CN217164154U

CN217164154U - Continuous type bacterial and fodder homogeneous mixing device for fermentation

Info

Publication number: CN217164154U
Application number: CN202220657360.9U
Authority: CN
Inventors: 邱楚武; 颜川
Original assignee: Sichuan Wangda Feed Co ltd
Current assignee: Sichuan Wangda Biological Feed Co ltd
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2022-08-12
Anticipated expiration: 2032-03-24

Abstract

The utility model discloses a continuous strain and feed uniform mixing device for fermentation, which belongs to the technical field of material mixing and aims to solve the problem that the existing device can not continuously mix materials, and comprises a shell and an electric control box, wherein the electric control box is arranged on the side surface of the shell, and an inner conveying structure is arranged inside the shell; get into from the position department of feed plate through the material that needs the mixture, then from spilling the below process of fungus structure under conveying structure's the conveying including, from this make the bacterial fall into on the material, then make the material fall from the position department of play flitch under conveying structure's the conveying in, thereby mix bacterial and material, can be quick in succession add the inside of material to the bacterial, thereby the efficiency of mixing has been improved, and mixing arrangement and fermentation cylinder disconnect-type's setting, make the fermentation can not cause the influence to the mixture, thereby the efficiency of mixing has been guaranteed, the utilization ratio of equipment has been improved.

Description

Continuous type bacterial and fodder homogeneous mixing device for fermentation

Technical Field

The utility model provides a continuous type bacterial and fodder homogeneous mixing device for fermentation, the utility model belongs to the technical field of the material mixing, concretely relates to bacterial and fodder homogeneous mixing technical field.

Background

When the fermented feed is used for breeding animals, the animals need to be fed with the fermented feed, and strains and the feed need to be mixed in the preparation process of the fermented feed, so that the feed can be stably fermented.

Application number 202021781085.9 just discloses a biological feed fermentation mixing arrangement, including the fermenter body, the top of the fermenter body is fixed with the fermentation jar lid through the screw, the top horizontal welding of the fermenter body have the inlet pipe, the welding has the discharging pipe on the bottom plate of the fermenter body, inlet pipe and discharging pipe communicate with the fermentation jar body respectively, the internal vertical (mixing) shaft that is equipped with of fermentation jar, the top of (mixing) shaft is fixed at the middle part of fermentation jar lid through the bearing suit, the top cover of (mixing) shaft is equipped with opening up sealed shell, one side of (mixing) shaft is equipped with main driving motor, be equipped with the main gear group between main driving motor and the (mixing) shaft, main driving motor is connected through main gear group with the (mixing) shaft, main gear group is established in sealed shell.

Although the mixing operation can be performed by the above-mentioned device, the mixing device is arranged inside the fermentation tank, so that the mixing device cannot be utilized when fermentation is performed, thereby causing resource waste, and the continuous mixing operation of materials cannot be performed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a continuous type bacterial and fodder homogeneous mixing device for fermentation to solve above-mentioned current problem that can not be continuous to the material mixing operation.

The utility model adopts the technical scheme as follows:

the utility model provides a continuous type bacterial and fodder homogeneous mixing device for fermentation, includes casing and automatically controlled box, the side at the casing is installed to automatically controlled box, conveying structure in the inside of casing is provided with, an inboard top of interior conveying structure is provided with the feed plate, another board below of interior conveying structure is provided with out the flitch, shell surface between feed plate and the play flitch is provided with spills the fungus structure, the bottom plate of casing is provided with the washing structure of disinfecting.

In the technical scheme of the application, the materials to be mixed enter from the position of the feeding plate, then passes under the fungus scattering structure under the transmission of the inner conveying structure, so that the strains fall onto the materials, then the material falls down from the position of the discharge plate under the conveying of the inner conveying structure, so that the strains and the material are mixed, the strains can be continuously and rapidly added into the material, thereby improving the mixing efficiency, and the separated arrangement of the mixing device and the fermentation tank can ensure that the fermentation can not influence the mixing, thereby ensuring the mixing efficiency, improving the utilization rate of the equipment, and when the inner conveying structure conveys the materials again, the inner conveying structure needs to be cleaned and sterilized through the cleaning and sterilizing structure, so that the amount of the mixed bacteria contained in the inner conveying structure can be effectively reduced.

