CN117229901A - Intelligent mulberry leaf feed fermentation device - Google Patents

Abstract

The utility model relates to the field of mulberry leaf feed fermentation, in particular to an intelligent mulberry leaf feed fermentation device which comprises a fermentation tank body, a bacterial liquid spraying device, a stirring device, a sampling detection device and a control device, wherein the stirring device is connected with the fermentation tank body; the bacterial liquid spraying device is used for adjusting the water content, the bacterial and the inoculation amount in the fermentation tank body; the stirring device is used for stirring the feed in the fermentation tank body; the sampling detection device is used for monitoring environmental parameters in the fermentation tank body; the control device is used for receiving the environmental parameter data and controlling the starting and stopping of the bacterial liquid spraying device and/or the stirring device. According to the utility model, the sampling detection device is used for detecting the environmental condition of mulberry leaf fermentation in real time, and the fermentation environment of the mulberry leaf feed is regulated by the control device according to the need under the combined action of the bacterial liquid spraying device and the stirring device, so that the effect of mulberry leaf feed fermentation is further ensured, the full automation of the feed fermentation process is realized, the requirement of manual operation is reduced, and the production efficiency is improved.

Description

Intelligent mulberry leaf feed fermentation device

Technical Field

The utility model relates to the field of mulberry leaf feed fermentation, in particular to an intelligent mulberry leaf feed fermentation device.

Background

With the continuous development of the farm animal raising industry, the quality of feed and the production efficiency of feed become key problems. The traditional feed fermentation often needs manual operation, and has the problems of difficult control of technological parameters, low fermentation efficiency, complex operation and the like.

Moreover, fermentation of feed materials is of great importance for increasing their nutritional value and reducing harmful substances, and thus a more intelligent, more efficient feed fermentation device is needed to meet these demands.

In addition, the mulberry leaf feed is used as a feed raw material with potential value, and the fermentation process of the mulberry leaf feed needs to be controlled and optimized to ensure the nutrition value and the production efficiency of the mulberry leaf feed.

Wherein, the influencing factors of the mulberry leaf feed fermentation comprise water content, fermentation strain, inoculum size, fermentation temperature, fermentation time and pH.

The utility model patent number 202221933136.4 discloses a mulberry leaf feed fermentation processing device, which comprises a bottom plate, wherein a fermentation barrel body for storing and fermenting the mulberry leaf feed and a processing mechanism which is arranged in a split mode with the fermentation barrel body and is used for processing the mulberry leaf feed in the fermentation barrel body are arranged on the bottom plate, the processing mechanism comprises two electric cylinders which are fixed on the bottom plate and are respectively positioned on two sides of the fermentation barrel body, piston rods of the two electric cylinders are fixed with a fixing plate which is positioned above the fermentation barrel body, and a vertical supporting plate is fixed on the fixing plate. The whole device not only can be used for fermenting the mulberry leaves, but also can be used for automatically stirring the mulberry leaves and the leavening agent before fermentation so that the mulberry leaves and the leavening agent are fully mixed, further the fermentation effect is good, and secondly, when the leavening agent is put into, the whole device can be used for automatically stirring and conveying the leavening agent, so that the use effect is good. However, the patent cannot meet the real-time monitoring in the fermentation process of the mulberry leaf feed, and cannot ensure the fermentation effect.

Therefore, an intelligent device capable of automatically completing the fermentation of the mulberry leaf feed and monitoring the environmental parameters of the fermentation of the mulberry leaf feed is needed to solve the problems existing in the conventional fermentation process of the mulberry leaf feed.

Disclosure of Invention

The utility model aims at: in order to solve the problems in the prior art, the utility model provides an intelligent mulberry leaf feed fermentation device.

