly connected with connecting block of one end of dwang, the utility model relates to an energy storage technical field. This modular energy memory draws the cooperation of piece and joint piece, can relax fix and loosen the energy storage module, and convenient and fast that use has practiced thrift the required time of change or maintenance, and work efficiency has been very high.

However, the granulation equipment in the above publication does not have a drying structure, which causes the moisture of the feed just produced to be large, and easily causes the feed to be adhered together, thereby affecting the feed quality;

3. the patent document CN207907924U discloses an energy storage device for field calibration of a distributed optical fiber sensing system, which comprises a housing and an energy storage device body, wherein a plurality of cooling fins are connected to two sides of the energy storage device body, a cooling groove is installed at the bottom end inside the housing, a cooling fan is installed in the cooling groove, a cooling box is installed in the housing, a cold air channel runs through the cooling box, a refrigeration silk screen is installed in the cooling box, two telescopic support frames welded on the cooling box are clamped at the bottom end of the energy storage device body, a connecting spring is sleeved on each telescopic support frame, and a heat dissipation hole is formed in the top end of the housing; the energy storage device of the utility model can reduce the vibration frequency of the body of the energy storage device by the telescopic support frame, so that the body of the energy storage device can be stably fixed in the shell to prevent looseness, meanwhile, the heat in the body of the energy storage device can be guided into the air by the radiating fins, and the cool air in the cooling box is sent to the periphery of the body of the energy storage device by the radiating fan, and simultaneously, the hot air is driven to be emitted through the radiating holes,

however, the granulation apparatus in the above publication does not have a replacement structure, and the structure cannot be adjusted as needed, and the apparatus has low adaptability;

4. patent document CN215835345U discloses a photovoltaic energy storage device convenient to maintain, including the energy memory body, one side of the surface of energy memory body is equipped with energy memory shell A, the opposite side of energy memory body surface is equipped with energy memory shell B, energy memory shell A and energy memory shell B all are connected through the pivot between the energy memory body, the one side of end surface all is fixed being equipped with the fixed block, four about energy memory shell A and energy memory shell B one side of fixed block all is equipped with the fixed slot that is located energy memory body surface, the fixed slot extends to the inside of energy memory body, the position and the shape of fixed block and the position and the shape of fixed slot correspond to each other. The photovoltaic energy storage device of the utility model can open the shell of the photovoltaic energy storage device to expose the internal mechanism of the novel photovoltaic energy storage device, thereby being more convenient for the maintenance of the working personnel,

however, the granulation apparatus in the above publication has no vibration structure inside, so that the granules are kept still during transportation and are easily adhered to the apparatus.

Disclosure of Invention

The invention aims to provide biological feed pelleting equipment with an anti-bonding structure, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a biological feed granulation equipment with prevent adhesive bonding structure, includes and mixes the box, the aqueduct is installed through support piece to the inboard of mixing the box, the lower surface mounting of aqueduct has the sprinkler bead, the conveyer pipe is installed to the one end of aqueduct, and the conveyer pipe runs through the inner wall of mixing the box, flow monitoring valve is installed to the one end of conveyer pipe, the connector is installed to flow monitoring valve's input, the connecting pipe is installed in the bottom of mixing the box through, the control valve is installed in the outside of connecting pipe, the extrusion pipe is installed to the bottom of connecting pipe.

Preferably, two sets of bracing pieces are installed to the roof of mixing the box, and the bottom plate is installed to the both sides of two sets of bracing piece displacement connecting pipes, the bottom of bracing piece.

Preferably, a servo motor is installed at the rear end of the extrusion pipe, a rotating rod is installed at the output end of the servo motor and penetrates through the rear wall of the extrusion pipe, spiral transmission blades are installed on the outer side of the rotating rod, a fixing seat is installed on the outer side of the extrusion pipe, and the fixing seat is installed at the top of the bottom plate.

Preferably, the equipment joint is installed to the front end of extrusion pipe, and the equipment lid is installed through the screw thread in the outside that the equipment connects, and the antetheca of equipment lid is installed and is extruded the mouth, and control motor is installed to the antetheca of equipment lid inboard, and control motor's output runs through the antetheca of equipment lid and installs the rotor, and the slitting board is installed in the outside of rotor, and the slitting board is located the place ahead of extruding the mouth, and the separation shell is installed to the antetheca of equipment lid inboard, and the separation shell is located control motor's the outside, and the separation shell is located a plurality of groups and extrudes between the mouth.

