CN218115420U

CN218115420U - Biological feed stirring device

Info

Publication number: CN218115420U
Application number: CN202121772587.XU
Authority: CN
Inventors: 王世东
Original assignee: Sichuan Baiomo Biotechnology Co ltd
Current assignee: Sichuan Baiomo Biotechnology Co ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2022-12-23
Anticipated expiration: 2031-07-30

Abstract

The utility model relates to a biological feed processing technology field, especially a biological feed agitating unit, including churn, fermenting case, feeding subassembly, stirring subassembly, guide subassembly and fermentation subassembly, the top at the fermenting case is installed to the churn, the guide unit mount is in the bottom of churn, and the both ends of guide subassembly are linked together with the inside of churn and fermenting case respectively, the top at the churn is installed to the feeding unit mount, the stirring unit mount is at the top of feeding subassembly, and the bottom of stirring subassembly runs through the feeding subassembly and extend to in the churn, the fermentation subassembly sets up in the fermenting case. The utility model has the advantages that: through the setting of stirring subassembly, can scrape the wall clearance to the inner wall of churn, the condition that can leave the residue on the inner wall of churn appears, through the cooperation of fermentation subassembly and fermenting case, can make biological fodder when the fermentation, carries out the circulation of air for biological fodder wholly obtains abundant fermentation.

Description

Biological feed stirring device

Technical Field

The utility model relates to a biological feed processing technology field, especially a biological feed agitating unit.

Background

The biological feed is a general term for food for animals to be raised, and generally, the biological feed mainly refers to food for animals raised in agriculture or animal husbandry, and the feed needs to be stirred and fermented in the process of processing the biological feed.

Present biological feed agitating unit when pouring fodder and leaven into agitating unit and stirring, leave the residue in agitating unit easily, time overlength in agitating unit when the residue, the rotten can take place for the residue to influence the quality of following biological fodder, agitating unit is not convenient for ventilate at the in-process to biological fodder fermentation simultaneously, thereby makes accumulational fodder bottom fermentation insufficient, leads to the fodder on top layer and the fodder fermentation condition of bottom different.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome among the prior art agitating unit content and easily leave the residue, when the residue in agitating unit time overlength, the residue can take place rotten to influence the shortcoming of the quality of hou mian biological fodder, provide a biological fodder agitating unit.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a biological feed agitating unit, includes churn, fermentation box, feeding subassembly, stirring subassembly, guide subassembly and fermentation subassembly, the top at the fermentation box is installed to the churn, the guide unit mount is in the bottom of churn, and the both ends of guide subassembly are linked together with the inside of churn and fermentation box respectively, the feeding unit mount is at the top of churn, the stirring unit mount is at the top of feeding subassembly, and the bottom of stirring subassembly runs through the feeding subassembly and extend to in the churn, the fermentation subassembly sets up in the fermentation box.

Preferably, the feeding subassembly includes fixed plate, square frame, two articulated arms, two articulated joints and two L type handles, the top at the churn is installed to the fixed plate, two the articulated joint is the both sides of symmetry position fixed plate, and just two articulated joints all articulate the top that sets up at the churn, square frame is installed on the fixed plate, two L type handle is crisscross form and sets up respectively at the top of two articulated joints, two the articulated arm is between symmetry position fixed plate and square frame, and the one end of two articulated arms rotates with the both sides wall of square frame respectively and is connected, and the other end of two articulated arms extends respectively to between two L type handles and two articulated joints.

Preferably, the stirring subassembly includes agitator motor, (mixing) shaft, three wallboard and a plurality of stirring roller of scraping, agitator motor installs the top at square frame, the (mixing) shaft is vertical form and is located the churn, agitator motor's output run through in proper order square frame and fixed plate and with (mixing) shaft fixed connection, it is three scrape the wallboard and all be located the churn, and three scrape the wallboard along (mixing) shaft circumference equiangular setting on the outer wall of (mixing) shaft, and every outer wall of scraping the wallboard all laminates mutually with the inner wall of churn, and a plurality of stirring rollers are equidistant setting on the outer wall of (mixing) shaft.

