CN220846083U

CN220846083U - Microbial fertilizer fermentation tank

Info

Publication number: CN220846083U
Application number: CN202322399077.8U
Authority: CN
Inventors: 盛秀香
Original assignee: Shenzhen Longzu Biotechnology Environmental Protection Co ltd
Current assignee: Shenzhen Longzu Biotechnology Environmental Protection Co ltd
Priority date: 2023-09-05
Filing date: 2023-09-05
Publication date: 2024-04-26
Anticipated expiration: 2033-09-05

Abstract

The utility model provides a microbial bacterial manure fermentation tank, which relates to the technical field of microbial bacterial manure and comprises a rack member and a mixing mechanism, wherein a container assembly sleeved with bolts is arranged on the inner side of the rack member, a feeding part connected in a sleeved mode is arranged on one side above the container assembly, the mixing mechanism sleeved with bolts is arranged on the inner side of the container assembly, and the mixing mechanism comprises a sleeve shaft base; the utility model mainly utilizes the mixing mechanism arranged in the tank body, and drives the gearbox body to rotate through the output power of the second motor, so that the rotating rod and the stirring sheet mix, crush and stir fermentation substances in the tank body, and because the stirring sheets are in a fan-shaped blade-shaped structure and are distributed in parallel by the rotating rod, the operation can be performed at any height in the tank body during rotation, thereby avoiding the fault occurrence of incapability of rotating, lifting and adjusting caused by long-time use of a threaded rod to block impurities.

Description

Microbial fertilizer fermentation tank

Technical Field

The utility model relates to the technical field of microbial fertilizers, in particular to a microbial fertilizer fermentation tank.

Background

The microbial fertilizer fermentation tank is a production fermentation device of microbial fertilizers, fermentation is carried out in the fermentation tank under the conditions of proper temperature, oxygen content, humidity and pH value after the culture medium is inoculated by the strain, and the full mixing of the culture medium and the strain, the creation of related fermentation conditions and the maintenance of the fermentation conditions have direct effects on the fermentation effect of the microbial fertilizers in the whole process.

When the existing fermentation tank is used, materials are generally uniformly placed in a sealed tank body for storage, so that the fermentation effect is achieved, as disclosed in application number CN202020470448.0, the microbial fertilizer fermentation tank belongs to the technical field of fermentation tanks and comprises a tank body, a motor is fixedly installed at the top end of the tank body, the output end of the motor is fixedly connected with a threaded rod, one end of the threaded rod is inserted into the threaded hole, the threaded hole is formed in the threaded block, and two sides of the threaded block are connected with rotating rods in an interference manner; however, in the above technology, after long-time use, the threaded rod can block more fermentation substances, so that the whole height cannot be adjusted in a lifting manner, and therefore, the utility model provides a microbial fertilizer fermentation tank to solve the problems in the prior art.

Disclosure of utility model

According to the microbial fertilizer fermentation tank, the mixing mechanism is arranged in the tank body, and the transmission box body is driven to rotate by the output power of the second motor, so that the rotating rods and the stirring blades mix, crush and stir fermentation substances in the tank body, and the stirring blades are in a fan-shaped blade-shaped structure due to the fact that the rotating rods are distributed in parallel in multiple groups, so that when the microbial fertilizer fermentation tank rotates, the microbial fertilizer fermentation tank can operate at any height in the tank body, and the problem that rotation, lifting and adjustment cannot be performed due to the fact that a threaded rod is blocked by impurities for a long time is avoided.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the microbial bacterial manure fermentation tank comprises a rack member and a mixing mechanism, wherein a container assembly sleeved with bolts is arranged on the inner side of the rack member, a feeding part connected in a sleeved mode is arranged on one side above the container assembly, and the mixing mechanism sleeved with bolts is arranged on the inner side of the container assembly;

The mixing mechanism comprises a sleeve shaft base, a gearbox, a second motor, a rotating rod and stirring blades, wherein the sleeve shaft base is arranged on the top side of the container assembly, the gearbox connected with the output end of the second motor is arranged above the sleeve shaft base, the output end of the sleeve shaft base penetrates through the container assembly to be connected with the rotating rod, and the stirring blades are arranged on the outer side of the rotating rod.

