CN110786413A - Multifunctional microbial feed fermentation equipment - Google Patents

Abstract

The invention discloses a multifunctional microbial feed fermentation device, which comprises: a support; the rotating shaft of the tank body is driven to rotate by a motor, so that the tank body is driven to rotate by 180 degrees; the vibrating plates are arranged in a plurality of even numbers, are parallel to each other and are symmetrically arranged on two sides of a horizontal symmetry axis of the tank body, and are provided with a plurality of uniformly distributed round holes; the vibration mechanism comprises a fixing plate, an eccentric shaft and an eccentric wheel, the eccentric shaft is driven by a motor to rotate, the outer side wall of the eccentric wheel is abutted against the outer side of the vibration plate, the vibration mechanisms are uniformly distributed on two sides of the tank body, and one vibration plate is arranged on the same side at intervals; and the elastic mechanisms correspond to the vibration mechanisms one by one and are respectively positioned at two sides of the vibration plate. The fermentation equipment of the invention does not use a stirring device, and realizes the free scattering and falling of the raw materials through the multi-stage porous vibrating plate, thereby mixing uniformly and dispersing the raw materials finely, and ensuring the full fermentation of the raw materials.

Description

Multifunctional microbial feed fermentation equipment

Technical Field

The invention relates to the technical field of fermented feed production equipment. More particularly, the present invention relates to a multifunctional microbial feed fermentation apparatus.

Background

On the basis of increasing development of feed feeding, people gradually know and utilize microorganisms to increase new feed varieties or improve the quality of the feed, after the feed is subjected to microbial fermentation treatment, the antigens in the feed raw material components can be eliminated, the palatability and the utilization rate of the feed can be improved, so that the digestibility of livestock and poultry is improved, the consumption of the livestock and poultry on the feed is reduced, and meanwhile, the fermented feed is beneficial to improving the meat quality and the flavor and increasing the income of farms or farmers. The mixing uniformity of agitating unit in order to increase the raw materials is all need to be used to current microorganism fodder fermentation equipment, but conventional agitating unit has the raw materials of fermentation tank bottom can not be stirred and leads to the problem of unable fermentation uniformity, and conventional agitating unit utilizes stirring vane stirring simultaneously, and its dispersion is not careful, can not fully ferment.

Disclosure of Invention

An object of the present invention is to provide a multifunctional microbial feed fermentation apparatus, which does not use a stirring device, but uses a multi-stage porous vibrating plate to achieve the free scattering and falling of raw materials, so as to mix uniformly and disperse the raw materials finely, thereby ensuring the sufficient fermentation of the raw materials.

To achieve these objects and other advantages in accordance with the present invention, there is provided a multifunctional microbial feed fermentation apparatus, comprising:

the bracket is of a U-shaped structure and is fixed, and comprises a bottom plate and a pair of side plates;

the tank body is vertically positioned in the support, the body of the tank body is of a square structure, two cans of the tank body are of an arc structure, the tank body is integrally formed and sealed, the two cans are provided with feed inlets and sealing doors for sealing the feed inlets, the middle part of the tank body is provided with a pair of horizontal rotating shafts, one ends of the horizontal rotating shafts are respectively fixed at two sides of the tank body, the other end of one rotating shaft is connected through a bearing positioned in one side plate, the other end of the other rotating shaft is connected with a motor positioned in the other side plate and is driven to rotate through the motor, and therefore the tank body is driven to rotate 180 degrees around a horizontal symmetrical shaft of the;

the vibration plates are arranged in a plurality of even numbers, are arranged in the tank body in parallel and are vertically arranged in sequence and are symmetrically arranged on two sides of a horizontal symmetry axis of the tank body, the tank body is divided into a plurality of independent chambers by the vibration plates, two sides of each vibration plate protrude out of the tank body, the vibration plates are arranged to move horizontally and freely, and a plurality of uniformly distributed circular holes are formed in each vibration plate, and the diameter of each vibration plate is 8-10 times of that of a raw material;