Preferably, the flow monitoring valve monitors the flow of the passed injected water, monitors the amount of the delivered water flow, and is convenient for a user to add the feed and the water in proportion according to the requirement;

the spiral transmission blade and the rotating rod are located on the inner side of the extrusion pipe, the spiral transmission blade is driven to rotate when rotating, and the spiral transmission blade rotates to push the feed to move through the spiral structure.

Preferably, the closing cap is installed at the top of mixing the box, and the cardboard is installed in the outside of closing cap, and the backup pad is installed in the outside of mixing the box, and there is threaded connection pole inboard of backup pad through axostylus axostyle movable mounting, and threaded connection pole is located the inboard of cardboard, and threaded connection pole's the outside is installed through the screw thread and is tightened up the ring, and the ring that tightens up is located the top of cardboard, and control interface is installed to one side outer wall of mixing the box.

Preferably, the top of closing cap is run through and is installed the notes material pipe, and the connecting screw is installed at the top of notes material pipe, and driving motor is installed at the top of closing cap, and the transfer line is installed to driving motor's output, and the transfer line runs through the inboard of closing cap, and the puddler is installed to the outside of transfer line, and the puddler is located the inboard of mixing box.

Preferably, the stoving case is installed in the front of bottom plate, the roof of stoving case has been seted up and has been connect the material mouth, the heat lamp is installed to the top inboard of stoving case, two sets of symmetrical arrangement's bearing frame is installed to the both sides of stoving case, the inboard movable mounting of two sets of bearing frames has the transmission axostylus axostyle, the transmission band is installed in the outside of two sets of transmission axostylus axostyles, the motor is installed in the front of bearing frame, the front end swing joint of motor and transmission axostylus axostyle, the fixed plate is installed to the inboard of stoving case, the inboard of fixed plate displacement transmission band, the vibrating arm is installed at the top of fixed plate, the push pedal is installed on the top of vibrating arm, the inboard at the transmission band is pasted to the push pedal.

Preferably, the working steps of the energy storage device are as follows:

s1, firstly, the material injection pipe is connected with external feeding equipment through a connecting screw rod, the feeding equipment transmits materials to the inner side of the material injection pipe, the material injection pipe guides the raw materials to enter the interior of the mixing box body, the raw materials are stored by the mixing box body, meanwhile, a worker connects the connector with water delivery equipment, the water delivery equipment delivers water to the interior of the delivery pipe, the delivery pipe guides the water to be injected into the interior of the water guide pipe, a flow monitoring valve monitors the passing water flow in the water delivery process, the water flow is judged, the worker can conveniently add the water quantity according to the material quantity in proportion, after the raw materials and the water are added, a driving motor operates to drive a driving rod at the output end to rotate, the driving rod rotates to drive a stirring rod at the outer side to rotate, and the stirring rod rotates to stir the materials, so that the materials and the water are fully mixed;

s2, after stirring is completed, a worker controls a closed control valve to be opened, materials are guided by a connecting pipe to enter the inside of an extrusion pipe under the influence of gravity, in the process that the materials enter the inside of the extrusion pipe, a servo motor operates to drive a rotating rod at an output end to rotate, the rotating rod rotates to drive a spiral transmission blade at the outer side to rotate, the spiral transmission blade rotates to push feed to move through a spiral structure, the rear materials are influenced by the thrust of the spiral transmission blade to move towards the inner side of an assembly joint, the assembly cover is butted with the assembly joint through threads, a user can assemble the device conveniently, the stability of the assembly cover is ensured, and the assembly cover fixes an extrusion port at the inner side;

s3, when the material is affected by the rear pressure, the material is extruded from the inner side of the extrusion port, in the process of extruding the material, the motor is controlled to operate to drive the rotor of the output end to rotate, the rotor rotates to drive the cutting plate on the outer side to rotate, and in the process of moving the cutting plate, the extruded feed is cut off by the cutting plate in front of the extrusion port, so that the feed granulation speed is increased;

s4, the pellet feed that the processing was come falls to the inboard that connects the material mouth, receive the fodder by connecting the material mouth, at the in-process of receiving the fodder, the motor operation drives the transmission axostylus axostyle of output and rotates, the transmission axostylus axostyle rotates and drives the transmission band and rotate, the transmission drives the granule that drives the top and moves, at the in-process that removes, toast the fodder by the heat lamp of top, reduce the partial moisture on fodder surface, can prevent that the fodder adhesion is in the same place.