In a preferred embodiment of the utility model, the stirring blades are distributed in parallel in a plurality of groups by the central axis of the rotating rod, and the stirring blades are in a fan-shaped blade structure.

As a preferred embodiment of the utility model, the rack member comprises a cushion block, a lifting frame and a sleeve base plate, wherein the top side of the cushion block is connected with the sleeve base plate through a lifting frame bolt, the container assembly comprises an assembly disc, a tank body, a detector, a sieve plate, a pneumatic piston, a discharging pipe, a driving motor, a crushing cutter group and a control panel, the tank body is connected with the inner side of the sleeve base plate through the assembly disc bolt, and the sieve plate for installing the detector is arranged on the inner side of the tank body.

As a preferred implementation mode of the utility model, a discharging pipe provided with a pneumatic piston is arranged at the bottom of the tank body, a crushing cutter set connected with the output end of a driving motor is arranged at the inner side below the discharging pipe, and a control panel is arranged at one side of the tank body.

As a preferred embodiment of the utility model, the feeding component comprises a feeding pipe, a sealing base, a first motor, a screw rod, a sleeve, a pneumatic valve plug and a water inlet valve, wherein the feeding pipe is arranged on one side above the tank body, one end of the feeding pipe is provided with the sealing base for installing the first motor, and the output end of the first motor penetrates through the sealing base and is connected with the screw rod.

As a preferable implementation mode of the utility model, a sleeve pipe provided with a pneumatic valve plug is arranged above the feeding pipe, and a water inlet valve connected in a sleeved mode is arranged on one side of the sleeve pipe.

The beneficial effects of the utility model are as follows:

The utility model mainly utilizes the mixing mechanism arranged in the tank body, and drives the gearbox body to rotate through the output power of the second motor, so that the rotating rod and the stirring sheet mix, crush and stir fermentation substances in the tank body, and because the stirring sheets are in a fan-shaped blade-shaped structure and are distributed in parallel by the rotating rod, the operation can be performed at any height in the tank body during rotation, thereby avoiding the fault occurrence of incapability of rotating, lifting and adjusting caused by long-time use of a threaded rod to block impurities.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic cross-sectional perspective view of a container assembly according to the present utility model;

Fig. 4 is a schematic perspective view of a feeding member of the present utility model.

Wherein: 1. a gantry member; 101. a cushion block; 102. raising the rack; 103. a cover substrate; 2. a container assembly; 201. a mounting plate; 202. a tank body; 203. a detector; 204. a sieve plate; 205. a pneumatic piston; 206. a discharge pipe; 207. a driving motor; 208. a crushing knife group; 209. a control panel; 3. a feed member; 301. a feed pipe; 302. a seal base; 303. a first motor; 304. a screw rod; 305. a sleeve; 306. a pneumatic valve plug; 307. a water inlet valve; 4. a mixing mechanism; 401. a sleeve shaft base; 402. a gearbox; 403. a second motor; 404. a rotating rod; 405. stirring plate.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to the embodiment shown in fig. 1-4, a microbial bacterial manure fermentation tank is provided, which comprises a rack member 1 and a mixing mechanism 4, wherein a container assembly 2 sleeved by bolts is arranged on the inner side of the rack member 1, a feeding part 3 connected in a sleeved mode is arranged on one side above the container assembly 2, and the mixing mechanism 4 sleeved by bolts is arranged on the inner side of the container assembly 2;

The mixing mechanism 4 comprises a sleeve base 401, a gearbox 402, a second motor 403, a rotating rod 404 and a stirring sheet 405, wherein the sleeve base 401 is arranged on the top side of the container assembly 2, the gearbox 402 connected with the output end of the second motor 403 is arranged above the sleeve base 401, the output end of the sleeve base 401 penetrates through the container assembly 2 and is connected with the rotating rod 404, and the stirring sheet 405 is arranged on the outer side of the rotating rod 404.