the vibration mechanism comprises a fixing plate, an eccentric shaft and an eccentric wheel, the fixing plate is horizontally connected to one side plate and is positioned in the support, the eccentric shaft is vertically arranged and is driven to rotate by a motor arranged in the fixing plate, the outer side wall of the eccentric wheel abuts against the outer side of the vibration plate, the distance between the outer side wall of the eccentric wheel and the tank body is closest in an initial state, the vibration mechanisms are uniformly distributed on two sides of the tank body, and one vibration plate is arranged on the same side at an interval;

the elastic mechanisms are arranged in a plurality and are the same as the vibrating plates in number, the elastic mechanisms correspond to the vibrating mechanisms one by one and are respectively positioned on two sides of the vibrating plates, the elastic mechanisms have horizontal elasticity and tightly abut against the outer sides of the vibrating plates, and in an initial state, the elastic mechanisms are in a natural state.

Preferably, the interior of the can is divided by a horizontal filter screen and forms a liquid return cavity with the top end of the can, and the feed inlet does not penetrate through the liquid return cavity.

Preferably, the elastic mechanism includes:

the matching block is provided with an inwards concave notch on one side facing the vibrating plate, and the vibrating plate is just matched with the notch;

the sliding frame is in a horizontal U shape, and two ends of the sliding frame respectively penetrate through the side plates and are fixedly connected to two ends of the matching block;

the elastic part comprises an elastic block and a plurality of springs, the elastic part is located between the sliding frame and the matching block, one end of the plurality of springs is fixedly connected with the matching block, the other end of the plurality of springs is fixedly connected with one end of the elastic block, and the other end of the elastic block is fixed on the side plate.

Preferably, the fixing plate is provided with a pair of limiting holes which are sequentially arranged along the horizontal direction, one end of the fixing plate horizontally penetrates out of the side plate, the limiting holes of the plurality of fixing plates on the same side, which are positioned on the outer side, vertically penetrate through a rod body with an end head for limiting, and the diameter of the end head of the rod body is larger than that of the limiting holes.

Preferably, baffles are arranged on the upper side and the lower side of the vibration plate on the inner wall of the tank body, one end of each baffle is fixed on the inner wall of the tank body, the other end of each baffle inclines towards the vibration plate, the baffles are positioned on a pair of side inner walls of the tank body along the moving direction of the vibration plate, an elastic belt is connected between the other end of each baffle and the vibration plate, and the elastic belt, the vibration plate, the baffles and the other pair of side inner walls of the tank body.

Preferably, a limiting block is fixed on a bottom plate of the support, an arc-shaped notch is formed on the upper surface of the limiting block, and the bottom of the tank body is just matched in the arc-shaped notch.

Preferably, the two outsides of the jar body and the perpendicular with vibration board direction of movement all are provided with a pair of U template, and it forms the interlude passageway with the jar body outside, the stopper outside is provided with a pair of inserted block, and it has the recess of undercut, the recess is corresponding with the interlude passageway, the picture peg is vertical to be passed the interlude passageway and block just in the recess in order to spacing with the jar body.

Preferably, the outer wall of the tank body at the position of the liquid return cavity is made of a heat conduction material, the inside of the limiting block is provided with a heat conduction cavity, a heating device or a cooling device is arranged in the heat conduction cavity, and the outer wall of the liquid return cavity penetrates through the heat conduction cavity.

Preferably, the outer wall of the tank body at the liquid return cavity is made of an iron sheet.

The invention at least comprises the following beneficial effects:

1. the raw materials of the invention can freely fall from each vibration plate while vibrating through the multi-stage porous vibration plates, then the tank body is rotated, and the processes are repeated, so that the raw materials can be uniformly mixed without using a conventional stirring device, and simultaneously, the raw materials fall from the holes of the vibration plates, so that the raw materials are dispersed more finely, the final mixing is more uniform, and the fermentation effect is better.