Preferably, in step S4, the method further includes the steps of:

s4-1, in the moving process of the feed, the vibrating rod extends and shortens to drive the push plate at the top end to move up and down, the push plate moves up and down to drive the conveying belt to vibrate, the vibration of the conveying belt drives the particles to vibrate, the particles are scattered, and the particles are prevented from being adhered.

Compared with the prior art, the invention has the beneficial effects that:

1. the control motor is fixed through the assembly cover, the control motor runs to drive the rotor at the output end to rotate, the rotor rotates to drive the cutting plate on the outer side to rotate, extruded feed is cut off by the cutting plate through the front of the extrusion port in the moving process of the cutting plate, the feed granulating speed is accelerated, the feed is placed to be adhered to the device and cannot fall off, and the feed specification is conveniently controlled in use.

2. According to the invention, the drying box is arranged, the processed granulated feed falls to the inner side of the receiving port, the feed is received by the receiving port, the feed enters the drying box, in the process of receiving the feed, the motor operates to drive the transmission shaft lever at the output end to rotate, the transmission shaft lever rotates to drive the transmission belt to rotate, the transmission belt drives the upper granules to move, in the moving process, the upper heating lamp bakes the feed, partial moisture on the surface of the feed is reduced, and the viscosity of the feed is reduced.

3. According to the invention, the assembling cover is arranged and is butted with the assembling joint through the threads, so that a user can assemble the device conveniently, the stability of the assembling cover is ensured, the extruding opening on the inner side is fixed by the assembling cover, the material can be extruded from the inner side of the extruding opening when being influenced by the rear pressure, and workers can replace the extruding openings with different sizes by disassembling the assembling cover so as to produce the feed with different sizes and improve the adaptability of the device.

4. According to the invention, the vibrating rod is arranged, the fixed plate fixes the vibrating rod at the top, the vibrating rod extends and shortens to drive the push plate at the top end to move up and down in the moving process of the feed, the push plate moves up and down to drive the transmission belt to vibrate, and the vibration of the transmission belt drives the granules to vibrate, so that the granules are prevented from being adhered to equipment, and meanwhile, the granules are scattered to prevent the granules from being adhered.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic structural view of a mixing box according to the present invention;

FIG. 4 is a schematic view of the driving motor structure of the present invention;

FIG. 5 is a schematic view of an extrusion tube configuration of the present invention;

FIG. 6 is a schematic view of the assembled cover of the present invention;

FIG. 7 is a schematic view of the structure of the drying box of the present invention;

FIG. 8 is a schematic view of a bearing seat structure according to the present invention;

FIG. 9 is a flow chart diagram of the present invention.

In the figure: 1. a mixing box body; 2. a support plate; 3. a threaded connecting rod; 4. tightening the ring; 5. a closure cap; 6. clamping a plate; 7. a material injection pipe; 8. connecting a screw rod; 9. a drive motor; 10. a transmission rod; 11. a stirring rod; 12. a support bar; 13. a base plate; 14. a connecting pipe; 15. a control valve; 16. a water conduit; 17. a sprinkler head; 18. a delivery pipe; 19. a flow monitoring valve; 20. a connector; 21. extruding a pipe; 22. a fixed seat; 23. a control interface; 24. a servo motor; 25. a rotating rod; 26. a helical transmission blade; 27. assembling a joint; 28. assembling a cover; 29. an extrusion port; 30. an insulating shell; 31. controlling the motor; 32. a rotor; 33. cutting the plate; 34. a drying box; 35. a material receiving port; 36. a heating lamp; 37. a bearing seat; 38. a drive shaft; 39. an electric motor; 40. a conveyor belt; 41. a fixing plate; 42. a vibrating rod; 43. a push plate.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, and fig. 9, an embodiment of the present invention: a biological feed pelleting device with an anti-bonding structure,