The stirring blades 405 are arranged in parallel with the central axis of the rotating rod 404, and the stirring blades 405 are in a fan-shaped blade structure.

In this embodiment, the output end of the second motor 403 is driven to operate by the output power of the second motor 403, so that the output end of the second motor 403 drives the input end of the gearbox 402 to operate, and the input end of the gearbox 402 agitates and pulverizes the material in the tank 202 through the rotating rod 404 and the agitating blade 405.

The rack member 1 comprises a cushion block 101, a lifting frame 102 and a sleeve base plate 103, wherein the top side of the cushion block 101 is connected with the sleeve base plate 103 through a bolt of the lifting frame 102, the container assembly 2 comprises an assembly disc 201, a tank body 202, a detector 203, a sieve tray 204, a pneumatic piston 205, a discharge pipe 206, a driving motor 207, a crushing cutter group 208 and a control panel 209, the tank body 202 is connected with the inner side of the sleeve base plate 103 through the bolt of the assembly disc 201, and the sieve tray 204 for installing the detector 203 is arranged on the inner side of the tank body 202.

In this embodiment, the cover substrate 103 is supported by the lifting frame 102, the container assembly 2 is assembled and fixed, and after crushing and stirring, fermentation is performed, so that the fermentation material in the tank 202 is detected by the detector 203, and the detected data is fed back through the control panel 209 on one side of the tank 202.

The bottom of the tank 202 is provided with a discharging pipe 206 for installing a pneumatic piston 205, the lower inner side of the discharging pipe 206 is provided with a crushing cutter group 208 connected with the output end of a driving motor 207, and one side of the tank 202 is provided with a control panel 209.

In this embodiment, when the fermentation is completed and the fermentation is required to be performed, the tank 202 is stirred by using the mixing mechanism 4, so that the driving motor 207 outputs power to drive the crushing cutter set 208 to rotate at a high speed, and the pneumatic piston 205 at the inner side of the discharging pipe 206 is opened, so that the fermented material is carried by the mixing mechanism 4 and the discharging pipe 206.

The feeding component 3 comprises a feeding pipe 301, a sealing base 302, a first motor 303, a screw rod 304, a sleeve 305, a pneumatic valve plug 306 and a water inlet valve 307, wherein the feeding pipe 301 is arranged on one side above the tank 202, one end of the feeding pipe 301 is provided with the sealing base 302 provided with the first motor 303, and the output end of the first motor 303 penetrates through the sealing base 302 and is connected with the screw rod 304.

In this embodiment, when in use, the output end of the first motor 303 is driven to operate by the output power of the first motor 303, so that the output end of the first motor 303 drives the screw rod 304 connected to the inner side of the sealing base 302 to perform screw rotation.

A sleeve 305 provided with a pneumatic valve plug 306 is arranged above the feeding pipe 301, and a water inlet valve 307 connected in a sleeved mode is arranged on one side of the sleeve 305.

In this embodiment, when the screw rod 304 rotates helically, the pneumatic valve plug 306 is opened, the material to be input is put into the sleeve 305, the material is input into the tank 202 through the rotation of the screw rod 304, and after a fixed amount of purified water is input by matching with the water inlet valve 307, the water inlet valve 307 and the pneumatic valve plug 306 are closed.