Preferably, the guide subassembly includes passage, swivel disc, guide axle and guide handle, the passage is installed in the bottom of churn, and the inside of passage and churn is linked together, the top of fermenting case is run through and inwards extends in the bottom of passage, swivel disc is the level form and is located the passage, and the external diameter of swivel disc is the same with the internal diameter of passage, the guide axle is the level form and is located the fermenting case, the one end of guide axle is run through the outer wall of passage and is connected with the inside rotation of passage, and the swivel disc cover is established on the guide axle, the guide handle is located the side of fermenting case, the other end of guide axle runs through the inner wall and the guide handle fixed connection of fermenting case.

Preferably, the fermentation subassembly includes fermentation motor, hold-in range, fixed disc, rotation axis, grafting axle, grafting piece and fermentation dish, the rotation axis rotates and sets up in the fermentation case, the grafting axle slides and sets up on the interior diapire of fermentation case, the grafting piece is installed at the top of rotation axis, and the grafting axle pegs graft mutually with the grafting piece, the fermentation dish is installed at the top of grafting axle, the fermentation dish is located the below of passage, and the inside of fermentation dish is the slope setting, the fermentation motor is installed on the lateral wall of fermentation case, the bottom at the fermentation motor is installed to fixed disc, the hold-in range runs through the fermentation case and overlaps and establish on fixed disc and rotation axis, a plurality of ventilation holes that are the equidistant setting are seted up to the bottom of fermentation dish, install the handle on the outer wall of fermentation dish.

Preferably, the lateral wall of fermentation case is articulated to be provided with the closing door, the vent has been seted up on the other lateral wall of fermentation case, and is equipped with the ventilating fan in the vent.

The utility model has the advantages of it is following:

the stirring motor drives the stirring shaft to rotate, the stirring rollers are driven to rotate, biological feed and a fermentation agent in the stirring cylinder are stirred, the wall scraping plate is rotated under the rotation of the stirring shaft to assist in stirring, the inner wall of the stirring cylinder is scraped simultaneously, the biological feed or the fermentation agent is prevented from being remained on the inner wall of the stirring cylinder, the situation that residues can be remained on the inner wall of the stirring cylinder is avoided, and the practicability is improved.

Two, clearance between biological fodder accessible passage baffle pipe in the churn and the rotating disc falls into to the fermentation dish in the fermenting case, fermentation motor drive fixed disc rotates simultaneously, setting up through the hold-in range makes the rotation axis rotate, peg graft mutually through the grafting piece, and both drive the epaxial fermentation dish of grafting and rotate, make biological fodder more even fall into in the fermentation dish, after biological fodder falls into to the fermentation dish completely, drive ventilating fan, make the air carry out the circulation of air through the biological fodder of vent hole in to the fermentation dish, make the more abundant of biological fodder fermentation, simultaneously through the slope setting in the fermentation dish, make biological fodder can not take place to pile up on the edge of fermentation dish, lead to the condition that biological fodder fell.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the fermentation box of the present invention;

FIG. 3 is a partially exploded perspective view of the present invention;

FIG. 4 is an enlarged view at A in FIG. 3;

fig. 5 is a schematic perspective view of the stirring assembly of the present invention;

fig. 6 is an exploded view of the fermentation assembly of the present invention.

In the figure: 1-stirring cylinder, 2-fermentation box, 21-closing door, 22-ventilation opening, 23-ventilation fan, 3-feeding component, 31-fixing plate, 32-square frame, 33-hinged arm, 34-hinged plate, 35-L-shaped handle, 4-stirring component, 41-stirring motor, 42-stirring shaft, 43-scraping plate, 44-stirring roller, 5-material guiding component, 51-material guiding pipe, 52-rotating disc, 53-material guiding shaft, 54-material guiding handle, 6-fermentation component, 61-fermentation motor, 62-synchronous belt, 63-fixing disc, 64-rotating shaft, 65-splicing shaft, 66-splicing block, 67-fermentation disc, 68-ventilation opening and 69-handle.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 6, a biological feed stirring apparatus includes a stirring cylinder 1, a fermentation tank 2, a feeding component 3, a stirring component 4, a material guiding component 5 and a fermentation component 6, wherein the stirring cylinder 1 is installed at the top of the fermentation tank 2, the material guiding component 5 is installed at the bottom of the stirring cylinder 1, two ends of the material guiding component 5 are respectively communicated with the inside of the stirring cylinder 1 and the inside of the fermentation tank 2, the feeding component 3 is installed at the top of the stirring cylinder 1, the stirring component 4 is installed at the top of the feeding component 3, the bottom of the stirring component 4 penetrates through the feeding component 3 and extends into the stirring cylinder 1, and the fermentation component 6 is arranged in the fermentation tank 2.