including mixing box 1, aqueduct 16 is installed through support piece to the inboard of mixing box 1, the lower surface mounting of aqueduct 16 has sprinkler bead 17, conveyer pipe 18 is installed to the one end of aqueduct 16, and conveyer pipe 18 runs through the inner wall of mixing box 1, flow monitoring valve 19 is installed to the one end of conveyer pipe 18, connector 20 is installed to flow monitoring valve 19's input, and aqueduct 16 passes through support piece and installs the inboard at mixing box 1, guarantees aqueduct 16's stability, and the workman is connected connector 20 and water delivery equipment, and water delivery equipment carries the inside of conveyer pipe 18 with water, and conveyer pipe 18 guides water and pours into the inside of aqueduct 16, has flow monitoring valve 19 to the rivers of process at the in-process that water was carried, judges discharge, makes things convenient for the workman to add the water yield according to the material bulk, and aqueduct 16 transmits water to sprinkler bead 17's inside, by sprinkler bead 17 with water blowout, two sets of bracing pieces 12 are installed to the roof of mixing box 1, and bottom plate 13 is installed to the both sides of two sets of bracing pieces 12 displacement connecting pipe 14, the bottom of bracing piece 12, and bottom plate 13 is fixed subaerial, and bottom plate 13 fixes the bracing piece 12 at top, guarantees the stability of bracing piece 12, and bracing piece 12 supports the mixing box 1 at top, guarantees the even running of mixing box 1.

Further, a connecting pipe 14 is installed at the bottom of the mixing box 1 in a penetrating manner, a control valve 15 is installed outside the connecting pipe 14, an extrusion pipe 21 is installed at the bottom end of the connecting pipe 14, the mixing box 1 stores raw materials and water, after the materials are mixed, a worker controls the closed control valve 15 to be opened, the materials are guided by the connecting pipe 14 to enter the extrusion pipe 21 under the effect of gravity, a servo motor 24 is installed at the rear end of the extrusion pipe 21, a rotating rod 25 is installed at the output end of the servo motor 24, the rotating rod 25 penetrates through the rear wall of the extrusion pipe 21, a spiral transmission blade 26 is installed outside the rotating rod 25, a fixing seat 22 is installed outside the extrusion pipe 21, the fixing seat 22 is installed at the top of the bottom plate 13, the fixing seat 22 is fixed on the bottom plate 13, the fixing seat 22 is guaranteed to be stable, the fixing seat 22 is convenient to fix the extrusion pipe 21 on the inner side, and the extrusion pipe 21 can run stably, the extrusion pipe 21 is kept stable to fix the servo motor 24, the stable operation of the servo motor 24 is ensured, the servo motor 24 operates to drive the rotating rod 25 of the output end to rotate, the rotating rod 25 rotates to drive the spiral transmission blade 26 on the outer side to rotate, the spiral transmission blade 26 rotates to push the feed to move through a spiral structure, the rear material moves towards the inner side of the assembly joint 27 under the influence of the thrust of the spiral transmission blade 26, the assembly joint 27 is installed at the front end of the extrusion pipe 21, the assembly cover 28 is installed on the outer side of the assembly joint 27 through threads, the extrusion opening 29 is installed on the front wall of the assembly cover 28, the control motor 31 is installed on the front wall on the inner side of the assembly cover 28, the output end of the control motor 31 penetrates through the front wall of the assembly cover 28 to be installed with the rotor 32, the slitting plate 33 is installed on the outer side of the rotor 32, the slitting plate 33 is positioned in front of the extrusion opening 29, the separation shell 30 is installed on the front wall on the inner side of the assembly cover 28, the isolation shell 30 is positioned at the outer side of the control motor 31, the isolation shell 30 is positioned among a plurality of groups of extrusion ports 29, the assembly cover 28 is butted with the assembly joint 27 through threads, a user can assemble the device conveniently, the stability of the assembly cover 28 is ensured, the assembly cover 28 fixes the extrusion ports 29 at the inner side, when the material is influenced by the rear pressure, the material is extruded from the inner side of the extrusion opening 29, the assembling cover 28 fixes the isolation shell 30, the isolation shell 30 separates the material from the control motor 31, the control motor 31 is prevented from being influenced by the outside in the operation process, in the process of extruding the materials, the control motor 31 operates to drive the rotor 32 at the output end to rotate, the rotor 32 rotates to drive the cutting plate 33 at the outer side to rotate, while the cutting plate 33 moves, the extruded feed passes through the front of the extrusion port 29, and the cutting plate 33 cuts the extruded feed to accelerate the feed granulation.