The working principle of the microbial fertilizer fermentation tank is as follows: during the use, output through first motor 303 power drive first motor 303's output carries out the operation, let the output of first motor 303 drive the screw rod 304 that the interior side of sealed base 302 is connected carry out the spiral rotation, when screw rod 304 carries out the spiral rotation, open pneumatic valve plug 306, put into sleeve pipe 305 to the material that will need input, through the rotation input of screw rod 304 into jar body 202, after the pure water of water intaking valve 307 input ration of cooperation again, close water intaking valve 307 and pneumatic valve plug 306, then use second motor 403 output power drive second motor 403 output to carry out the operation, let second motor 403 output drive gearbox 402 input carry out the operation, so gearbox 402 input stirs and smashes the material of jar body 202 inside through bull stick 404 and stirring piece 405, after smashing stirring, ferment, the fermentation material that is inside to jar body 202 through detector 203 reaches the effect of detecting, the data that detects is fed back through the control panel 209 of jar body 202 side, when fermentation is finished, when need carry out the input, use mixing mechanism 4 carries out motor 202 to stir, so that the output of motor 207 carries out the high-speed drive knife set 206 and the output is carried out the output through the high-speed drive device 206, the output of the side of the output device is opened, the piston 206 is carried out the output through the cooperation of the device is carried out the output device.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a microorganism bacterial manure fermentation cylinder, includes rack component (1) and mixing mechanism (4), its characterized in that: the inner side of the rack component (1) is provided with a container component (2) sleeved by bolts, a feeding component (3) connected in a sleeved mode is arranged on one side above the container component (2), and the inner side of the container component (2) is provided with a mixing mechanism (4) sleeved by bolts;

The mixing mechanism (4) comprises a sleeve base (401), a gearbox (402), a second motor (403), a rotating rod (404) and a stirring sheet (405), wherein the sleeve base (401) is arranged on the top side of the container assembly (2), the gearbox (402) connected with the output end of the second motor (403) is arranged above the sleeve base (401), the output end of the sleeve base (401) penetrates through the container assembly (2) and is connected with the rotating rod (404), and the stirring sheet (405) is arranged on the outer side of the rotating rod (404).

2. The microbial fertilizer fermenter according to claim 1, wherein: the stirring blades (405) are distributed in parallel in a plurality of groups by the central axis of the rotating rod (404), and the stirring blades (405) are in a fan-shaped blade structure.

3. The microbial fertilizer fermenter according to claim 1, wherein: the rack component (1) comprises a cushion block (101), a lifting frame (102) and a sleeve base plate (103), wherein the top side of the cushion block (101) is connected with the sleeve base plate (103) through a lifting frame (102) bolt, the container component (2) comprises an assembly disc (201), a tank body (202), a detector (203), a sieve pore plate (204), a pneumatic piston (205), a discharging pipe (206), a driving motor (207), a crushing cutter group (208) and a control panel (209), the tank body (202) is connected with the inner side of the sleeve base plate (103) through an assembly disc (201) bolt, and the sieve pore plate (204) for installing the detector (203) is arranged on the inner side of the tank body (202).

4. A microbial fertilizer fermenter according to claim 3, wherein: the bottom of the tank body (202) is provided with a discharging pipe (206) for installing a pneumatic piston (205), the inner side below the discharging pipe (206) is provided with a crushing cutter group (208) connected with the output end of a driving motor (207), and one side of the tank body (202) is provided with a control panel (209).

5. A microbial fertilizer fermenter according to claim 3, wherein: the feeding component (3) comprises a feeding pipe (301), a sealing base (302), a first motor (303), a screw rod (304), a sleeve (305), a pneumatic valve plug (306) and a water inlet valve (307), wherein the feeding pipe (301) is arranged on one side above the tank body (202), one end of the feeding pipe (301) is provided with the sealing base (302) for installing the first motor (303), and the output end of the first motor (303) penetrates through the sealing base (302) to be connected with the screw rod (304).

6. The microbial fertilizer fermenter according to claim 5, wherein: a sleeve (305) provided with a pneumatic valve plug (306) is arranged above the feeding pipe (301), and a water inlet valve (307) connected in a sleeved mode is arranged on one side of the sleeve (305).