In order to solve the problems existing in the prior art, the utility model adopts the following technical scheme:

an intelligent mulberry leaf feed fermentation device comprises a fermentation tank body, a bacterial liquid spraying device, a stirring device, a sampling detection device and a control device;

the bacterial liquid spraying device, the sampling detection device and the stirring device are all arranged in the fermentation tank body, and the bacterial liquid spraying device, the sampling detection device and the stirring device are respectively connected with the control device;

the bacterial liquid spraying device is used for adjusting the water content, the bacterial strain and the inoculation amount in the fermentation tank body; the stirring device is used for stirring the feed in the fermentation tank body; the sampling detection device is used for monitoring environmental parameters in the fermentation tank body; the control device is used for receiving the environmental parameter data and controlling the starting and stopping of the bacterial liquid spraying device and/or the stirring device.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the bacterial liquid spraying device is arranged at the upper part of the fermentation tank body and comprises a plurality of bacterial liquid nozzles, the bacterial liquid nozzles are circumferentially arranged on the inner side wall of the fermentation tank body, and the bacterial liquid nozzles spray into the fermentation tank body.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the stirring device comprises a driving motor and a plurality of stirring blades, and a rotating shaft of the driving motor is connected with a rotating shaft; the rotation shaft is penetrated in the middle of the fermentation tank body, a plurality of stirring blades are arranged along the length direction of the rotation shaft, and the stirring blades rotate along with the rotation shaft.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the intelligent mulberry leaf feed fermentation device also comprises a temperature regulating device, and the temperature regulating device is connected with the control device;

the temperature regulating device comprises a plurality of coils connected with an external liquid source, the coils are arranged in parallel along the height of the fermentation tank body, the coils are sleeved outside the rotating shaft, and the coils and the stirring blades are arranged alternately.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, each coil is provided with an interface and a plurality of round holes, the interfaces are used for being connected with an external liquid source, and the round holes are used for spraying liquid.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the sampling detection device comprises a sampling device and a detection device;

the sampling device comprises a plurality of supporting rings which are arranged along the height of the fermentation tank body, the supporting rings are horizontally arranged, a truss is erected on the supporting ring at the uppermost part, the middle part of the truss is movably connected with a driving device, two ends of the truss are respectively connected with telescopic rods which can extend downwards, and the end parts of the telescopic rods are provided with suction heads.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the fermentation tank body comprises an outer tank body and an inner tank body, and the inner tank body is arranged in the outer tank body through a plurality of supporting rings.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the telescopic rod comprises an upper telescopic rod and a lower telescopic rod, the upper telescopic rod is fixed on the truss, the lower telescopic rod can extend or retract relative to the upper telescopic rod, and the suction head is arranged at the lower part of the lower telescopic rod.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the control device comprises an indicator lamp, a signal receiver and an intelligent display screen which are connected with each other;

the intelligent display screen is arranged on the front side of the energy storage box, and the signal receiver is arranged outside the energy storage box; the pilot lamp sets up the top of intelligent mulberry leaf fodder fermenting installation.

As an improvement of the technical scheme of the intelligent mulberry leaf feed fermentation device, the top of the fermentation tank body is provided with a cover body, a containing space is formed between the cover body and the fermentation tank body, and an energy storage box is arranged in the containing space;

the cover body is sleeved with a waterproof cover, a solar panel is arranged outside the waterproof cover, and the solar panel is connected with the energy storage box.

The utility model has the beneficial effects that:

1. according to the utility model, the sampling detection device is used for detecting the environmental condition of mulberry leaf fermentation in real time, and the fermentation environment of the mulberry leaf feed is regulated by the control device according to the need under the combined action of the bacterial liquid spraying device and the stirring device, so that the effect of mulberry leaf feed fermentation is further ensured, the full automation of the feed fermentation process is realized, the requirement of manual operation is reduced, and the production efficiency is improved;

2. according to the utility model, intelligent control and automatic operation are realized through the control device, so that full automation of the feed fermentation process is realized, the requirement of manual operation is reduced, and the production efficiency is improved;

3. the utility model is provided with the pH and oxygen detection device, can monitor key parameters in the fermentation process in real time, ensures the suitability of fermentation conditions, and improves the quality and the nutritional value of the feed;

4. according to the utility model, sampling detection is realized through the telescopic rod and the suction head, so that the fermentation process can be known in time, the qualification of the feed is ensured, and the controllability and the safety of production are improved;

5. the solar panel is provided, renewable energy sources are utilized for power supply, dependence on traditional energy sources is reduced, production cost is reduced, and influence on environment is reduced;

6. the intelligent control screen is set so that the operation is simpler and more convenient, and the running state of the device can be easily operated and monitored even for non-professionals.