2. The fermentation liquid generated in the fermentation process can freely fall to the liquid return cavity at the bottom of the tank body and then repeatedly fall from the upper part, so that the fermentation liquid is prevented from being accumulated in the raw materials, and the requirement of the water content in the raw materials is met.

3. The temperature inside the tank body can be regulated through the backflow of the liquid by monitoring the temperature inside the tank body and heating or cooling the liquid in the liquid returning cavity.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a front view of a fermentation apparatus of the present invention;

FIG. 2 is a top view of a fermentation apparatus of the present invention with one of the vibrating plates;

FIG. 3 is an enlarged view taken at A-A of FIG. 1 in accordance with the present invention.

Description of reference numerals:

1. the device comprises a support, 2, a tank body, 3, a rotating shaft, 4, a vibrating plate, 5, a round hole, 6, a fixing plate, 7, an eccentric wheel, 8, an eccentric shaft, 9, an elastic mechanism, 10, a filter screen, 11, a liquid return cavity, 12, a matching block, 13, a sliding frame, 14, an elastic piece, 15, a limiting hole, 16, a rod body, 17, a baffle, 18, an elastic belt, 19, a limiting block, 20, a U-shaped plate, 21, an inserting block, 22, an inserting plate, 23 and a heat conducting cavity.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 3, the present invention provides a multifunctional microbial feed fermentation apparatus, comprising:

the support 1 is of a U-shaped structure and is fixed, and the support 1 comprises a bottom plate and a pair of side plates;

the tank body 2 is vertically positioned in the support 1, the tank body of the tank body 2 is of a square structure, two cans of the tank body 2 are of an arc structure, the tank body 2 is integrally formed and sealed, the two cans are provided with feed inlets and sealing doors for sealing the feed inlets, the middle of the tank body 2 is provided with a pair of horizontal rotating shafts 3, one ends of the horizontal rotating shafts are respectively fixed at two sides of the tank body 2, the other end of one rotating shaft 3 is connected through a bearing positioned in one side plate, the other end of the other rotating shaft 3 is connected with a motor positioned in the other side plate and is driven to rotate through the motor, so that the tank body 2 is driven to rotate 180 degrees around a horizontal symmetrical shaft of the;

the tank body is divided into a plurality of independent chambers by the vibration plates 4, the two sides of each vibration plate 4 protrude out of the tank body 2, the vibration plates 4 are horizontally and freely moved, and the vibration plates 4 are provided with a plurality of uniformly distributed round holes 5, and the diameter of each round hole is 8-10 times of the diameter of a raw material;

the vibration mechanisms are multiple and the number of the vibration mechanisms is the same as that of the vibration plates 4, each vibration mechanism comprises a fixing plate 6, an eccentric shaft 8 and an eccentric wheel 7, the fixing plates 6 are horizontally connected to one side plate and are positioned inside the support 1, the eccentric shafts 8 are vertically arranged and are driven to rotate by a motor arranged in the fixing plates 6, the outer side walls of the eccentric wheels 7 abut against the outer sides of the vibration plates 4, in an initial state, the outer side walls of the eccentric wheels 7 are closest to the tank body 2, the vibration mechanisms are uniformly distributed on two sides of the tank body 2, and one vibration plate 4 is arranged on the same side at an interval;

the number of the elastic mechanisms 9 is the same as that of the vibration plates 4, the elastic mechanisms 9 correspond to the vibration mechanisms one by one and are respectively located on two sides of the vibration plates 4, the elastic mechanisms 9 have horizontal elasticity and tightly abut against the outer sides of the vibration plates 4, and in an initial state, the elastic mechanisms 9 are in a natural state.