Further, a sealing cover 5 is installed at the top of the mixing box 1, a clamping plate 6 is installed at the outer side of the sealing cover 5, a supporting plate 2 is installed at the outer side of the mixing box 1, a threaded connecting rod 3 is movably installed at the inner side of the supporting plate 2 through a shaft rod, the threaded connecting rod 3 is located at the inner side of the clamping plate 6, a tightening ring 4 is installed at the outer side of the threaded connecting rod 3 through a thread, the tightening ring 4 is located above the clamping plate 6, the sealing cover 5 is installed at the top of the mixing box 1, a worker adjusts the angle of the threaded connecting rod 3 to enable the threaded connecting rod 3 to be located at the inner side of the clamping plate 6, the worker installs the tightening ring 4 at the outer side of the threaded connecting rod 3 through a thread, the user adjusts the tightness of the tightening ring 4, the user can assemble the device conveniently, the tightening ring 4 is attached above the clamping plate 6, the tightness of the connection of the device is ensured, a control interface 23 is installed on the outer wall of one side of the mixing box 1, control interface 23 controlgear operation, the person of facilitating the use controls the device, the top of closing cap 5 is run through and is installed notes material pipe 7, annotate the top of material pipe 7 and install connecting screw 8, it is connected with outside charging equipment through connecting screw 8 to annotate material pipe 7, charging equipment transmits the inboard of annotating material pipe 7 with the material, it enters into the inside of mixing box 1 to annotate material pipe 7 guide raw materials, driving motor 9 is installed at the top of closing cap 5, transfer line 10 is installed to driving motor 9's output, transfer line 10 runs through the inboard of closing cap 5, puddler 11 is installed in the outside of transfer line 10, puddler 11 is located mixing box 1's inboard, driving motor 9 operation drives the transfer line 10 rotation of output, transfer line 10 rotates puddler 11 that drives the outside and rotates, puddler 11 is rotatory to stir the material, make material and water intensive mixing.

Further, a drying box 34 is installed on the front surface of the bottom plate 13, a material receiving port 35 is formed in the top wall of the drying box 34, the material receiving port 35 is formed in the top of the drying box 34 and used for receiving materials falling from the top, a heating lamp 36 is installed on the inner side of the top of the drying box 34, two sets of symmetrically arranged bearing seats 37 are installed on two sides of the drying box 34, transmission shaft rods 38 are movably installed on the inner sides of the two sets of bearing seats 37, a transmission belt 40 is installed on the outer sides of the two sets of transmission shaft rods 38, a motor 39 is installed on the front surface of the bearing seats 37, the motor 39 is movably connected with the front end of the transmission shaft rods 38, a fixing plate 41 is installed on the inner side of the drying box 34, the fixing plate 41 displaces the inner sides of the transmission belt 40, a vibrating rod 42 is installed on the top of the fixing plate 41, the fixing plate 41 is fixed on the inner side of the drying box 34 to ensure that the vibrating rod 42 can stably run, and a push plate 43 is installed on the top end of the vibrating rod 42, push pedal 43 pastes the inboard at transmission band 40, the front at bottom plate 13 is installed to stoving case 34, stoving case 34 carries out the restriction support to transmission axostylus axostyle 38 through bearing frame 37, guarantee that transmission axostylus axostyle 38 can even running, motor 39 moves the transmission axostylus axostyle 38 that drives the output and rotates, transmission axostylus axostyle 38 rotates and drives transmission band 40 and rotate, the granule that the transmission drove the top is driven 40 and is removed, at the in-process that removes, heat lamp 36 by the top toasts the fodder, reduce the partial moisture on fodder surface, can prevent that the fodder adhesion is in the same place, in-process at the fodder removal, vibrating beam 42 extension shortens the push pedal 43 that drives the top and reciprocates, push pedal 43 reciprocates and drives transmission band 40 and shakes, the vibrations of granule are driven by the vibrations of transmission band 40, break up the granule, prevent the granule adhesion.

Further, the flow monitoring valve 19 monitors the flow of the passing injected water, monitors the amount of the delivered water flow, and is convenient for a user to add feed and water in proportion according to the requirement;

the spiral transmission blade 26 and the rotating rod 25 are positioned on the inner side of the extrusion pipe 21, and when the rotating rod 25 rotates, the spiral transmission blade 26 is driven to rotate, and the spiral transmission blade 26 rotates to push the feed to move through a spiral structure.

