CN214457869U - Microbial powder production equipment - Google Patents

Abstract

The utility model provides a microbial powder production device, wherein the bottom of a fermentation tank is connected with an adsorption container, a moving trolley is arranged in the adsorption container, and an adsorbent receiving box is arranged above the moving trolley; the top of the adsorption container is provided with a lifting device, the bottom of the lifting device is provided with a stirring motor, the stirring motor is connected with a stirring paddle extending downwards, and the stirring paddle is positioned above the adsorbent bearing box; the sorbent supply apparatus includes an endless sorbent conveyor belt driven by at least two rollers. The application microorganism powder production facility can realize flow, industrial production, and this application can also cooperate automation or remote control technique to realize automation mechanized operation or remote operation, improve work efficiency.

Description

Microbial powder production equipment

Technical Field

The utility model relates to a microbial product production facility especially relates to an equipment of production microbial powder goods.

Background

The microbial agent is a live bacterial agent prepared by processing a microbial fermentation broth absorbed by a porous substance after industrial fermentation and propagation.

The agricultural microbial agent can be properly used for improving the yield of agricultural products, improving the quality of the agricultural products, reducing the using amount of chemical fertilizers, reducing the cost, improving the soil and protecting the ecological environment. For example, the microbial agent is used for seed dressing or root dipping, and has the effects of directly or indirectly improving soil, restoring land capability, preventing soil-borne diseases, maintaining balance of rhizosphere microflora, degrading toxic substances and the like. Compared with the traditional chemical pesticides and fertilizers, the microbial inoculum has small toxicity and is more environment-friendly, so the microbial inoculum becomes an important component of modern agriculture.

With the rapid development of modern agriculture and the great increase of the demand of people for organic food, the application of microorganisms in agriculture is more and more extensive, and therefore, the research of equipment for producing microbial inoculum is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem of microbial powder production, the application provides a microbial powder production device.

The microbial powder production equipment comprises a fermentation tank, adsorbent supply equipment and an adsorption container, wherein the bottom of the fermentation tank is connected with a first end of a fermentation liquor discharge pipeline; the adsorption container is arranged in a closed manner, a moving trolley is arranged in the adsorption container, an adsorbent receiving box is arranged above the moving trolley, and the second end of the fermentation liquor discharge pipeline extends into the adsorption container and then is arranged above the adsorbent receiving box; an adsorbent feeding pipe is externally connected to the side wall of the adsorption container, the top of the adsorbent feeding pipe is connected with an adsorbent feeding hopper, and the bottom end of the adsorbent feeding pipe enters the adsorption container and then is arranged above the adsorbent bearing box; the top of the adsorption container is provided with a lifting device, the bottom of the lifting device is provided with a stirring motor, the stirring motor is connected with a stirring paddle extending downwards, and the stirring paddle is positioned above the adsorbent bearing box; the moving trolley comprises a roller and a trolley plate above the roller, and the adsorbent receiving box is positioned above the trolley plate; the adsorbent providing equipment comprises an adsorbent conveying belt, the adsorbent conveying belt is an annular belt and is driven by at least two rollers, one of the rollers is positioned above an adsorbent feeding hopper, and the adsorbent conveying belt surrounds the rollers to form a closed-loop structure; the side wall of the adsorption container is provided with a sealing door capable of being opened and closed.

In a preferred embodiment, the adsorbent supplying apparatus further comprises a weighing device including a bearing plate on which the pressure sensor is mounted.

Preferably, at least a part of the bearing plate is located above the adsorbent conveying belt, the weighing device further comprises a fixed base, the fixed base is provided with a rotating shaft and a cylinder, the cylinder is located behind the rotating shaft (i.e. facing away from the conveying direction of the adsorbent conveying belt), the bearing plate and the fixed base form two connecting parts, the connecting part in the front (i.e. facing towards the conveying direction of the adsorbent conveying belt) is connected through the rotating shaft, and the connecting part in the back (i.e. facing away from the conveying direction of the adsorbent conveying belt) is connected through the cylinder; the cylinder stiff end is installed at the bearing plate lower surface, and the cylinder motion end is installed on fixed baseplate through rotating member.

