CN113480350A

CN113480350A - Production process of microbial organic fertilizer

Info

Publication number: CN113480350A
Application number: CN202110905877.5A
Authority: CN
Inventors: 储娟英
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-09
Filing date: 2021-08-09
Publication date: 2021-10-08

Abstract

The invention discloses microbial organic fertilizer production equipment which comprises an external box body, wherein an inner cavity is arranged in the external box body, a clamping groove is arranged in the external box body and is communicated with the inner cavity, a plurality of abutting blocks are arranged in the clamping groove and the inner cavity in a sliding abutting mode, a placing box body is rotatably arranged in the abutting blocks, a loading inner cavity is arranged in the placing box body, a rotating matching shaft is rotatably arranged in the abutting blocks and is fixed with the placing box body, organic materials needing composting can be placed in the placing box body in advance, then the organic materials are placed in the clamping groove in a stacking mode, and the placing box body needing to be turned can be turned over after the placing box body is lifted and jacked up to achieve the turning process.

Description

Production process of microbial organic fertilizer

Technical Field

The invention relates to the technical field of organic fertilizer production equipment, in particular to microbial organic fertilizer production process equipment.

Background

There are more shortcomings in current equipment, at first often need overturn the fertilizer of compost in microbial organic fertilizer fermentation production process and make the fertilizer fermentation even after realizing the fertilizer upset, the mode that generally adopts at this in-process is the mode that the manual was turned, on the one hand because the process of turning all needs the people to overturn the structure of holding organic fertilizer with hand or instrument, but because the number of piles that the fertilizer placed at the compost in-process is too much, make the personnel more that will turn, make the unable efficient of personnel overturn all fertilizer compost layers and realize the efficient compost, also have the compost structural design that can overturn automatically in the current equipment of on the other hand, but can not realize that each compost layer carries out the function that corresponding high-efficient upset compost structure was realized to overturn one by one.

Disclosure of Invention

The invention aims to provide a microbial organic fertilizer production device, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the microbial organic fertilizer production equipment comprises an external box body, wherein an inner cavity is formed in the external box body, a clamping groove is formed in the external box body and is communicated with the inner cavity, a plurality of abutting blocks are arranged in the clamping groove and the inner cavity in a sliding abutting mode, a placing box body is rotatably arranged in the abutting blocks, a loading inner cavity is formed in the placing box body, a rotating matching shaft is rotatably arranged in the abutting blocks and is fixed with the placing box body, a clamping connecting shell is arranged on one side of the rotating matching shaft, and a turnover device capable of supporting the placing box body and turning over the placing box body after driving the placing box body is arranged on one side of the external box body.

According to a further technical scheme, the turnover device comprises a side box body arranged on one side of the external box body, a top motor is arranged on the top of the side box body, a rotating threaded shaft is arranged on one side of the top motor in a power connection mode, the rotating threaded shaft is connected with the side box body in a rotating fit mode, an internal thread moving block is arranged on one side of the side box body in a sliding mode, the internal thread moving block is connected with the rotating threaded shaft in a threaded fit mode, a side barrel is arranged on one side of the internal thread moving block, an internal barrel cavity is formed in the side barrel, an external sliding barrel is arranged in the internal barrel cavity in a sliding mode, a clamping component used for clamping the abutting block to enable the abutting block to move up is arranged on two sides of the external sliding barrel and the side barrel, a telescopic component used for enabling the internal thread hole to move in a telescopic mode is arranged in the side barrel, a telescopic clamping component capable of being arranged on one side of the side barrel and capable of being used for telescopic clamping with the clamping connection shell to enable the clamping connection shell to rotate so that the clamping connection shell can rotate the clamping connection shell to enable the placing box body to place the placing box body A reversed power assembly.

According to the technical scheme, the clamping assembly comprises two clamping turnover plates which are rotatably arranged on the lower side of the side barrel and the top side of the external sliding barrel, the two clamping turnover plates are driven by a motor to rotate, and the clamping turnover plates are abutted to the abutting blocks.

According to a further technical scheme, the telescopic assembly comprises a bottom motor arranged in the lower end wall of the inner cylinder cavity, a threaded transmission shaft is arranged on one side of the bottom motor in a power connection mode, an inner threaded hole is formed in the outer sliding cylinder, and the threaded transmission shaft is in threaded fit connection with the inner threaded hole.

According to the technical scheme, the power assembly comprises a side fixing box body connected with the side barrel in a fixed matching mode, the side fixing box body is connected with the external box body in a sliding matching mode, a rotating motor is arranged in the side fixing box body, one side of the rotating motor is provided with a side connecting output rod in a power connection mode, the side connecting output rod is connected with a clamping connecting shell in a clamping and power connection mode, and a moving structure which drives the rotating motor to move is arranged in the side fixing box body.