Drawings

FIG. 1 is a flow chart illustrating the operation of the present utility model;

FIG. 2 is an external construction diagram of the present utility model;

FIG. 3 is an internal block diagram of the present utility model;

fig. 4 is a schematic structural view of a coil in the present utility model.

Reference numerals illustrate: 1-an indicator light; 2-a waterproof cover; a 3-signal receiver; 4-an intelligent control screen; 5-pH and oxygen detection device; 6-fermenting tank body; 7-a bracket; 8-a transmission gear; 9-adapter; 10-horizontal tube; 11-a drive motor; 12-water inlet pipe; 13-ball valve; 14-supporting rods; 15-an energy storage box; 16-solar panel; 17-truss; 18-bacteria liquid nozzle; 19-upper telescopic rod; 20-lower telescopic rod; 21-a suction head; 22-coil pipe; 23-a discharge hole; 24-stirring blades; 25-rotating shaft; 26-a support ring; 27-interface; 28-round holes.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments of the present utility model.

As shown in figures 1 to 3, the intelligent mulberry leaf feed fermentation device comprises a fermentation tank body 6, a bacterial liquid spraying device, a stirring device, a sampling detection device and a control device.

The bacterial liquid spraying device, the sampling detection device and the stirring device are all arranged in the fermentation tank body 6, and the bacterial liquid spraying device, the sampling detection device and the stirring device are respectively connected with the control device;

the bacterial liquid spraying device is used for adjusting the water content, the bacterial strain and the inoculation amount in the fermentation tank body 6; the stirring device is used for stirring the feed in the fermentation tank body 6; the sampling detection device is used for monitoring the environmental parameters in the fermentation tank body 6; the control device is used for receiving the environmental parameter data and controlling the starting and stopping of the bacterial liquid spraying device and/or the stirring device.

Preferably, the bottom of the fermenter 6 is provided with a bracket 7, and the fermenter 6 is supported by the bracket 7 so that the fermenter 6 is spaced from the place to discharge the feed in the fermenter 6 from the discharge port 23.

According to the utility model, under the action of the control device, the spraying of the bacterial liquid spraying device is controlled, the sampling detection device is controlled to regulate the environment in the fermentation tank body 6 or the stirring device is controlled to stir the feed so as to fully ferment the feed, thus realizing full automation of the feed fermentation process, reducing the requirement of manual operation and improving the production efficiency.

In detail, the influencing factors due to the fermentation of the mulberry leaf feed include water content, fermentation strain, inoculum size, fermentation temperature, fermentation time and pH. According to the utility model, under the action of the sampling detection device, the environmental parameter data in the fermentation tank body 6 is obtained in real time, then the bacterial liquid spraying effect is realized through the bacterial liquid spraying device, and the water content, the fermentation strain and the inoculation amount in the fermentation process of the mulberry leaf feed can be adjusted according to the needs; meanwhile, the effect of full fermentation of the mulberry leaf feed is achieved through stirring of the stirring device.

In the utility model, the sampling detection device is used for detecting the environmental condition of mulberry leaf fermentation in real time, and the fermentation environment of the mulberry leaf feed is regulated by the control device according to the need under the combined action of the bacterial liquid spraying device and the stirring device, so that the effect of mulberry leaf feed fermentation is further ensured, the full automation of the feed fermentation process is realized, the requirement of manual operation is reduced, and the production efficiency is improved.

In some embodiments of the present utility model, the bacteria liquid spraying device is disposed at the upper portion of the fermentation tank 6, the bacteria liquid spraying device includes a plurality of bacteria liquid nozzles 18, the plurality of bacteria liquid nozzles 18 are circumferentially disposed on the inner side wall of the fermentation tank 6, and the plurality of bacteria liquid nozzles 18 spray the inside of the fermentation tank 6.

The fungus liquid nozzle 18 is used for spraying fungus liquid, and the fungus liquid can be fungus liquid for fermenting the mulberry leaf feed, and when the mulberry leaf feed is fermented, the fungus liquid of a fermentation strain is added into the mulberry leaf feed, so that the effect of fermenting the mulberry leaf feed can be improved.