Further, interior transport structure is including installing driving shaft and the driven shaft at the inside two boards of casing, the one end of driving shaft runs through and extends to the outside of casing and is connected with the motor, install the conveyer belt on driving shaft and the driven shaft, the both sides of conveyer belt and the tangent setting of the inner wall of casing, the inside of casing corresponds position department between the conveyer belt and installs the welt, the other end of driving shaft runs through and extends to the outside of casing and is connected with sprocket three and sprocket four.

Furthermore, the feeding plate is obliquely arranged, a feeding channel is formed in the feeding plate, a first installation shaft is installed in the feeding plate through a bearing, a feeding frame is installed on the side face of the first installation shaft, and the first installation shaft penetrates through the outer portion of the shell and extends to the outer portion of the shell and is connected with a first chain wheel.

Further, discharge passage has been seted up to the inside of play flitch, the scraper blade is installed to the position department that discharge passage is corresponded to the inside bottom of casing, discharge passage's inside is installed the pivot through the bearing, install the stirring frame in the pivot, the pivot runs through and extends to the outside of casing and is connected with sprocket two, sprocket two is connected with sprocket four through chain one.

Further, spill fungus structure including installing at housing face's the shell of returning type and installation shell, the inside slidable mounting that returns the shell has the board of spreading out, the handle is installed on the top of the board of spreading out, the top slidable mounting of installation shell has the installation pipe, the shower nozzle is installed to the bottom of installation pipe, the least significant end of shower nozzle is higher than the least significant end setting of the board of spreading out, the installation pipe passes through the connecting pipe and is connected with external fungus liquid feeding device.

Furthermore, be connected through the connecting plate between connecting pipe and the handle, the internally mounted of connecting plate has the lead screw cover, the lead screw is installed through the inside bearing of bearing frame in the position department that the top of casing corresponds the lead screw cover, threaded connection between lead screw and the lead screw cover.

Further, the cleaning and sterilizing structure comprises a collecting bin arranged at the bottom end of the shell, the collecting bin is communicated with the inner cavity of the shell, a second mounting shaft is mounted in the collecting bin through a bearing, the second mounting shaft penetrates through the outer portion of the shell and is connected with a fifth chain wheel and a sixth chain wheel, the fifth chain wheel and the third chain wheel are connected through a second chain, the sixth chain wheel and the first chain wheel are connected through a third chain, and bristles are distributed on the second mounting shaft in the collecting bin.

Further, install the spray pipe on the collection storehouse between installation axle two and the play flitch, the spray pipe corresponds the bottom setting of conveyer belt, the spray pipe has the water pump through pipe connection, the bottom side-mounting in collection storehouse has the blow off pipe.

Furthermore, an ultraviolet lamp tube is installed at one end, far away from the discharge plate, of the interior of the shell, a baffle is arranged between the ultraviolet lamp tube and the feed plate, a drying air pipe is installed on a collection bin between the ultraviolet lamp tube and the second installation shaft, the drying air pipe is arranged corresponding to the bottom end of the conveying belt, and the drying air pipe is connected with an electric heating air blower.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the feeding frame is arranged inside the feeding channel, so that the feeding frame can be driven to rotate only when the conveying structure works, the materials can be effectively prevented from being accumulated inside the discharging channel, the falling of the materials is convenient, and the uniformity of the falling materials is guaranteed.

2. Be provided with the stand board in the inside of spilling the fungus structure for fall into the material on the conveyer belt from feedstock channel, can reach the position department of bacterial shower nozzle again after the shakeout of stand board, and can adjust the stand board distance between the conveyer belt according to the demand of using, change the material thickness who reachs the position department of bacterial shower nozzle from this, because the setting up of stand board makes the material thickness through the bacterial shower nozzle even, thereby guaranteed that material and bacterial reach the most suitable ratio.

3. The stirring frame in the discharging channel enables the material to fall into the material in the discharging channel from the conveying belt and the strain to be stirred again, so that the mixing degree of the strain and the material is improved again, and the scraper can be arranged to effectively prevent the material from being attached to the conveying belt.

4. The conveying belt surface after carrying can be washed through the inside spray pipe spun hydroenergy of washing sterilization structure, then drives the brush hair through two pivoted installation axles and rotates, scrubs the conveying belt surface from this, dries the conveying belt surface through the exhaust high temperature air current of stoving trachea again, and the operation of disinfecting to the conveying belt surface is shining through the ultraviolet lamp at last to can effectually guarantee the cleaning nature on conveying belt surface.