According to the technical scheme, the moving structure comprises a transmission inner cavity arranged in the side fixing box body, the transmission inner cavity is arranged in an up-and-down symmetrical mode, an internal thread moving block is arranged in the transmission inner cavity in a sliding mode, the internal thread moving block is fixedly matched and connected with the rotating motor, symmetrical sliding telescopic motors are arranged on one side of the side fixing box body, one side of each sliding telescopic motor is dynamically connected with a side output shaft, the side output shaft is connected with the side fixing box body in a rotating matched mode, and the side output shaft is connected with the internal thread moving block in a threaded matched mode.

The invention has the beneficial effects that:

the device has a simple structure, organic materials to be composted can be placed in the placing box in advance, then the organic materials are stacked in the clamping groove, and the device can lift and jack the placing box and turn over the placing box to be turned to realize the turning process.

When the device works, firstly, the top motor works to drive the rotating threaded shaft to rotate, so that the rotating threaded shaft rotates to drive the internal thread moving block to move up and down in the side box body, and the bottom motor works to drive the threaded transmission shaft to rotate, so that the external sliding barrel can move telescopically in the internal barrel cavity after the threaded transmission shaft is in threaded fit connection with the internal thread hole, so that the clamping turnover plates on one sides of the side barrel and the external sliding barrel can be abutted against the abutting blocks to be clamped and lifted, when the material is turned for the first time, the clamping turnover plates on one sides of the side barrel can be only used for clamping the abutting blocks on the top side, and then the top motor indirectly drives the rotating threaded shaft to enable the internal thread moving block to rise, after the supporting blocks on the uppermost layer and the placing box body are driven to the position of the uppermost side, when the sliding telescopic motor works, the side output shaft rotates to drive the internal thread moving block to slide in the transmission inner cavity, so that the rotating motor drives the side connection output rod to extend into the clamping connection shell, the clamping connection shell and the side connection output rod have the synchronous rotating function, the clamping connection shell drives the rotating matching shaft to turn the placing box body, the placing box body on the uppermost layer turns after being positioned at the highest position, when the placing box body on a second layer or a third layer and other layers is turned, the clamping turnover plate on one side of the external sliding cylinder and the placing box body on the upper side of the placing box body to be turned are required to be clamped, and the placing box body on the upper side of the placing box body to be turned is driven by the external sliding cylinder to be turned and the placing box body to be turned The placing box body is kept away, the placing box body is convenient to turn, the top motor is also used for driving the rotating threaded shaft to rotate after working, the internal thread moving block indirectly drives the placing box bodies on two sides to keep away from the placing box body placed on the lower side, so that the placing box body on one side of the side barrel can be turned, all the placing box bodies can be turned at the moment, and the equipment turning efficiency is greatly improved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal overall structure of a microbial organic fertilizer production device of the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

FIG. 4 is a schematic view at C of FIG. 1;

FIG. 5 is a schematic view taken along the direction D-D in FIG. 1;

FIG. 6 is a schematic top view of the apparatus-side fixing box;

in the figure, an inner cavity 11, an external box body 12, a side box body 13, a rotating threaded shaft 14, a top motor 15, a clamping groove 16, an internal thread moving block 21, an internal thread hole 22, an external sliding barrel 23, an internal barrel cavity 24, a threaded transmission shaft 25, a side barrel 26, a bottom motor 31, a clamping turnover plate 33, an abutting block 34, a loading inner cavity 36, a placing box body 37, a rotating matching shaft 42, a clamping connecting shell 45, a rotating motor 46, a sliding telescopic motor 47, a side fixing box body 48, a transmission inner cavity 49, an internal thread moving block 51 and a side connecting output rod 52 are arranged.

Detailed Description

As shown in fig. 1 to 6, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the microbial organic fertilizer production equipment comprises an external box body 12, wherein an inner cavity 11 is arranged in the external box body 12, a clamping groove 16 is arranged in the external box body 12, the clamping groove 16 is communicated with the inner cavity 11, a plurality of abutting blocks 34 are slidably abutted in the clamping groove 16 and the inner cavity 11, a placing box body 37 is rotatably arranged in the abutting blocks 34, a loading inner cavity 36 is arranged in the placing box body 37, a rotating matching shaft 42 is rotatably arranged in the abutting blocks 34, the rotating matching shaft 42 is fixed with the placing box body 37, a clamping connecting shell 45 is arranged on one side of the rotating matching shaft 42, and a turnover device capable of supporting the placing box body 37 and driving the placing box body 37 to turn over the placing box body 37 after the placing box body 37 is supported is arranged on one side of the external box body 12 .