In a preferred embodiment, the microbial powder production equipment further comprises conveying equipment and crushing equipment; the sealing door is externally provided with a platform for the worker moving trolley to stay, the conveying equipment is a screw conveyer, the screw conveyer comprises a screw cylinder, a rotating screw rod in the screw cylinder and a driving motor for driving the rotating screw rod, one end of the screw cylinder, which is provided with the driving motor, is a feeding end, the feeding hopper is arranged, and the other end of the screw cylinder is a discharging port; the rotary screw extends from the feed end to the discharge port; the feed hopper of the screw conveyor is not higher than the platform; the crushing equipment comprises a cavity and a crushing component in the cavity, and the discharge port is positioned at the top of the cavity.

More preferably, the screw conveyor is arranged obliquely, and the discharge port is higher than the feed hopper.

In a more preferred embodiment, the screw barrel is provided with a drain hole, and the drain hole is positioned at the feeding end; the drain hole is covered with an openable sealing cover.

Wherein the pulverizing member may be a gear, a rotary blade, a stirring blade, a vibration cutter, or the like.

In a preferred embodiment, the side walls and the bottom of the comminution apparatus are provided with heating elements. Wherein, the heating component can be one or two selected from an electric heating metal and a heating fluid pipeline.

In another preferred embodiment, the microbial powder production equipment can further comprise a drying device, a conveying device and a crushing device, wherein the drying device comprises a drying chamber, the drying chamber is provided with a material inlet and a material outlet, the conveying device comprises a first screw conveyor and a second screw conveyor, the first screw conveyor and the second screw conveyor respectively comprise a screw cylinder, a rotating screw in the screw cylinder and a driving motor for driving the rotating screw, one end of the screw cylinder, which is provided with the driving motor, is a feeding end, and is provided with a feeding hopper, and the other end of the screw cylinder is a discharging port; the rotary screw extends from the feed end to the discharge port; the feed hopper of the first screw conveyor is not higher than the height of the platform, and the discharge port of the first screw conveyor is positioned at the material inlet of the drying chamber; crushing apparatus includes cavity and the crushing unit in the cavity, and the second screw conveyer feeder hopper is located the material export of drying chamber, and the discharge gate of second screw conveyer is located crushing apparatus's cavity top.

More preferably, the first screw conveyor is arranged obliquely, and the discharge port is higher than the feed hopper. In a more preferred embodiment, the screw cylinder of the first screw conveyor is provided with a drain hole, and the drain hole is positioned at the feeding end; the drain hole is covered with an openable sealing cover.

In a preferred embodiment, the lifting device may be an air cylinder, or a lifting screw rod or other device capable of driving the stirring motor to lift in the prior art.

In a preferred embodiment, the second end of the fermentation liquid discharge pipe is provided with a spray head facing the adsorbent receiving tank.

In a preferred embodiment, the fermentation broth discharge line is provided with a flow control valve, or a metering pump.

In a preferred embodiment, the side walls and the bottom plate of the adsorbent receiving box are provided with heating devices, preferably electric heating plates.

In a preferred embodiment, the upper surface of the vehicle plate of the moving trolley is provided with a second rotating shaft and a second air cylinder, the moving end of the second air cylinder is connected to the vehicle plate through a third rotating shaft, one end of the adsorbent receiving box is provided with an inserting plate, one end of the adsorbent receiving box provided with the inserting plate is connected with the vehicle plate through the second rotating shaft, and the fixed end of the second air cylinder is arranged on the lower surface of the bottom of the adsorbent receiving box.

In a preferred embodiment, the adsorbent holding box is provided with one end of an inserting plate, slots are oppositely arranged on two sides of the inserting plate, and the inner surface of the opening of each slot is in sealing contact with the outer surface of the inserting plate; the inserting plate is provided with a rack, the inserting groove is internally provided with a rotating gear, and the rack is meshed with the rotating gear.

In another preferred embodiment, the adsorbent holding box is provided with one end of an inserting plate, slots are oppositely arranged on two sides of the inserting plate, and the inner surface of the opening of each slot is in sealing contact with the outer surface of the inserting plate; the flashboard is higher than the slot, the top of the slot is provided with a rotating gear, the flashboard is provided with a rack, and the rack is meshed with the rotating gear.

More preferably, the rotating gear can be driven by a gear motor, or a rocking handle can be arranged, for example, the rocking handle can penetrate out of the side wall of the adsorbent receiving box from the bottom of the slot.

The application microorganism powder production facility can realize flow, industrial production, and this application can also cooperate automation or remote control technique to realize automation mechanized operation or remote operation, improve work efficiency.