Drawings

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

fig. 2 is a rear schematic view of the three-dimensional structure of the present invention;

fig. 3 is a schematic view of a first cross-sectional structure of the present invention;

fig. 4 is a schematic view of a second cross-sectional structure of the present invention;

1-a shell; 2-an inner conveying structure; 3-a feeding plate; 4-discharging plate; 5-fungus scattering structure; 6-cleaning and sterilizing the structure; 7-an electronic control box; 8-driving shaft; 9-a driven shaft; 10-a conveyor belt; 11-a lining plate; 12-a motor; 13-a scraper; 14-a baffle; 15-a feed channel; 16-mounting the shaft I; 17-a feeding frame; 18-sprocket one; 19-a discharge channel; 20-a rotating shaft; 21-a stirring frame; 22-a second chain wheel; 23-sprocket III; 24-sprocket four; 25, a first chain; 26-shell mold; 27-spreading the plates; 28-a handle; 29-mounting the housing; 30-installing a pipe; 31-a spray head; 32-connecting tube; 33-a connecting plate; 34-a lead screw; 35-a screw sleeve; 36-a collection bin; 37-mounting a second shaft; 38-bristles; 39-sprocket five; 40-a second chain; 41-sprocket six; 42-chain III; 43-drying the air pipe; 44-an electrically heated blower; 45-sewage draining pipe; 46-ultraviolet lamp tube; 47-water spray pipe; 48-a water pump; 49-water baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

As shown in fig. 1-4, a continuous type fungus and feed even mixing device for fermentation comprises a shell 1 and an electric control box 7, wherein the electric control box 7 is installed on the side surface of the shell 1, an inner conveying structure 2 is arranged inside the shell 1, a feeding plate 3 is arranged above one plate of the inner conveying structure 2, a discharging plate 4 is arranged below the other plate of the inner conveying structure 2, a fungus scattering structure 5 is arranged on the surface of the shell 1 between the feeding plate 3 and the discharging plate 4, a cleaning and sterilizing structure 6 is arranged on the bottom plate of the shell 1, and the opening or closing of a motor 12, an electric heating blower 44 and a water pump 48 is controlled through the electric control box 7.

In the technical scheme of the application, materials to be mixed enter from the position of the feeding plate 3, then passes under the fungus scattering structure 5 under the conveying of the inner conveying structure 2, so that the strains fall onto the materials, then the materials fall down from the position of the discharge plate 4 under the conveying of the inner conveying structure 2, so that the strains and the materials are mixed, the strains can be continuously and rapidly added into the materials, thereby improving the mixing efficiency, and the separated arrangement of the mixing device and the fermentation tank can ensure that the fermentation can not influence the mixing, thereby ensuring the mixing efficiency and improving the utilization rate of the equipment, and when the inner conveying structure 2 conveys the materials again, the inner conveying structure 2 needs to be cleaned and sterilized by the cleaning and sterilizing structure 6, so that the amount of the mixed bacteria contained in the inner conveying structure 2 can be effectively reduced.

Example 2

As shown in fig. 1-4, on the basis of embodiment 1, the inner conveying structure 2 includes a driving shaft 8 and a driven shaft 9 installed on two plates inside the casing 1, one end of the driving shaft 8 penetrates and extends to the outside of the casing 1 and is connected with a motor 12, the motor 12 operates to drive the driving shaft 8 to rotate, a conveyer belt 10 is installed on the driving shaft 8 and the driven shaft 9, the driving shaft 8, the driven shaft 9 and the conveyer belt 10 are formed to be similar to a belt conveying structure, so that the conveyer belt 10 can be driven to move when the driving shaft 8 rotates, two sides of the conveyer belt 10 are arranged in a tangent manner to the inner wall of the casing 1, the material can be prevented from falling from the conveyer belt 10 to the inside of the casing 1, a lining plate 11 is installed inside the casing 1 at a position corresponding to between the conveyer belts 10, and can support the belt on the conveyer belt 10, thereby preventing the surface of the conveyor belt 10 from being depressed downward, and the other end of the driving shaft 8 penetrates and extends to the outside of the casing 1 and is connected with a third sprocket 23 and a fourth sprocket 24.

Example 3

As shown in fig. 1-4, on the basis of embodiment 2, the feeding plate 3 is disposed in an inclined manner, so as to facilitate smooth falling of the material, the feeding channel 15 is opened inside the feeding plate 3, the first mounting shaft 16 is mounted inside the feeding plate 3 through a bearing, the first mounting shaft 16 is laterally mounted with a feeding frame 17, the feeding frame 17 is disposed in a cross-shaped structure, the first mounting shaft 16 rotates to drive the feeding frame 17 to rotate, so that the material can fall uniformly, and the first mounting shaft 16 penetrates through and extends to the outside of the housing 1 and is connected with a first chain wheel 18.