Beneficially, the turning device includes a side box body 13 disposed on one side of the external box body 12, a top motor 15 is disposed on the top of the side box body 13, a rotating threaded shaft 14 is disposed on one side of the top motor 15 in a power connection manner, the rotating threaded shaft 14 is connected with the side box body 13 in a rotating fit manner, an internal threaded moving block 21 is slidably disposed on one side of the side box body 13, the internal threaded moving block 21 is connected with the rotating threaded shaft 14 in a threaded fit manner, a side barrel 26 is disposed on one side of the internal threaded moving block 21, an internal barrel cavity 24 is disposed in the side barrel 26, an external sliding barrel 23 is slidably disposed in the internal barrel cavity 24, clamping components for clamping the abutting block 34 to enable the abutting block 34 to move up are disposed on two sides of the external sliding barrel 23 and the side barrel 26, a telescopic component for enabling the internal threaded hole 22 to move telescopically is disposed in the side barrel 26, and a power assembly which can be telescopically clamped with the clamping connecting shell 45 to enable the clamping connecting shell 45 to rotate so as to enable the placing box body 37 to turn over is arranged on one side of the side cylinder 26.

Advantageously, the clamping assembly includes two clamping turnover plates 33 rotatably disposed on the lower side of the side cylinder 26 and the top side of the outer slide cylinder 23, the clamping turnover plates 33 are disposed on one side of the side cylinder 26 and the outer slide cylinder 23, the clamping turnover plates 33 are driven by a motor to rotate, and the clamping turnover plates 33 are disposed against the abutting blocks 34.

Advantageously, the telescopic assembly comprises a bottom motor 31 arranged in the lower end wall of the inner cylinder cavity 24, a threaded transmission shaft 25 is arranged on one side of the bottom motor 31 in a power connection mode, an internal threaded hole 22 is arranged in the outer sliding cylinder 23, and the threaded transmission shaft 25 is in threaded fit connection with the internal threaded hole 22.

Advantageously, the power assembly comprises a side fixed box 48 fixedly and fittingly connected with the side cylinder 26, the side fixed box 48 is connected with the outer box 12 in a sliding fit manner, a rotary motor 46 is arranged in the side fixed box 48, a side connection output rod 52 is arranged on one side of the rotary motor 46 in a power connection manner, the side connection output rod 52 is clamped and connected with the clamping connection shell 45 in a power connection manner, and a moving structure for driving the rotary motor 46 to move is arranged in the side fixed box 48.

Beneficially, the moving structure includes a transmission inner cavity 49 arranged in the side fixing box 48, the transmission inner cavity 49 is arranged in an up-down symmetrical manner, an internal thread moving block 51 is arranged in the transmission inner cavity 49 in a sliding manner, the internal thread moving block 51 is fixedly matched and connected with the rotating motor 46, symmetrical sliding telescopic motors 47 are arranged on one side of the side fixing box 48, a side output shaft 53 is arranged on one side of the sliding telescopic motors 47 in a power connection manner, the side output shaft 53 is connected with the side fixing box 48 in a rotating matching manner, and the side output shaft 53 is connected with the internal thread moving block 51 in a threaded matching manner.

In an initial state, the device, the components and the structure are in a stop working state, the device can be used for placing organic materials needing composting in the placing box body 37 in advance, then the organic materials are placed in the clamping groove 16 in a stacking mode, and the device can be used for turning over the placing box body 37 needing to be turned after lifting and jacking the placing box body 37 to achieve the turning process.