Further, the working steps of the energy storage device are as follows:

the working steps of the energy storage device are as follows:

s1, firstly, the material injection pipe 7 is connected with external feeding equipment through a connecting screw rod 8, the feeding equipment transmits materials to the inner side of the material injection pipe 7, the material injection pipe 7 guides the raw materials to enter the interior of the mixing box body 1, the mixing box body 1 stores the raw materials, meanwhile, a worker connects the connector 20 with water delivery equipment, the water delivery equipment delivers the water to the interior of the delivery pipe 18, the delivery pipe 18 guides the water to be injected into the water guide pipe 16, a flow monitoring valve 19 monitors the passing water flow in the water delivery process, the water flow is judged, the water amount is conveniently added by the worker according to the material amount in proportion, after the raw materials and the water are added, the driving motor 9 operates to drive the driving rod 10 at the output end to rotate, the driving rod 10 rotates to drive the stirring rod 11 at the outer side to rotate, the stirring rod 11 rotates to stir the materials, and the materials are fully mixed with the water;

s2, after stirring, a worker controls a closed control valve 15 to be opened, the materials are guided by a connecting pipe 14 to enter the extrusion pipe 21 under the influence of gravity, in the process that the materials enter the extrusion pipe 21, a servo motor 24 operates to drive a rotating rod 25 at an output end to rotate, the rotating rod 25 rotates to drive a spiral transmission blade 26 at the outer side to rotate, the spiral transmission blade 26 rotates to push the feed to move through a spiral structure, the rear materials move to the inner side of an assembly joint 27 under the influence of the thrust of the spiral transmission blade 26, the assembly cover 28 is in butt joint with the assembly joint 27 through threads, a user can assemble the device conveniently, the stability of the assembly cover 28 is ensured, and the assembly cover 28 fixes an extrusion port 29 at the inner side;

s3, when the material is affected by the rear pressure, the material is extruded from the inner side of the extrusion port 29, in the process of extruding the material, the motor 31 is controlled to operate to drive the rotor 32 at the output end to rotate, the rotor 32 rotates to drive the cutting plate 33 at the outer side to rotate, and in the process of moving the cutting plate 33, the extruded feed is cut off by the cutting plate 33 through the front of the extrusion port 29, so that the feed granulation speed is accelerated;

s4, the pellet feed that the processing was come falls to the inboard that connects material mouthful 35, receive the fodder by connecing material mouthful 35, at the in-process of receiving the fodder, motor 39 moves the transmission axostylus axostyle 38 that drives the output and rotates, transmission axostylus axostyle 38 rotates and drives transmission band 40 and rotate, the transmission drives 40 and removes the granule that drives the top, at the in-process that removes, the heat lamp 36 by the top toasts the fodder, reduce the surperficial partial moisture of fodder, can prevent that the fodder adhesion is in the same place.

In step S4, the method further includes the steps of:

s4-1, in the moving process of the feed, the vibrating rod 42 extends and shortens to drive the push plate 43 at the top end to move up and down, the push plate 43 moves up and down to drive the conveying belt 40 to vibrate, and the vibration of the conveying belt 40 drives the particles to vibrate, so that the particles are scattered and prevented from being adhered.

The working principle is as follows: the material injection pipe 7 guides raw materials to enter the inside of the mixing box body 1, then the conveying pipe 18 guides water to be injected into the water guide pipe 16, a flow monitoring valve 19 monitors passing water flow in the water conveying process to judge water flow, workers can conveniently add water according to the material quantity in proportion, after the raw materials and the water are added, the driving motor 9 operates to drive the transmission rod 10 of the output end to rotate, the transmission rod 10 rotates to drive the stirring rod 11 on the outer side to rotate, the stirring rod 11 rotates to stir the materials, so that the materials and the water are fully mixed, after the stirring is completed, the workers control the closed control valve 15 to open, the materials are guided by the connecting pipe 14 to enter the inside of the extrusion pipe 21 under the influence of gravity, in the process that the materials enter the extrusion pipe 21, the servo motor 24 operates to drive the rotary rod 25 on the output end to rotate, the rotary rod 25 rotates to drive the spiral transmission blade 26 on the outer side to rotate, the spiral transmission blade 26 rotates to push the feed to move through a spiral structure, the rear material is influenced by the thrust of the spiral transmission blade 26 to move towards the inner side of the assembly joint 27, the assembly cover 28 is butted with the assembly joint 27 through threads, a user can assemble the device conveniently, the stability of the assembly cover 28 is ensured, the assembly cover 28 is fixed on the inner extrusion port 29, when the material is influenced by rear pressure, the material can be extruded from the inner side of the extrusion port 29, in the process of extruding the material, the motor 31 is controlled to operate to drive the rotor 32 of the output end to rotate, the rotor 32 rotates to drive the cutting plate 33 on the outer side to rotate, in the process of moving the cutting plate 33, the extruded feed can be cut off through the cutting plate 33 in front of the extrusion port 29, the feed granulation speed is accelerated, the processed granular feed falls to the inner side of the material receiving port 35 and is received by the material receiving port 35, in the process of receiving the fodder, motor 39 moves the transmission axostylus axostyle 38 that drives the output and rotates, and transmission axostylus axostyle 38 rotates and drives transmission band 40 and rotate, and the transmission drives 40 and removes the granule that drives the top and remove, and at the in-process that removes, toasts the fodder by the heat lamp 36 of top, reduces the partial moisture on fodder surface, can prevent that the fodder adhesion is in the same place.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a biological feed granulation equipment with prevent bonding structure, includes mixing box (1), its characterized in that: aqueduct (16) are installed through support piece to the inboard of mixing box (1), the lower surface mounting of aqueduct (16) has sprinkler bead (17), conveyer pipe (18) are installed to the one end of aqueduct (16), and conveyer pipe (18) run through the inner wall of mixing box (1), flow monitoring valve (19) are installed to the one end of conveyer pipe (18), connector (20) are installed to the input of flow monitoring valve (19), the bottom of mixing box (1) is run through and is installed connecting pipe (14), control valve (15) are installed in the outside of connecting pipe (14), extruded pipe (21) are installed to the bottom of connecting pipe (14).