Discharge plate 4's inside has been seted up discharge channel 19, scraper blade 13 is installed to the position department that discharge channel 19 is corresponded to the inside bottom of casing 1, can strike off the material of adhesion on conveyer belt 10, makes the inside that enters into discharge channel 19 that the material can be smooth from this, discharge channel 19's inside is installed pivot 20 through the bearing, install stirring frame 21 in the pivot 20, pivot 20 rotates and drives stirring frame 21 and rotate, can carry out stirring operation once more to the material that falls from this, pivot 20 runs through and extends to casing 1's outside and is connected with sprocket two 22, sprocket two 22 is connected with sprocket four 24 through chain one 25, makes from this and can drive pivot 20 rotate when driving shaft 8 rotates.

Example 4

As shown in fig. 1-4, on the basis of embodiment 3, the fungus spreading structure 5 includes a returning shell 26 and a mounting shell 29 mounted on the surface of the housing 1, a spreading plate 27 is slidably mounted inside the returning shell 26, a handle 28 is mounted on the top end of the spreading plate 27, a mounting pipe 30 is slidably mounted on the top end of the mounting shell 29, a nozzle 31 is mounted at the bottom end of the mounting pipe 30, the lowest end of the nozzle 31 is higher than the lowest end of the spreading plate 27, the mounting pipe 30 is connected with an external fungus liquid supply device through a connecting pipe 32, and is operated through the external fungus liquid supply device, so that the fungus liquid can be sprayed from the position of the nozzle 31, and thus, a fungus species can be added into the material.

The connecting pipe 32 is connected with the handle 28 through a connecting plate 33, a screw sleeve 35 is mounted inside the connecting plate 33, a lead screw 34 is mounted at a position, corresponding to the screw sleeve 35, on the top end of the shell 1 through a bearing inside a bearing seat, the lead screw 34 is in threaded connection with the screw sleeve 35, and the screw sleeve 35 is driven to slide up and down by rotating the lead screw 34, so that the stand plate 27 and the spray head 31 are driven to move up and down.

Example 5

As shown in fig. 1-4, in addition to embodiment 3, further, the cleaning and sterilizing structure 6 includes a collecting chamber 36 installed at the bottom end of the housing 1, the collection bin 36 is communicated with the inner cavity of the shell 1, a second installation shaft 37 is installed inside the collection bin 36 through a bearing, the second mounting shaft 37 penetrates and extends to the outside of the housing 1 and is connected with a fifth chain wheel 39 and a sixth chain wheel 41, the chain wheel five 39 is connected with the chain wheel three 23 through a chain two 40, the chain wheel six 41 is connected with the chain wheel one 18 through a chain three 42, thereby enabling the rotation of the driving shaft 8 to drive the first mounting shaft 16 and the second mounting shaft 37 to rotate, bristles 38 are distributed on a second mounting shaft 37 in the collection bin 36, and the second mounting shaft 37 rotates to drive the bristles 38 to repeatedly contact with the surface of the conveyor belt 10, so that the brushing operation is performed.

Install spray pipe 47 on the collection storehouse 36 between installation axle two 37 and the play flitch 4, spray pipe 47 corresponds the bottom setting of conveyer belt 10, spray pipe 47 has water pump 48 through the pipe connection, the bottom side-mounting of collection storehouse 36 has blow off pipe 45, works through water pump 48, makes to have the water that is used in the conveyer belt 10 surface to spout from this in the spray pipe 47, washes the operation to conveyer belt 10 from this.