Drawings

FIG. 1 is a schematic process flow diagram of a microbial powder production facility of the present application;

FIG. 2 is a schematic process flow diagram of another microbial powder production apparatus;

FIG. 3 is a schematic sectional view of a fermenter and an adsorption vessel in the microbial powder production apparatus of the present application;

FIG. 4 is a schematic view of the structure of an adsorbent receiving box in the microbial powder production apparatus of the present application;

FIG. 5 is a schematic view showing a simplified structure of an adsorbent supplying apparatus in the microbial powder production apparatus of the present application;

FIG. 6 is a schematic view of the structure of an inclined screw conveyer in the microbial powder production equipment of the present application.

Detailed Description

Example 1

Referring to fig. 3 and 5, the apparatus for producing microbial powder of the present embodiment includes a fermentation tank 1, an adsorbent providing apparatus, and an adsorption container 2, wherein the bottom of the fermentation tank 1 is connected to a first end of a fermentation liquid discharge pipe 11, and a valve 12 is installed on the fermentation liquid discharge pipe 11; the adsorption container 2 is arranged in a closed manner, and a moving trolley is arranged in the adsorption container 2; the side wall of the adsorption container 2 is provided with a sealing door which can be opened and closed and is used for the movement trolley to go in and out.

An adsorbent receiving box 33 is arranged above the moving trolley, and the second end of the fermentation liquor discharge pipeline 11 extends into the adsorption container 2 and then is arranged above the adsorbent receiving box 33; an adsorbent feeding pipe 22 is externally connected to the side wall of the adsorption container 2, the top of the adsorbent feeding pipe 22 is connected with an adsorbent feeding hopper 23, and an expanded horn mouth is formed after the bottom end of the adsorbent feeding pipe 22 enters the adsorption container 2 and is arranged above an adsorbent receiving box 33; the top of the adsorption container 21 is provided with a lifting device, the bottom of the lifting device is provided with a stirring motor, the stirring motor is connected with a stirring paddle, and the stirring paddle is positioned above the adsorbent receiving box 33. The moving trolley comprises rollers 32 and a trolley plate 31 above the rollers, and an adsorbent receiving box 33 is positioned above the trolley plate 32.

Referring to fig. 5, the adsorbent supplying apparatus includes an adsorbent conveying belt 4, the adsorbent conveying belt 4 is an endless belt and is driven by at least two rollers (a first roller 41 and a second roller 42), wherein the first roller 41 is located above the adsorbent hopper 23, and the adsorbent conveying belt 4 forms a closed loop structure around the rollers. At least one of the rollers is driven by a roller driving motor, for example, the second roller 42 is driven to rotate around its central line, so as to drive the adsorbent conveying belt 4 to move towards the adsorbent feeding hopper 23, and the adsorbent on the adsorbent conveying belt 4 is fed above the adsorbent feeding hopper 23.

During operation, elevating gear, agitator motor all can be through manual operation, perhaps also can be through automatic control system, remote control system operation, make agitator motor and stirring rake whereabouts, and the stirring rake falls into adsorbent and holds and connect the case 33 in, and agitator motor drive stirring rake is rotatory. The lifting device can be an air cylinder, and can also be a device which can drive a stirring motor to lift in the prior art such as a lifting screw rod.

The switch of the roller driving motor can be operated manually or can be operated by an automatic control system or a remote control system. The adsorbent falls through the adsorbent hopper 23 and the adsorbent feed tube 22 into the adsorbent receiving tank 33.

The valve 12 of the fermentation broth discharge line 11 is opened, the valve 12 may be a flow control valve or a metering valve, may be a one-way valve, and the valve 12 may be operated manually or may be operated by an automatic control system. The fermentation liquor flows to the upper part of the adsorbent receiving box 33 through the fermentation liquor discharge pipeline 11, a spray head facing the adsorbent receiving box 33 is arranged at the second end of the fermentation liquor discharge pipeline 11, and the fermentation liquor falls into the adsorbent receiving box 33 through the spray head. The fermentation broth can be discharged by gravity, for example, the bottom of the fermentation tank 1 is higher than the top of the adsorbent receiving tank 33, or the valve 12 on the fermentation broth discharge pipe 11 can be a pump, and the fermentation broth is discharged by the power provided by the pump, so that the height difference between the fermentation tank 1 and the adsorbent receiving tank 33 is not limited as much.