Specifically, the feeding assembly 3 comprises a fixed plate 31, a square frame 32, two hinge arms 33, two hinge plates 34 and two L-shaped handles 35, wherein the fixed plate 31 is installed on the top of the mixing drum 1, the hinge plates 34 are symmetrically located on two sides of the fixed plate 31, the two hinge plates 34 are both hinged on the top of the mixing drum 1, the square frame 32 is installed on the fixed plate 31, the two L-shaped handles 35 are alternately arranged on the tops of the two hinge plates 34, the two hinge arms 33 are symmetrically located between the fixed plate 31 and the square frame 32, one ends of the two hinge arms 33 are respectively and rotatably connected with two side walls of the square frame 32, the other ends of the two hinge arms 33 extend between the two L-shaped handles 35 and the two hinge plates 34, the two hinge arms 33 are separated from the two L-shaped handles 35 by rotating the two hinge arms 33, then the two L-shaped handles 35 are held and pulled to rotate the two hinge plates 34, the inside of the mixing drum 1 is exposed, and biological feed and a leaven can be sequentially poured into the mixing drum 1.

Specifically, stirring subassembly 4 includes agitator motor 41, (mixing) shaft 42, three wall board 43 and a plurality of stirring roller 44 of scraping, agitator motor 41 installs the top at square frame 32, (mixing) shaft 42 is vertical form and is located churn 1, agitator motor 41's output runs through square frame 32 and fixed plate 31 in proper order and with (mixing) shaft 42 fixed connection, it is three scrape that wall board 43 all is located churn 1, and three wall board 43 of scraping sets up on the outer wall of (mixing) shaft 42 along (mixing) shaft 42 circumference equiangular, and every outer wall of scraping wall board 43 all laminates with the inner wall of churn 1 mutually, a plurality of stirring roller 44 are equidistant to set up on (mixing) shaft 42's outer wall, all pour into to churn 1 back when biological fodder and leaven, closed two articulated plates 34, agitator motor 41 drive (mixing) shaft 42 is rotatory, drive a plurality of stirring roller 44 and rotate, biological fodder and leaven in the churn 1 stir, three wall board 43 of scraping simultaneously also rotates under (mixing) 42's rotation, scrape the wall work to churn 1, prevent to have biological or the inner wall of biological or the fermentation agent to remain on the inner wall of churn 1, the circumstances of scraping can also have avoided the thing to leave the supplementary thing of stirring to be gone up and the circumstances to have improved the stirring and have appeared through the circumstances of stirring, and can also appear the stirring barrel 1, the thing can be remained the circumstances of scraping.

Specifically, the material guiding assembly 5 includes a material guiding pipe 51, a rotating disc 52, a material guiding shaft 53 and a material guiding handle 54, the material guiding pipe 51 is installed at the bottom of the mixing drum 1, the material guiding pipe 51 is communicated with the inside of the mixing drum 1, the bottom of the material guiding pipe 51 penetrates through the top of the fermentation tank 2 and extends inwards, the rotating disc 52 is horizontally located in the material guiding pipe 51, the outer diameter of the rotating disc 52 is the same as the inner diameter of the material guiding pipe 51, the material guiding shaft 53 is horizontally located in the fermentation tank 2, one end of the material guiding shaft 53 penetrates through the outer wall of the material guiding pipe 51 and is rotatably connected with the inside of the material guiding pipe 51, the rotating disc 52 is sleeved on the material guiding shaft 53, the material guiding handle 54 is located beside the fermentation tank 2, the other end of the material guiding shaft 53 penetrates through the inner wall of the fermentation tank 2 and is fixedly connected with the handle 54, when the biological feed and the fermentation agent in the mixing drum 1 are sufficiently stirred and mixed, the material guiding handle 54 is rotated, so that the rotating disc 52 drives the rotating disc 53 to rotate, and the biological feed in the mixing drum 1 can fall into the fermentation tank 6 through the fermentation gap between the fermentation tank 51, and the fermentation tank 2.