In some embodiments of the present utility model, the stirring device includes a driving motor 11 and a plurality of stirring blades 24, wherein a rotating shaft of the driving motor 11 is connected with a rotating shaft 25 through an adapter 9 and a transverse tube 10 to achieve a direction changing effect so as to be connected with the rotating shaft 25; the rotation axis 25 is disposed in the middle of the fermenter 6, and the plurality of stirring blades 24 are disposed along the length direction of the rotation axis 25, and the plurality of stirring blades 24 are rotated along with the rotation axis 25. Further, a transmission gear 8 is further connected to the rotation shaft 25.

In detail, in the utility model, the rotating shaft of the driving motor 11 in the stirring device is connected with the rotating shaft 25 through the adapter 9 and the transverse tube 10, and the transmission gear 8 is further arranged on the rotating shaft 25, so that the stirring blades 24 are driven to rotate, and the contact between the mulberry leaf feed and the air can be increased under the action of the stirring device, so that the mulberry leaf feed can be fermented better.

Wherein the rotary motion of the shaft of the drive motor 11 can be converted into rotary motion on the rotation shaft 25 under the action of the transmission gear 8. Although the shaft of the drive motor 11 may be directly connected to the rotation shaft 25, the presence of the transmission gear 8 may provide further mechanical advantages, such as for example the possibility of adjusting the rotation speed or increasing the torque; the drive gear 8 may change the motion characteristics of the output shaft to better meet the rotational speed and force required by the stirring vane 24.

In some embodiments of the utility model, the intelligent mulberry leaf feed fermentation device further comprises a temperature regulating device, and the temperature regulating device is connected with the control device;

the temperature regulating device comprises a plurality of coils 22 connected with an external liquid source, the coils 22 are arranged in parallel along the height of the fermentation tank body 6, the coils 22 are sleeved outside the rotating shaft 25, and the coils 22 and the stirring blades 24 are arranged alternately.

Further, each coil 22 is provided with an interface 27 and a plurality of round holes 28, the interface 27 is used for being connected with an external liquid source through the water inlet pipe 12, the water inlet pipe 12 is provided with a ball valve 13, and water inlet of the coil 22 is controlled through opening and closing of the ball valve 13.

A plurality of circular holes 28 are used for spraying liquid to adjust the humidity in the fermenter 6. Further, the effect of adjusting the temperature in the fermentation tank body 6 can be achieved by injecting liquids with different temperatures into the coil pipes 22 at different height positions, namely, the temperature and humidity environment parameters in the fermentation tank body 6 can be adjusted according to the requirements, namely, in the utility model, the coil pipes can not only achieve the effect of adjusting the humidity of the fermentation tank body 6 by spraying the liquids, but also can achieve the effect of adjusting the temperature in the fermentation tank body 6 by injecting the liquids with different temperatures into the coil pipes 22, and the two are matched with each other to optimize the fermentation conditions in the fermentation tank body 6.

In some embodiments of the utility model, the sampling detection device comprises a sampling device and a detection device; the sampling device comprises a plurality of support rings 26 which are arranged along the height of the fermentation tank body 6, the support rings 26 are horizontally arranged, a truss 17 is erected on the uppermost support ring 26, the middle part of the truss 17 is movably connected with a driving device, two ends of the truss 17 are respectively connected with telescopic rods which can extend downwards, and the end parts of the telescopic rods are provided with suction heads 21.

In detail, in the present embodiment, the sampling detection is performed by a telescopic rod including an upper telescopic rod 19 and a lower telescopic rod 20, which can be adjusted according to the actual sampling depth. Because the end of the lower telescopic rod 20 is provided with the suction head 21, under the combined action of the telescopic rod and the suction head 21, the sampling detection effect is realized, so that the fermentation process can be known in time, the qualification of the feed is ensured, and the controllability and the safety of production are improved.

In addition, a driving device is movably connected with the middle part of the truss 17. In detail, one end of the rotating shaft 25 in the driving device is movably connected with the truss 17, and one end of the rotating shaft 25 is fixed through the truss 17, but the rotation of the rotating shaft 25 does not drive the rotation of the truss 17, so that the effect of fixing the rotating shaft 25 is realized, and the shaking effect of the rotating shaft 25 in the fermentation tank body 6 is avoided.