Heating devices are arranged in the side wall of the adsorbent receiving box and the bottom plate, and flow into the electric heating sheets. Under the action of the stirring paddle, the adsorbent is fully contacted with the fermentation liquor, the adsorbent adsorbs the fermentation liquor to the required amount, heating is started, the liquid is heated and volatilized under the stirring of the stirring paddle, and the product is dried into powder. Preferably, the adsorption container may be further provided with a negative pressure pump, and the negative pressure pump provides negative pressure to increase the drying speed when heating.

The sealing door can be operated manually or by an automatic control system or a remote control system. After the sealing door is opened, the trolley takes the adsorbent receiving box 33 out.

Example 2

Referring to fig. 5, in this embodiment, the apparatus for producing microbial powder further includes a weighing device, the weighing device includes a bearing plate 5, and a pressure sensor is installed on the bearing plate.

The bearing plate 5 is at least partially located above the adsorbent conveyer belt 4, the weighing device further comprises a fixed base 51, the fixed base 51 is provided with a first rotating shaft 52 and a first air cylinder 53, the first air cylinder 53 is located behind the first rotating shaft 52, the bearing plate 5 and the fixed base 51 form two connecting portions, the front connecting portion is connected through the first rotating shaft 52, and the rear connecting portion is connected through the first air cylinder 53. The moving end of the first cylinder 53 is connected to the fixed base 51 through a rotating member, and the fixed end is generally mounted to the bottom of the bearing plate 5. The first cylinder 53 may be operated manually or may be operated by an automatic control system or a remote control system.

The adsorbent is placed on a bearing plate 5 and weighed by a pressure sensor, which can be implemented using an electronic scale. After weighing is completed, the moving end of the first cylinder 53 extends out, and at the same time, the moving end drives the first cylinder to rotate around the rotating part, so that the rear end of the bearing plate 5 is lifted, a lever is formed by taking the first rotating shaft 52 as a supporting point, the front end of the bearing plate 5 is pressed down, and the adsorbent is poured on the adsorbent conveying belt 4.

Example 3

Referring to fig. 4, similar to the installation manner of the bearing plate 5, the upper surface of the bed 31 of the moving cart is provided with a second rotating shaft 38 and a second cylinder 39, the moving end of the second cylinder 39 is connected to the bed 31 through a third rotating shaft 37, one end (e.g., the end facing the sealing door) of the adsorbent receiving box 33 is provided with an insert plate 34, the adsorbent receiving box 33 is connected to the bed 31 through the second rotating shaft 38 at the end provided with the insert plate 34, and the fixed end of the second cylinder 39 is installed on the lower surface of the bottom of the adsorbent receiving box 33.

The adsorbent receiving box 33 is arranged at one end provided with the inserting plate 34, inserting grooves 35 are oppositely arranged at two sides of the inserting plate 34, and the inner surface of the opening of the inserting groove 35 is in sealing contact with the outer surface of the inserting plate 34; the inserting plate 34 is provided with a rack, the slot 35 is internally provided with a rotating gear 36, and the rack is meshed with the rotating gear.

Or, the adsorbent holding box 33 is provided with a slot 35 at one end of the inserting plate 34, two sides of the inserting plate 34 are oppositely provided with the slot 35, and the inner surface of the opening of the slot 35 is in sealing contact with the outer surface of the inserting plate 34; the inserting plate 34 is higher than the inserting groove 35, the rotating gear 36 is arranged at the top of the inserting groove 35, and the inserting plate 34 is provided with a rack which is meshed with the rotating gear 36.

The rotary gear 36 may be driven by a gear motor, or a rocking handle may be provided, for example, to extend through the side wall of the sorbent receiving chamber from the bottom of the socket.

The gear motor and the second air cylinder can be operated manually, or can be operated by an automatic control system and a remote control system.

After the adsorbent receiving box 33 is discharged by the moving trolley, the end of the adsorbent receiving box 33 provided with the inserting plate 34 is positioned above a packaging device (such as a packaging bag, a packaging mechanism conveying belt and the like), the rotating gear 36 works, the inserting plate is pulled up through the meshing rack, and the powdery product flows out of the adsorbent receiving box 33.

The second cylinder 39 works, the moving end of the second cylinder 39 extends out, and meanwhile, the moving end drives the second cylinder to rotate around the third rotating shaft 37, so that the rear end of the adsorbent receiving box 33 is lifted, a lever is formed by taking the second rotating shaft 38 as a supporting point, the front end of the adsorbent receiving box 33 is pressed downwards, and a product is poured out under the action of gravity.