An ultraviolet lamp tube 46 is installed at one end, far away from the discharging plate 4, of the interior of the shell 1, a baffle 14 is arranged between the ultraviolet lamp tube 46 and the feeding plate 3, a drying air tube 43 is installed on the collecting bin 36 between the ultraviolet lamp tube 46 and the second mounting shaft 37, the drying air tube 43 is arranged corresponding to the bottom end of the conveying belt 10, the drying air tube 43 is connected with an electric heating air blower 44, a water baffle 49 is arranged between the drying air tube 43 and the brush bristles 38, and therefore water can be prevented from entering the interior of the drying air tube 43.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a continuous type bacterial and fodder homogeneous mixing device for fermentation, includes casing (1) and automatically controlled box (7), the side at casing (1) is installed in automatically controlled box (7), the inside of casing (1) is provided with interior transport structure (2), its characterized in that: a feeding plate (3) is arranged above one plate of the inner conveying structure (2), a discharging plate (4) is arranged below the other plate of the inner conveying structure (2), a bacterium scattering structure (5) is arranged on the surface of the shell (1) between the feeding plate (3) and the discharging plate (4), and a cleaning and sterilizing structure (6) is arranged on the bottom plate of the shell (1); interior transport structure (2) are including installing driving shaft (8) and driven shaft (9) at casing (1) inside two boards, the one end of driving shaft (8) runs through and extends to the outside of casing (1) and is connected with motor (12), install conveyer belt (10) on driving shaft (8) and driven shaft (9), the both sides of conveyer belt (10) set up with the inner wall of casing (1) is tangent, the inside of casing (1) corresponds position department between conveyer belt (10) and installs welt (11), the other end of driving shaft (8) runs through and extends to the outside of casing (1) and is connected with sprocket three (23) and sprocket four (24).

2. The continuous spawn and feed uniform mixing device for fermentation according to claim 1, wherein: the feeding plate (3) is obliquely arranged, a feeding channel (15) is formed in the feeding plate (3), a first installation shaft (16) is installed in the feeding plate (3) through a bearing, a feeding frame (17) is installed on the side face of the first installation shaft (16), and the first installation shaft (16) penetrates through the outer portion of the shell (1) and is connected with a first chain wheel (18).

3. The continuous spawn and feed uniform mixing device for fermentation according to claim 1, wherein: discharge board (4) inside has been seted up discharge passage (19), scraper blade (13) are installed to the position department that the inside bottom of casing (1) corresponds discharge passage (19), pivot (20) are installed through the bearing in the inside of discharge passage (19), install stirring frame (21) on pivot (20), pivot (20) run through and extend to the outside of casing (1) and are connected with sprocket two (22), sprocket two (22) are connected with sprocket four (24) through chain (25).

4. The continuous spawn and feed uniform mixing device for fermentation as claimed in claim 1, wherein: spill fungus structure (5) including installing returning shell (26) and installation shell (29) on casing (1) surface, the inside slidable mounting who returns shell (26) has stand board (27), handle (28) are installed on the top of stand board (27), the top slidable mounting of installation shell (29) has installation pipe (30), shower nozzle (31) are installed to the bottom of installation pipe (30), the least significant end of shower nozzle (31) is higher than the least significant end setting of stand board (27), installation pipe (30) are connected with external fungus liquid feeding device through connecting pipe (32).

5. The continuous spawn and feed uniform mixing device for fermentation as claimed in claim 4, wherein: be connected through connecting plate (33) between connecting pipe (32) and handle (28), the internally mounted of connecting plate (33) has lead screw cover (35), lead screw (34) are installed through the inside bearing of bearing frame in the position department that the top of casing (1) corresponds lead screw cover (35), threaded connection between lead screw (34) and lead screw cover (35).

6. The continuous spawn and feed uniform mixing device for fermentation according to claim 2, wherein: wash sterilization structure (6) including installing collection storehouse (36) in casing (1) bottom, the inner chamber intercommunication setting of collecting storehouse (36) and casing (1), the inside of collecting storehouse (36) is installed installation axle two (37) through the bearing, installation axle two (37) run through and extend to the outside of casing (1) and are connected with sprocket five (39) and sprocket six (41), be connected through chain two (40) between sprocket five (39) and sprocket three (23), be connected through chain three (42) between sprocket six (41) and sprocket one (18), it has brush hair (38) to distribute on the installation axle two (37) of collecting storehouse (36) inside.

7. The continuous spawn and feed uniform mixing device for fermentation according to claim 6, wherein: install spray pipe (47) on collection storehouse (36) between installation axle two (37) and play flitch (4), spray pipe (47) correspond the bottom setting of conveyer belt (10), there is water pump (48) spray pipe (47) through pipe connection, the bottom side-mounting in collection storehouse (36) has blow off pipe (45).

8. The continuous spawn and feed uniform mixing device for fermentation according to claim 6, wherein: ultraviolet fluorescent tube (46) are installed to the one end that goes away from ejection of compact board (4) in the inside of casing (1), be provided with baffle (14) between ultraviolet fluorescent tube (46) and feed plate (3), install stoving trachea (43) on collection storehouse (36) between ultraviolet fluorescent tube (46) and installation axle two (37), the bottom setting that conveyer belt (10) are corresponded in stoving trachea (43), stoving trachea (43) are through being connected with electric heat air-blower (44).