In some embodiments of the present utility model, the detecting device comprises a pH and oxygen detecting device 5 disposed in the middle of the fermentation tank 6, where the pH and oxygen detecting device 5 is used to detect the pH value and oxygen content in the fermentation tank 6.

In some embodiments of the utility model, the control device comprises an indicator light 1, a signal receiver 3 and an intelligent display screen which are connected with each other; the intelligent display screen is arranged on the front side of the energy storage box 15, and the signal receiver 3 is arranged outside the energy storage box 15; the pilot lamp 1 sets up at intelligent mulberry leaf fodder fermenting installation's top.

When the intelligent fermentation device is used, the start and stop of different devices can be controlled through the intelligent display screen, the environment data in the fermentation tank body 6 sent by the sampling detection device can be received through the mutual matching of the intelligent display screen and the signal receiver 3, and then the environment parameters in the fermentation tank body 6 can be adjusted, so that mulberry leaf feed can be fermented better. In addition, by matching with the action of the indicator lamp 1, the situation of the fermentation process can be conveniently known by a worker, for example, the indicator lamp 1 has different flashing colors in different running states, or whether the utility model has running faults can be known through the indicator lamp 1.

In some embodiments of the utility model, the top of the fermentation tank body 6 is provided with a cover body, a containing space is formed between the cover body and the fermentation tank body 6, and an energy storage tank 15 is arranged in the containing space; the cover body is sleeved with a waterproof cover 2, a solar panel 16 is arranged outside the waterproof cover 2, and the solar panel 16 is connected with an energy storage box 15. The solar panel 16 is provided, and renewable energy sources are utilized to supply power, so that the dependence on traditional energy sources is reduced, the production cost is reduced, and the influence on the environment is reduced. The energy storage tank 15 is used for storing energy received by the solar panel 16, and can convert solar energy into electric energy through an energy converter to supply power for the whole solar panel.

Preferably, the cover body is detachably connected with the fermentation tank body 6 through the support rod 14, the support rod 14 not only can be used for connecting the rod body with the fermentation tank body 6, but also can form a containing space through the support of the support rod 14 when the support rod 14 is in a state of supporting the cover body; since the supporting rod 14 is detachably connected with the cover body and the fermentation tank body 6, the supporting rod 14 can be mounted or dismounted according to the requirement.

The working flow of the utility model is as follows:

the utility model is started, at this time, the indicator lamp 1 presents the first light effect, the utility model carries on self-cleaning, at this time the ball valve 13 is opened, the water inlet pipe 12 injects the water source to the coil pipe 22;

meanwhile, a plurality of bacteria liquid nozzles 18 start to spray, and when the water quantity in the fermentation tank body 6 reaches the standard, the driving motor 11 drives the driving gear 8 to drive the stirring blades 24 arranged on the rotating shaft 25 to stir; after stirring for a certain time, the discharge hole 23 is opened to discharge the water in the fermentation tank body 6, and at this time, the indicator lamp 1 is turned off.

The mulberry leaf fermentation raw material is put into the fermentation tank body 6 from the top, the supporting rod 14 is removed, then the indicator lamp 1, the waterproof cover 2, the solar panel 16 and the signal receiver 3 above are removed, and the raw material is reduced after being injected.

The intelligent control screen 4 is used for setting relevant technological parameters of mulberry leaf fermentation, the control device is used for starting the utility model after the setting is finished, meanwhile, the control device is used for controlling the bacterial liquid spraying device and the stirring device to operate, the pH and oxygen detection device 5 and the sampling device are used for detecting whether the conditions in the fermentation process are normal or not, and the second effect of the indicator lamp 1 is displayed, so that a worker can know whether the fermentation process is normal or not.

The indicator light 1 comprises two lamps with two colors, wherein the first effect is that the two colors flash alternately, and the second effect is that the single color is on.

Detecting whether the condition is normal or not in the fermentation process, if the condition is normal, finishing the fermentation, lighting the indicator light 1 to a first color (taking green as an example), and discharging the fermented mulberry leaf feed from the discharge hole 23; if the fermentation process is abnormal, the indicator light 1 is lighted with a second color (red for example).