Example 4

In the above embodiment, the adsorbent receiving box 33 takes into account both the adsorption function and the drying function, and in the drying process, the adsorption process needs to be stopped, so that the drying and pulverizing integrated machine is additionally added in the embodiment, and the adsorbent receiving box 33 can no longer take over the drying function.

Referring to fig. 1 and 6, the microbial powder production equipment of the embodiment further comprises a conveying device and a crushing device; a platform for the moving trolley to stay is arranged outside the sealing door, the conveying equipment is a screw conveyor, the screw conveyor comprises a screw cylinder 61, a rotating screw 62 in the screw cylinder and a driving motor 63 for driving the rotating screw, one end of the screw cylinder 61, which is provided with the driving motor 62, is a feeding end, and is provided with a feeding hopper 64, and the other end of the screw cylinder is a discharging port 65; a rotating screw 62 extends from the feed end to the discharge end; the screw conveyor feed hopper 64 is no higher than the platform height.

The screw cylinder 61 is provided with a drain hole, and the drain hole is positioned at the feed end; the drain hole is covered with an openable sealing cover.

Crushing equipment includes cavity and the crushing part in the cavity, and discharge gate 65 is located the cavity top, wherein, crushing part can be gear, rotary blade, stirring paddle leaf, vibration cutter etc.. Heating parts are installed on the side wall and the bottom of the crushing equipment. Wherein, the heating component can be one or two selected from an electric heating metal and a heating fluid pipeline, thereby forming the drying and crushing integrated machine.

Referring to example 3, the moving cart feeds the product into the screw 61 through the hopper 64, the rotating screw 62 starts to rotate under the driving of the driving motor 63, and the product is conveyed toward the discharge port 65 by the extrusion of the screw and the screw groove. During the extrusion process, the liquid is squeezed out and drained through the drain holes below, and the pretreatment before drying is completed during the conveying process.

As shown in fig. 6, the screw conveyor is disposed obliquely with the discharge port 65 higher than the feed hopper 64. Like this, in transportation process, moist product self gravity and screw thrust act on the product jointly, further improve the extrusion effect, better extrude liquid.

The extruded product is sent into the cavity to be heated, and meanwhile, the crushing work is carried out.

Example 5

Referring to fig. 2, different from embodiment 4, the microbial powder production apparatus of this embodiment further includes a drying device and a pulverizing apparatus, the drying device includes a drying chamber, the drying chamber is provided with a material inlet and a material outlet, the two conveying apparatuses of this embodiment are respectively a first screw conveyor and a second screw conveyor, the first screw conveyor and the second screw conveyor both include a screw barrel, a rotating screw in the screw barrel, and a driving motor for driving the rotating screw, one end of the screw barrel where the driving motor is installed is a feeding end, and is provided with a feeding hopper, and the other end is a discharging port; the rotating screw extends from the feed end to the discharge end.

The first screw conveyor adopts the arrangement mode of the screw conveyor in the embodiment 4, the feed hopper of the first screw conveyor is not higher than the height of the platform, and the discharge port of the first screw conveyor is positioned at the material inlet of the drying chamber; the comminution apparatus comprises a chamber and a comminution member within the chamber.

The feed hopper of the second screw conveyor is positioned at the material outlet of the drying chamber, and the discharge port of the second screw conveyor is positioned at the top of the cavity of the crushing equipment.

The above detailed description of the embodiments of the present invention is only for exemplary purposes, and the present invention is not limited to the above described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (10)

1. Microbial powder production facility, its characterized in that includes: the fermentation tank, the adsorbent providing equipment and the adsorption container, wherein the bottom of the fermentation tank is connected with a first end of a fermentation liquor discharge pipeline; the adsorption container is arranged in a closed manner, a moving trolley is arranged in the adsorption container, an adsorbent receiving box is arranged above the moving trolley, and the second end of the fermentation liquor discharge pipeline extends into the adsorption container and then is arranged above the adsorbent receiving box; an adsorbent feeding pipe is externally connected to the side wall of the adsorption container, the top of the adsorbent feeding pipe is connected with an adsorbent feeding hopper, and the bottom end of the adsorbent feeding pipe enters the adsorption container and then is arranged above the adsorbent bearing box; the top of the adsorption container is provided with a lifting device, the bottom of the lifting device is provided with a stirring motor, the stirring motor is connected with a stirring paddle extending downwards, and the stirring paddle is positioned above the adsorbent bearing box; the moving trolley comprises a roller and a trolley plate above the roller, and the adsorbent receiving box is positioned above the trolley plate; the adsorbent providing equipment comprises an adsorbent conveying belt, the adsorbent conveying belt is an annular belt and is driven by at least two rollers, one of the rollers is positioned above an adsorbent feeding hopper, and the adsorbent conveying belt surrounds the rollers to form a closed-loop structure; the side wall of the adsorption container is provided with a sealing door capable of being opened and closed.