2. The biological feed pelleting device with the anti-adhesion structure, according to claim 1, wherein: two sets of bracing pieces (12) are installed to the roof of mixing box (1), and bottom plate (13) are installed to the both sides of two sets of bracing pieces (12) displacement connecting pipe (14), bottom of bracing piece (12).

3. The biological feed pelleting device with the anti-adhesion structure, according to claim 1, wherein: servo motor (24) are installed to the rear end of extruded tube (21), and bull stick (25) are installed to the output of servo motor (24), and the back wall of extruded tube (21) is run through in bull stick (25), and spiral transmission blade (26) are installed in the outside of bull stick (25), and fixing base (22) are installed in the outside of extruded tube (21), and the top at bottom plate (13) is installed in fixing base (22).

4. The biological feed pelleting device with the anti-adhesion structure, according to claim 1, wherein: equipment joint (27) is installed to the front end of extrusion pipe (21), equipment lid (28) are installed through the screw thread in the outside of equipment joint (27), the antetheca of equipment lid (28) is installed and is extruded mouth (29), control motor (31) are installed to the antetheca of equipment lid (28) inboard, rotor (32) are installed to the antetheca of the output of control motor (31) through the antetheca of equipment lid (28), minute cutting plate (33) are installed to the outside of rotor (32), minute cutting plate (33) are located the place ahead of extruding mouth (29), separation shell (30) are installed to the antetheca of equipment lid (28) inboard, separation shell (30) are located the outside of control motor (31), separation shell (30) are located a plurality of groups and extrude between mouth (29).

5. The biological feed pelleting device with the anti-sticking structure according to any one of claims 1 to 4, characterized in that: the flow monitoring valve (19) monitors the flow of the passing injected water, monitors the amount of the delivered water flow, and is convenient for a user to add feed and water in proportion according to the requirement;

the spiral transmission blade (26) and the rotating rod (25) are positioned on the inner side of the extrusion pipe (21), the spiral transmission blade (26) is driven to rotate when the rotating rod (25) rotates, and the spiral transmission blade (26) rotates to push the feed to move through a spiral structure.

6. The biological feed pelleting device with the anti-adhesion structure, according to claim 1, wherein: closing cap (5) are installed at the top of mixing box (1), cardboard (6) are installed in the outside of closing cap (5), backup pad (2) are installed in the outside of mixing box (1), there are threaded connection pole (3) inboard of backup pad (2) through axostylus axostyle movable mounting, threaded connection pole (3) are located the inboard of cardboard (6), tighten-up ring (4) are installed through the screw thread in the outside of threaded connection pole (3), tighten-up ring (4) are located the top of cardboard (6), control interface (23) are installed to one side outer wall of mixing box (1).

7. The biological feed pelleting device with the anti-adhesion structure, according to claim 6, wherein: the top of closing cap (5) is run through and is installed notes material pipe (7), and connecting screw (8) are installed at the top of notes material pipe (7), and driving motor (9) are installed at the top of closing cap (5), and transfer line (10) are installed to the output of driving motor (9), and transfer line (10) run through the inboard of closing cap (5), and puddler (11) are installed in the outside of transfer line (10), and puddler (11) are located the inboard of mixing box (1).