When the device works, firstly, the top motor 15 works to drive the rotating threaded shaft 14 to rotate, so that the rotating threaded shaft 14 rotates to drive the internal thread moving block 21 to move up and down in the side box body 13, and the bottom motor 31 works to drive the threaded transmission shaft 25 to rotate, so that the threaded transmission shaft 25 is in threaded fit connection with the internal threaded hole 22, and then the external sliding cylinder 23 can move in an expansion and contraction manner in the internal cylinder cavity 24, so that the clamping turnover plate 33 on one side of the side cylinder 26 and the external sliding cylinder 23 can be abutted against the abutting block 34 to be clamped and lifted up and down, when the device is turned over for the first time, only the clamping turnover plate 33 on one side of the side cylinder 26 can clamp the abutting block 34 on the top side, and then the top motor 15 indirectly drives the rotating threaded shaft 14 to raise the internal thread moving block 21, after the supporting block 34 and the placing box 37 on the uppermost layer are driven to the uppermost position, when the sliding telescopic motor 47 works, the side output shaft 53 rotates to drive the internal thread moving block 51 to slide in the transmission inner cavity 49, so that the rotating motor 46 drives the side connection output rod 52 to extend into the card installing connection shell 45, the card installing connection shell 45 and the side connection output rod 52 have the function of synchronous rotation, the card installing connection shell 45 drives the rotation matching shaft 42 to turn over the placing box 37, the placing box 37 on the uppermost layer is turned over after being positioned at the highest position, and when the placing boxes 37 on the second layer or the third layer and other layers are turned over, the clamping plate 33 on one side of the outer sliding cylinder 23 and the placing box 37 on the upper side of the placing box 37 to be turned over need to be clamped, the placing box body 37 on the upper side of the placing box body 37 to be turned is driven by the external sliding cylinder 23 to be away from the placing box body 37 to be turned, so that the placing box body 37 is convenient to turn, the top motor 15 is also driven to rotate by the rotating threaded shaft 14 after working, the internal thread moving block 21 indirectly drives the placing box bodies 37 on the two sides to be away from the placing box body 37 placed on the lower side, so that the placing box body 37 on one side of the side cylinder 26 can be turned, at the moment, all the placing box bodies 37 can be turned, and the turning efficiency of the device is greatly improved.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a microbial organic fertilizer production technology, this technology uses a fertilizer production facility, includes the outside box, be provided with the inner chamber in the outside box, be provided with the dress draw-in groove in the outside box, the dress draw-in groove with the inner chamber intercommunication sets up, the gliding counterbalance of dress draw-in groove and inner chamber is provided with a plurality of blocks of supporting mutually, the pivoted is provided with in the counterbalance block and places the box, it is provided with the loading inner chamber to place the box, the pivoted is provided with in the counterbalance block rotates the cooperation axle, rotate the cooperation axle with it is fixed to place the box, it is provided with dress card connection casing to rotate cooperation axle one side, outside box one side be provided with can with after placing the box and supporting then will place the box and drive the back messenger place the box and carry out the turning device that overturns.

2. The microbial organic fertilizer production equipment of claim 1, wherein: the turnover device comprises a side box body arranged on one side of the external box body, a top motor is arranged on the top of the side box body, one side of the top motor is provided with a rotary threaded shaft in a power connection way, the rotary threaded shaft is connected with the side box body in a rotating matching way, an internal thread moving block is arranged on one side of the side box body in a sliding manner and is in threaded fit connection with the rotating threaded shaft, a side barrel is arranged on one side of the internal thread moving block, an internal barrel cavity is arranged in the side barrel, an external sliding barrel is arranged in the internal barrel cavity in a sliding manner, clamping components for clamping the abutting blocks to enable the abutting blocks to move in a lifting mode are arranged on two sides of the external sliding cylinder and the side cylinder, the side cylinder is internally provided with a telescopic assembly which enables the internal thread hole to stretch and move, and one side of the side cylinder is provided with a power assembly which can stretch and draw back the clamping connecting shell to enable the clamping connecting shell to rotate so as to enable the placing box to turn.

3. The microbial organic fertilizer production equipment of claim 2, wherein: the clamping assembly comprises a clamping turnover plate which is arranged on the lower side of the side barrel and on the top side of the external sliding barrel in a rotating mode, the clamping turnover plate is arranged on one side of the side barrel and on one side of the external sliding barrel, the clamping turnover plate is driven by a motor to rotate, and the clamping turnover plate is abutted to the abutting blocks.

4. The microbial organic fertilizer production equipment of claim 2, wherein: the telescopic assembly comprises a bottom motor arranged in the lower end wall of the inner barrel cavity, a threaded transmission shaft is arranged on one side of the bottom motor in a power connection mode, an inner threaded hole is formed in the outer sliding barrel, and the threaded transmission shaft is in threaded fit connection with the inner threaded hole.

5. The microbial organic fertilizer production equipment of claim 2, wherein: the power assembly comprises a side fixing box body connected with the side barrel in a fixed matching mode, the side fixing box body is connected with the external box body in a sliding matching mode, a rotating motor is arranged in the side fixing box body, a side connecting output rod is arranged on one side of the rotating motor in a power connection mode, the side connecting output rod is connected with a clamping connecting shell in a clamping and power connection mode, and a moving structure which drives the rotating motor to move is arranged in the side fixing box body.

6. The microbial organic fertilizer production equipment of claim 5, wherein: the movable structure comprises a transmission inner cavity arranged in the side fixing box body, the transmission inner cavity is arranged in an up-and-down symmetrical mode, an internal thread moving block is arranged in the transmission inner cavity in a sliding mode, the internal thread moving block is fixedly matched and connected with the rotating motor, symmetrical sliding telescopic motors are arranged on one side of the side fixing box body, one side of each sliding telescopic motor is connected with a side output shaft in a power connection mode, the side output shafts are connected with the side fixing box body in a rotating matched mode, and the side output shafts are connected with the internal thread moving block in a threaded matched mode.