2. A microbial powder production apparatus as claimed in claim 1, wherein the adsorbent supply apparatus further comprises a weighing device, the weighing device comprising a bearing plate, the bearing plate having a pressure sensor mounted thereon.

3. A microbial powder production apparatus as claimed in claim 2, wherein the bearing plate is located at least partially above the adsorbent conveyer belt, the weighing device further comprises a fixed base provided with a rotary shaft and a cylinder located behind the rotary shaft, the bearing plate and the fixed base form two connecting portions, the front connecting portion is connected by the rotary shaft, and the rear connecting portion is connected by the cylinder; the cylinder stiff end is installed at the bearing plate lower surface, and the cylinder motion end is installed on fixed baseplate through rotating member.

4. The microbial powder production equipment as claimed in claim 1, further comprising a first conveying device and a crushing device; the device comprises a sealing door, a first conveying device, a second conveying device and a third conveying device, wherein a platform for a moving trolley to stay is arranged outside the sealing door, the first conveying device is a first screw conveyor, the first screw conveyor comprises a screw cylinder, a rotating screw in the screw cylinder and a driving motor for driving the rotating screw, one end of the screw cylinder, which is provided with the driving motor, is a feeding end, and is provided with a feeding hopper, and the other end of the screw cylinder is a discharging port; the rotary screw extends from the feed end to the discharge port; the feed hopper of the first screw conveyor is not higher than the platform height; the crushing equipment comprises a cavity and a crushing part in the cavity, and the discharge port is positioned at the top of the cavity; heating parts are installed on the side wall and the bottom of the crushing equipment.

5. A microbial powder production apparatus as claimed in claim 4, wherein the first screw conveyor is arranged obliquely, and the discharge port is higher than the feed hopper.

6. The microbial powder production equipment as claimed in claim 4, further comprising a drying device and a second conveying equipment, wherein the drying device comprises a drying chamber, the drying chamber is provided with a material inlet and a material outlet, the second conveying equipment comprises a second screw conveyer, the first screw conveyer and the second screw conveyer respectively comprise a screw cylinder, a rotating screw in the screw cylinder and a driving motor for driving the rotating screw, one end of the screw cylinder, which is provided with the driving motor, is a feeding end, which is provided with a feeding hopper, and the other end of the screw cylinder is a discharging port; the rotary screw extends from the feed end to the discharge port; the discharge hole of the first screw conveyor is positioned at the material inlet of the drying chamber; the feed hopper of the second screw conveyor is positioned at the material outlet of the drying chamber, and the discharge port of the second screw conveyor is positioned at the top of the cavity of the crushing equipment.

7. A microbial powder production apparatus as claimed in claim 1, wherein the carriage plate of the moving trolley is provided with a second rotating shaft and a second cylinder on the upper surface, the moving end of the second cylinder is connected to the carriage plate through a third rotating shaft, one end of the adsorbent receiving box is provided with an inserting plate, one end of the adsorbent receiving box provided with the inserting plate is connected to the carriage plate through the second rotating shaft, and the fixed end of the second cylinder is mounted on the lower surface of the bottom of the adsorbent receiving box.

8. A microbial powder production apparatus as claimed in claim 7, wherein the adsorbent holding box is provided with one end of an insert plate, slots are oppositely arranged at two sides of the insert plate, and the inner surface of the opening of each slot is in sealing contact with the outer surface of the insert plate; the inserting plate is provided with a rack, the inserting groove is internally provided with a rotating gear, and the rack is meshed with the rotating gear.

9. A microbial powder production apparatus as claimed in claim 7, wherein the adsorbent holding box is provided with one end of an insert plate, slots are oppositely arranged at two sides of the insert plate, and the inner surface of the opening of each slot is in sealing contact with the outer surface of the insert plate; the flashboard is higher than the slot, the top of the slot is provided with a rotating gear, the flashboard is provided with a rack, and the rack is meshed with the rotating gear.

10. A microbial powder production apparatus as claimed in claim 1, wherein the second end of the fermentation liquid discharge pipe is provided with a spray nozzle facing the adsorbent receiving tank.

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