In the above technical scheme, the raw materials that need the fermentation enter into to the vibration board 4 of the superiors through the feed inlet on jar body 2 upper portion, the starter motor drives eccentric wheel 7 and rotates, thereby vibration board 4 takes place the removal of left right direction, and then realize the vibration, the raw materials takes place to mix under the vibration effect of vibration board 4 and freely falls in the round hole 5 of follow vibration board 4 simultaneously, eccentric wheel 7 compresses elastic mechanism 9 when promoting vibration board 4 to remove, and when eccentric wheel 7 does not promote vibration board 4, elastic mechanism 9 can push vibration mechanism to eccentric wheel 7 under the effect of resilience force again, thereby make eccentric wheel 7 take place incessant vibration, and vibration mechanism sets up in a staggered way, two adjacent vibration boards 4 do not take place synchronous vibration about having guaranteed, the raw materials mixes more evenly. The raw materials are mixed by the vibration of the multistage vibration plate 4 and fall freely, and finally are positioned in the can at the lower part, the motor of the eccentric wheel 7 is closed at the moment, the motor of the rotating shaft 3 is started again to drive the rotating shaft 3 to rotate, so that the can body 2 is driven to turn over for 180 degrees, the above processes are repeated again, and the mixing fermentation is continued.

In another technical scheme, the interior of the can is divided by a horizontal filter screen 10 and forms a liquid return cavity 11 with the top end of the can, and the feed inlet does not penetrate through the liquid return cavity 11.

In above-mentioned technical scheme, the liquid whereabouts that produces among the fermentation process is located back the liquid chamber 11 through filter screen 10, has avoided the zymotic fluid to pile up in the raw materials, makes the moisture content of raw materials too high, and after rotating 180 degrees, the liquid in the liquid chamber 11 that returns continues downward flow again, has both guaranteed the requirement of the interior moisture content of raw materials and can not make the moisture content of raw materials too high again.

In another solution, the elastic mechanism 9 comprises:

the matching block 12 is provided with an inward concave notch on one side facing the vibrating plate 4, and the vibrating plate 4 is just matched with the notch;

the sliding frame 13 is in a horizontal U shape, and two ends of the sliding frame 13 penetrate through the side plates respectively and are fixedly connected to two ends of the matching block 12;

elastic component 14, it includes elastic block and many springs, elastic component 14 is located between carriage 13 and the cooperation piece 12, the one end fixed connection cooperation piece 12 of the one end of many springs, the one end of other end fixed connection elastic block, the other end of elastic block is fixed in on the curb plate.

In the above technical solution, the arrangement of the U-shaped sliding frame 13 enables the matching block 12 to stably slide when compressing the elastic member 14, and simultaneously, the sliding frame 13 does not separate from the side plates when rebounding, the gap of the matching block 12 enables the vibration plate 4 to vibrate more stably, and the matching of the elastic block and the spring enables the elastic member 14 to be stable and does not affect the rebound compression effect of the elastic member 14.

In another technical scheme, a pair of limiting holes 15 sequentially arranged in the horizontal direction are formed in the fixing plate 6, one end of the fixing plate 6 horizontally penetrates out of the side plate, the limiting holes 15, located on the outer side, of the fixing plates 6 on the same side vertically penetrate through a rod body 16 with an end head to limit, and the diameter of the end head of the rod body 16 is larger than that of the limiting holes 15.

In the above technical scheme, when vibrating plate 4 vibrates, a row of limiting holes 15 on the outermost side are limited through rod body 16, so that the stability of the limiting plate is guaranteed, when the vibrating plate does not vibrate, in order to prevent eccentric wheel 7 from influencing the overturning of tank body 2, fixing plate 6 is pulled outwards, the rod body 16 is limited to the row of limiting holes 15 on the inner side, and the rod body 16 can penetrate through the inner side of sliding frame 13, so that the sliding frame 13 does not influence the limitation of the rod body 16.