Specifically, fermentation subassembly 6 includes fermentation motor 61, hold-in range 62, fixed disc 63, rotation axis 64, grafting axle 65, grafting piece 66 and fermentation dish 67, rotation axis 64 rotates and sets up in fermentation box 2, grafting axle 65 slides and sets up on the interior diapire of fermentation box 2, grafting piece 66 installs at the top of rotation axis 64, and grafting axle 65 pegs graft with grafting piece 66 mutually, fermentation dish 67 is installed at the top of grafting axle 65, fermentation dish 67 is located the below of passage 51, and the inside of fermentation dish 67 is the slope setting, fermentation motor 61 installs on the lateral wall of fermentation box 2, fixed disc 63 installs the bottom at fermentation motor 61, hold-in range 62 runs through fermenting case 2 and the cover is established on fixed disc 63 and rotation axis 64, a plurality of ventilation holes 68 that are equidistant setting are seted up to the bottom of fermentation dish 67, install handle 69 on the outer wall of fermentation dish 67, fodder in the churn 1 falls into to fermentation dish 67 through passage 51, fermentation motor 61 drives fixed disc 63 simultaneously and rotates, setting up through hold-in range 62 makes rotation axis 64 rotate, peg graft mutually with grafting axle 65 through grafting piece 66, and then drive and peg graft the epaxial fermentation dish 67 of 65 and rotate, make in the more even fermentation dish 67 that falls into of biological fodder, set up through the slope in the fermentation dish 67 simultaneously, make biological fodder can not take place to pile up on the edge of fermentation dish 67, lead to the condition that biological fodder fell.

Specifically, the articulated closing door 21 that is provided with on the lateral wall of fermenting case 2, vent 22 has been seted up on the other lateral wall of fermenting case 2, and be equipped with ventilating fan 23 in the vent 22, after biological fodder falls into to fermentation dish 67 completely, drive ventilating fan 23, make the air carry out the circulation of air through ventilation hole 68 to the biological fodder in the fermentation dish 67, make the fermentation of biological fodder more abundant, after the fermentation is accomplished, open closing door 21, grasp and stimulate handle 69, make grafting axle 65 take fermentation dish 67 to slide, can take out fermentation dish 67 by fermenting case 2 in, carry out unloading work.

The working process of the utility model is as follows: the two hinge arms 33 are separated from the two L-shaped handles 35 by rotating the two hinge arms 33, then the two L-shaped handles 35 are held and pulled, the two hinge plates 34 are rotated, the interior of the mixing drum 1 is exposed, so that the biological feed and the leavening agent can be poured into the mixing drum 1 in sequence, after the biological feed and the leavening agent are all poured into the mixing drum 1, the two hinge plates 34 are closed, the stirring shaft 42 is driven by the stirring motor 41 to rotate, the stirring rollers 44 are driven to rotate, the biological feed and the leavening agent in the mixing drum 1 are stirred, meanwhile, the three scraping plates 43 are rotated under the rotation of the stirring shaft 42, the inner wall of the mixing drum 1 is scraped with the wall plates 43, the stirring work can be assisted by the scraping plates 43, when the biological feed and the leavening agent in the mixing drum 1 are fully stirred and mixed, the material guide handle 54 is rotated, so that the material guide shaft 53 drives the rotating disc 52 to rotate, the biological feed in the mixing drum 1 can fall into a fermentation disc 67 in the fermentation box 2 through a gap between the material guide pipe 51 and the rotating disc 52, meanwhile, the fermentation motor 61 drives the fixed disc 63 to rotate, the rotating shaft 64 is rotated through the arrangement of the synchronous belt 62, the inserting block 66 is inserted into the inserting shaft 65, so that the fermentation disc 67 on the inserting shaft 65 is driven to rotate, the biological feed can fall into the fermentation disc 67 more uniformly, after the biological feed completely falls into the fermentation disc 67, the ventilating fan 23 is driven, air is enabled to circulate the biological feed in the fermentation disc 67 through the ventilating hole 68, the fermentation of the biological feed is more sufficient, after the fermentation is completed, the closing door 21 is opened, the grip 69 is grasped and pulled, the inserting shaft 65 is enabled to slide with the fermentation disc 67, and the fermentation disc 67 can be taken out from the fermentation box 2, and (5) carrying out blanking operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a biological feed agitating unit which characterized in that: including churn (1), fermentation case (2), feeding subassembly (3), stirring subassembly (4), guide subassembly (5) and fermentation subassembly (6), install the top at fermentation case (2) churn (1), the bottom at churn (1) is installed in guide subassembly (5), and the both ends of guide subassembly (5) are linked together with the inside of churn (1) and fermentation case (2) respectively, the top at churn (1) is installed in feeding subassembly (3), install the top at feeding subassembly (3) in stirring subassembly (4), and the bottom of stirring subassembly (4) runs through feeding subassembly (3) and extends to in churn (1), fermentation subassembly (6) set up in fermentation case (2).