When the sampling detection is carried out, the lower telescopic rod 20 is especially extended or retracted relative to the upper telescopic rod 19, the lower end of the lower telescopic rod 20 is provided with a suction port, the suction port can be adjusted according to the actual sampling depth, and sampling is realized through the suction port, so that a worker can obtain a sample in the fermentation process to know the fermentation condition, and the worker can adjust the operation of the bacterial liquid spraying device and the stirring device according to the fermentation condition so as to better adjust the operation of meeting the fermentation of mulberry leaf feed.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (10)

1. An intelligent mulberry leaf feed fermentation device comprises a fermentation tank body and is characterized by further comprising a bacterial liquid spraying device, a stirring device, a sampling detection device and a control device;

the bacterial liquid spraying device, the sampling detection device and the stirring device are all arranged in the fermentation tank body, and the bacterial liquid spraying device, the sampling detection device and the stirring device are respectively connected with the control device;

the bacterial liquid spraying device is used for adjusting the water content, the bacterial strain and the inoculation amount in the fermentation tank body; the stirring device is used for stirring the feed in the fermentation tank body; the sampling detection device is used for monitoring environmental parameters in the fermentation tank body; the control device is used for receiving the environmental parameter data and controlling the starting and stopping of the bacterial liquid spraying device and/or the stirring device.

2. An intelligent mulberry leaf feed fermentation device according to claim 1, wherein the bacteria liquid spraying device is arranged on the upper portion of the fermentation tank body, the bacteria liquid spraying device comprises a plurality of bacteria liquid nozzles, the bacteria liquid nozzles are circumferentially arranged on the inner side wall of the fermentation tank body, and the bacteria liquid nozzles spray the inside of the fermentation tank body.

3. An intelligent mulberry leaf feed fermentation device according to claim 1, wherein the stirring device comprises a driving motor and a plurality of stirring blades, and a rotating shaft of the driving motor is connected with a rotating shaft; the rotation shaft is penetrated in the middle of the fermentation tank body, a plurality of stirring blades are arranged along the length direction of the rotation shaft, and the stirring blades rotate along with the rotation shaft.

4. An intelligent mulberry leaf feed fermentation device according to claim 3, further comprising a temperature regulating device, wherein the temperature regulating device is connected with the control device;

the temperature regulating device comprises a plurality of coils connected with an external liquid source, the coils are arranged in parallel along the height of the fermentation tank body, the coils are sleeved outside the rotating shaft, and the coils and the stirring blades are arranged alternately.

5. An intelligent mulberry leaf feed fermentation device according to claim 4, wherein each coil is provided with an interface for connection with an external liquid source and a plurality of round holes for spraying liquid.

6. An intelligent mulberry leaf feed fermentation device according to claim 1, wherein the sampling detection device comprises a sampling device and a detection device;

the sampling device comprises a plurality of supporting rings which are arranged along the height of the fermentation tank body, the supporting rings are horizontally arranged, a truss is erected on the supporting ring at the uppermost part, the middle part of the truss is movably connected with a driving device, two ends of the truss are respectively connected with telescopic rods which can extend downwards, and the end parts of the telescopic rods are provided with suction heads.

7. An intelligent mulberry leaf feed fermentation apparatus as claimed in claim 6 wherein the fermentation tank comprises an outer tank and an inner tank, the inner tank being disposed in the outer tank by a plurality of support rings.

8. An intelligent mulberry leaf feed fermenting apparatus according to claim 6, wherein the telescopic rod comprises an upper telescopic rod and a lower telescopic rod, the upper telescopic rod is fixed on the truss, the lower telescopic rod can extend or retract relative to the upper telescopic rod, and the suction head is arranged at the lower part of the lower telescopic rod.

9. An intelligent mulberry leaf feed fermentation device according to claim 6, wherein the control device comprises an indicator light, a signal receiver and an intelligent display screen which are connected with each other;

the intelligent display screen is arranged on the front side of the energy storage box, and the signal receiver is arranged outside the energy storage box; the pilot lamp sets up the top of intelligent mulberry leaf fodder fermenting installation.

10. An intelligent mulberry leaf feed fermentation device according to claim 9, wherein a cover body is arranged at the top of the fermentation tank body, a containing space is formed between the cover body and the fermentation tank body, and an energy storage box is arranged in the containing space;

the cover body is sleeved with a waterproof cover, a solar panel is arranged outside the waterproof cover, and the solar panel is connected with the energy storage box.