In another technical scheme, baffles 17 are arranged on the upper side and the lower side of the vibration plate 4 on the inner wall of the tank 2, one end of each baffle 17 is fixed on the inner wall of the tank 2, the other end of each baffle is inclined towards the vibration plate 4, the baffles 17 are positioned on a pair of side inner walls of the tank 2 along the moving direction of the vibration plate 4, and an elastic band 18 is connected between the other end of each baffle 17 and the vibration plate 4 and forms a sealed side wall with the vibration plate 4, the baffles 17 and the other pair of side inner walls of the tank 2.

In the above technical solution, the baffle 17 and the elastic band 18 form a sealed side wall, so that when the vibrating plate 4 vibrates, the raw material does not affect the motion of the vibrating plate, and the raw material does not enter and exit the tank 2, the elastic band 18 has a large elasticity, and the elastic band 18 can also be set to be properly loose, that is, the height of the elastic band 18 is much greater than the distance between the baffle 17 and the vibrating plate 4, and the circular hole 5 on the vibrating plate 4 is only set between the elastic bands 18.

In another technical scheme, a limiting block 19 is fixed on a bottom plate of the bracket 1, an arc-shaped notch is formed on the upper surface of the limiting block, and the bottom of the tank body 2 is just matched in the arc-shaped notch. The arc-shaped notch is used for supporting the tank body 2.

In another kind of technical scheme, jar body 2 all is provided with a pair of U template 20 with the perpendicular both sides of vibration 4 moving direction of board, and it forms the interlude passageway with jar body 2 outside, the stopper 19 outside is provided with a pair of inserted block 21, and it has undercut's recess, the recess corresponds with the interlude passageway, picture peg 22 vertically passes the interlude passageway and blocks in the recess just so that jar body 2 is spacing. When the tank body 2 is turned to work in a vertical state, the bottom of the tank body 2 is limited through the pair of inserting plates 22 and the arc-shaped notch of the limiting block 19, so that the tank body 2 works more stably.

In another technical solution, an outer wall of the tank body 2 at the liquid return cavity 11 is made of a heat conducting material, such as an iron sheet, the inside of the limiting block 19 is provided with a heat conducting cavity 23, a heating device or a cooling device is arranged in the heat conducting cavity 23, and the outer wall of the liquid return cavity 11 penetrates through the heat conducting cavity 23. The accessible sets up temperature monitoring instrument in jar body 2, and when the temperature ratio set for the scope high or low, the liquid that sets up in heat conduction cavity 23 or cooling device heated or cooled off returning the liquid in the liquid chamber 11 simultaneously, then after jar body 2 upset, the in-process that liquid flows back downwards can heat or cool off the raw materials to realize the purpose of temperature regulation.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (9)

1. Multi-functional microbial feed fermentation equipment, its characterized in that includes:

the bracket is of a U-shaped structure and is fixed, and comprises a bottom plate and a pair of side plates;

the tank body is vertically positioned in the support, the body of the tank body is of a square structure, two cans of the tank body are of an arc structure, the tank body is integrally formed and sealed, the two cans are provided with feed inlets and sealing doors for sealing the feed inlets, the middle part of the tank body is provided with a pair of horizontal rotating shafts, one ends of the horizontal rotating shafts are respectively fixed at two sides of the tank body, the other end of one rotating shaft is connected through a bearing positioned in one side plate, the other end of the other rotating shaft is connected with a motor positioned in the other side plate and is driven to rotate through the motor, and therefore the tank body is driven to rotate 180 degrees around a horizontal symmetrical shaft of the;

the vibration plates are arranged in a plurality of even numbers, are arranged in the tank body in parallel and are vertically arranged in sequence and are symmetrically arranged on two sides of a horizontal symmetry axis of the tank body, the tank body is divided into a plurality of independent chambers by the vibration plates, two sides of each vibration plate protrude out of the tank body, the vibration plates are arranged to move horizontally and freely, and a plurality of uniformly distributed circular holes are formed in each vibration plate, and the diameter of each vibration plate is 8-10 times of that of a raw material;