2. A biological feed mixing apparatus as defined in claim 1, wherein: feeding subassembly (3) are including fixed plate (31), square frame (32), two articulated arms (33), two articulated plates (34) and two L type handles (35), the top at churn (1) is installed in fixed plate (31), two articulated plates (34) are the both sides of symmetry position fixed plate (31), and two articulated plates (34) all articulate the top that sets up at churn (1), square frame (32) are installed on fixed plate (31), two L type handles (35) are the top that staggers the form and set up respectively at two articulated plates (34), two articulated arm (33) are the symmetry position between fixed plate (31) and square frame (32), and the one end of two articulated arms (33) is rotated with the both sides wall of square frame (32) respectively and is connected, and the other end of two articulated arms (33) extends to respectively between two L type handles (35) and two L type handles (34).

3. A biological feed mixing apparatus as defined in claim 1, wherein: stirring subassembly (4) include agitator motor (41), (mixing) shaft (42), three scrape wallboard (43) and a plurality of stirring roller (44), agitator motor (41) are installed at the top of square frame (32), (mixing) shaft (42) are vertical form and are located churn (1), agitator motor (41)'s output run through square frame (32) and fixed plate (31) in proper order and with (mixing) shaft (42) fixed connection, three scrape wallboard (43) and all be located churn (1), and three scrape wallboard (43) along (mixing) shaft (42) circumference equiangular setting on the outer wall of (mixing) shaft (42), and every outer wall of scraping wallboard (43) all laminates with the inner wall of churn (1) mutually, and a plurality of stirring roller (44) are equidistant setting on the outer wall of (mixing) shaft (42).

4. A biological feed mixing apparatus as defined in claim 1, wherein: the material guiding assembly (5) comprises a material guiding pipe (51), a rotating disc (52), a material guiding shaft (53) and a material guiding handle (54), the material guiding pipe (51) is installed at the bottom of the mixing drum (1), the material guiding pipe (51) is communicated with the inside of the mixing drum (1), the bottom of the material guiding pipe (51) penetrates through the top of the fermentation box (2) and extends inwards, the rotating disc (52) is horizontally located in the material guiding pipe (51), the outer diameter of the rotating disc (52) is identical to the inner diameter of the material guiding pipe (51), the material guiding shaft (53) is horizontally located in the fermentation box (2), one end of the material guiding shaft (53) penetrates through the outer wall of the material guiding pipe (51) and is rotatably connected with the inside of the material guiding pipe (51), the rotating disc (52) is sleeved on the material guiding shaft (53), the material guiding handle (54) is located beside the fermentation box (2), and the other end of the material guiding shaft (53) penetrates through the inner wall of the fermentation box (2) and is fixedly connected with the material guiding handle (54).

5. A biological feed mixing apparatus as defined in claim 4, wherein: fermentation subassembly (6) are including fermentation motor (61), hold-in range (62), fixed disc (63), rotation axis (64), grafting axle (65), grafting piece (66) and fermentation dish (67), rotation axis (64) rotate and set up in fermentation case (2), grafting axle (65) slide to set up on the interior diapire of fermentation case (2), install the top at rotation axis (64) in grafting piece (66), and grafting axle (65) peg graft mutually with grafting piece (66), the top at grafting axle (65) is installed in fermentation dish (67), fermentation dish (67) are located the below of passage (51), and the inside of fermentation dish (67) is the slope setting, install on the lateral wall of fermentation case (2) fermentation motor (61), the bottom at fermentation motor (61) is installed to fixed disc (63), hold-in range (62) run through fermentation case (2) and cover establish on fixed disc (63) and rotation axis (64), the bottom that fermentation dish (67) is a plurality of ventilation holes and sets up equidistant (68) is seted up to the bottom of fermentation dish (67), install handle (69) on the fermentation dish outer wall (67).

6. A biological feed mixing apparatus as defined in claim 1, wherein: the lateral wall of fermenting case (2) is gone up to articulate and is provided with closing door (21), vent (22) have been seted up on the other lateral wall of fermenting case (2), and are equipped with ventilating fan (23) in vent (22).