8. The biological feed pelleting device with the anti-adhesion structure, according to claim 2, wherein: drying box (34) are installed in the front of bottom plate (13), the roof of drying box (34) has been seted up and has been connect material mouth (35), heat lamp (36) are installed to the top inboard of drying box (34), bearing frame (37) of two sets of symmetrical arrangement are installed to the both sides of drying box (34), the inboard movable mounting of two sets of bearing frame (37) has transmission axostylus axostyle (38), transmission band (40) are installed in the outside of two sets of transmission axostylus axostyle (38), motor (39) are installed in the front of bearing frame (37), the front end swing joint of motor (39) and transmission axostylus axostyle (38), fixed plate (41) are installed to the inboard of drying box (34), the inboard of fixed plate (41) displacement transmission band (40), vibrating arm (42) are installed at the top of fixed plate (41), push pedal (43) are installed on the top of vibrating arm (42), push pedal (43) are pasted in the inboard of transmission band (40).

9. The use method of the biological feed pelleting equipment with the anti-adhesion structure according to any one of claims 1 to 8, wherein the working steps of the biological feed pelleting equipment are as follows:

s1, firstly, the material injection pipe (7) is connected with external feeding equipment through a connecting screw rod (8), the feeding equipment transmits materials to the inner side of the material injection pipe (7), the material injection pipe (7) guides the raw materials to enter the mixing box body (1), the raw materials are stored by the mixing box body (1), meanwhile, a worker connects a connector (20) with water delivery equipment, the water delivery equipment conveys water to the inner part of a conveying pipe (18), the conveying pipe (18) guides the water to be injected into the inner part of a water guide pipe (16), a flow monitoring valve (19) monitors the passing water flow in the water conveying process to judge the water flow, the water quantity is conveniently added by the worker according to the material quantity in proportion, after the raw materials and the water are added, a driving motor (9) operates to drive a transmission rod (10) at the output end to rotate, the transmission rod (10) rotates to drive a stirring rod (11) at the outer side to rotate, the stirring rod (11) rotates to stir the materials, so that the materials and the water are fully mixed;

s2, after stirring, a worker controls a closed control valve (15) to be opened, the materials are guided by a connecting pipe (14) to enter the extrusion pipe (21) under the influence of gravity, in the process that the materials enter the extrusion pipe (21), a servo motor (24) operates to drive a rotating rod (25) of an output end to rotate, the rotating rod (25) rotates to drive a spiral transmission blade (26) on the outer side to rotate, the spiral transmission blade (26) rotates to push the feed to move through a spiral structure, the rear materials move towards the inner side of an assembly joint (27) under the influence of the thrust of the spiral transmission blade (26), the assembly cover (28) is butted with the assembly joint (27) through threads, the user can assemble the device conveniently, the stability of the assembly cover (28) is guaranteed, and the assembly cover (28) fixes an extrusion port (29) on the inner side;

s3, when the material is influenced by the rear pressure, the material is extruded from the inner side of the extrusion port (29), in the process of extruding the material, the motor (31) is controlled to operate to drive the rotor (32) at the output end to rotate, the rotor (32) rotates to drive the cutting plate (33) at the outer side to rotate, and in the process of moving the cutting plate (33), the extruded feed is cut off by the cutting plate (33) through the front of the extrusion port (29), so that the feed granulation speed is increased;

s4, the pellet feed that the processing was come drops the inboard that connects material mouth (35), receive the fodder by connecing material mouth (35), in the in-process of receiving the fodder, motor (39) operation drive transmission shaft pole (38) of output end rotate, transmission shaft pole (38) rotate and drive transmission band (40) and rotate, the transmission drives (40) and removes the granule that drives the top, in the in-process that removes, heat lamp (36) by the top toast the fodder, reduce the partial moisture on fodder surface, can prevent that the fodder adhesion is in the same place.

10. The use method of the biological feed granulation equipment with the anti-adhesion structure as claimed in claim 9, is characterized in that: in step S4, the method further includes the steps of:

s4-1, in the moving process of the feed, the vibrating rod (42) extends and shortens to drive the push plate (43) at the top end to move up and down, the push plate (43) moves up and down to drive the conveying belt (40) to vibrate, the vibration of the conveying belt (40) drives the particles to vibrate, the particles are scattered, and the particles are prevented from being adhered.