the vibration mechanism comprises a fixing plate, an eccentric shaft and an eccentric wheel, the fixing plate is horizontally connected to one side plate and is positioned in the support, the eccentric shaft is vertically arranged and is driven to rotate by a motor arranged in the fixing plate, the outer side wall of the eccentric wheel abuts against the outer side of the vibration plate, the distance between the outer side wall of the eccentric wheel and the tank body is closest in an initial state, the vibration mechanisms are uniformly distributed on two sides of the tank body, and one vibration plate is arranged on the same side at an interval;

the elastic mechanisms are arranged in a plurality and are the same as the vibrating plates in number, the elastic mechanisms correspond to the vibrating mechanisms one by one and are respectively positioned on two sides of the vibrating plates, the elastic mechanisms have horizontal elasticity and tightly abut against the outer sides of the vibrating plates, and in an initial state, the elastic mechanisms are in a natural state.

2. The multifunctional microbial feed fermentation equipment of claim 1, wherein the interior of the can is divided by a horizontal filter screen and forms a liquid return cavity with the top end of the can, and the feed inlet does not penetrate through the liquid return cavity.

3. The multifunctional microbial feed fermentation device of claim 1, wherein the elastic mechanism comprises:

the matching block is provided with an inwards concave notch on one side facing the vibrating plate, and the vibrating plate is just matched with the notch;

the sliding frame is in a horizontal U shape, and two ends of the sliding frame respectively penetrate through the side plates and are fixedly connected to two ends of the matching block;

the elastic part comprises an elastic block and a plurality of springs, the elastic part is located between the sliding frame and the matching block, one end of the plurality of springs is fixedly connected with the matching block, the other end of the plurality of springs is fixedly connected with one end of the elastic block, and the other end of the elastic block is fixed on the side plate.

4. The multifunctional microbial feed fermentation equipment as claimed in claim 1, wherein the fixing plate is provided with a pair of limiting holes which are sequentially arranged along the horizontal direction, one end of the fixing plate horizontally penetrates out of the side plate, the limiting holes on the outer side of the fixing plates on the same side are vertically penetrated through by a rod body with an end head for limiting, and the diameter of the end head of the rod body is larger than that of the limiting holes.

5. The multifunctional microorganism feed fermentation equipment as claimed in claim 1, wherein the inner wall of the tank body is provided with baffles on both upper and lower sides of the vibration plate, one end of each baffle is fixed to the inner wall of the tank body, the other end of each baffle is inclined toward the vibration plate, the baffles are positioned on one pair of side inner walls of the tank body along the moving direction of the vibration plate, and an elastic band is connected between the other end of each baffle and the vibration plate and forms a sealed side wall with the vibration plate, the baffles and the other pair of side inner walls of the tank body.

6. The multifunctional microbial feed fermentation equipment as claimed in claim 2, wherein a stopper is fixed on the bottom plate of the bracket, an arc-shaped notch is formed on the upper surface of the stopper, and the bottom of the tank body is just matched with the arc-shaped notch.

7. The multifunctional microbial feed fermentation equipment as claimed in claim 6, wherein a pair of U-shaped plates are arranged on both outer sides of the tank body perpendicular to the moving direction of the vibrating plate, and form an insertion channel with the outer side of the tank body, a pair of insertion blocks are arranged on the outer side of the limiting block and are provided with downward-recessed grooves corresponding to the insertion channel, and the insertion plate vertically penetrates through the insertion channel and is just clamped in the grooves to limit the tank body.

8. The multifunctional microbial feed fermentation equipment as claimed in claim 6, wherein the outer wall of the tank body at the liquid return cavity is made of heat conducting materials, the limiting block is internally provided with a heat conducting cavity in which a heating device or a cooling device is arranged, and the outer wall of the liquid return cavity penetrates through the heat conducting cavity.

9. The multifunctional microbial feed fermentation equipment as claimed in claim 8, wherein the outer wall of the tank body at the liquid return cavity is made of iron sheet.

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