CN219449583U - A fermenting installation for fertilizer preparation - Google Patents

Abstract

The utility model provides a fermentation device for manufacturing organic fertilizer, which comprises a base, a rotating frame, a driving motor, a fermentation barrel and an auxiliary transmission mechanism, wherein the base is provided with a plurality of fermentation tubes; the rotating frame is rotatably arranged on the base around a preset horizontal axis; the driving motor is fixedly arranged on the base and connected with the rotating frame to drive the rotating frame to rotate; the fermentation barrel is rotatably arranged on the rotary frame around the central axis; the auxiliary transmission mechanism is arranged on the base and the rotating frame and is connected with the fermentation barrel, and the auxiliary transmission mechanism is used for transmitting the power for rotating the rotating frame to the fermentation barrel so as to drive the fermentation barrel to rotate. Therefore, in the process of preparing the organic fertilizer, after the raw materials such as branches or straws and the like are put into the fermentation barrel, automatic turning can be realized, and labor and time are effectively saved. The method solves the problem that in the prior art, the whole process of manufacturing the organic fertilizer by utilizing fruit tree branches and crop straws needs manual operation, which wastes time and labor.

Description

A fermenting installation for fertilizer preparation

Technical Field

The utility model relates to the field of organic fertilizer manufacturing equipment, in particular to a fermentation device for manufacturing organic fertilizer.

Background

The branches of fruit trees which are trimmed each year in China can reach 8 hundred million tons, and crop straws can reach 9 hundred million tons, and if the branches and the straws are not treated, the branches and the straws not only can cause pollution to rural environments, but also can cause waste of resources.

At present, the preparation of the pruned fruit tree branches and crop straws as the bio-organic fertilizer has been widely developed and applied. The biological organic fertilizer prepared from the branches and the straw can effectively improve soil, increase organic matters and mineral nutrients of the soil, release the nutrients slowly and improve the utilization rate of the fertilizer.

When the organic fertilizer is piled by utilizing branches or straws in the prior art, the branches or the straws are crushed, then added with a decomposing agent, water, nutrient substances and the like, and piled on the empty space, and repeated turning is needed in the piling process; the manufacturing process not only occupies a large field, but also needs manual operation in the whole process, and is time-consuming and labor-consuming.

Disclosure of Invention

The utility model mainly aims to provide a fermentation device for manufacturing organic fertilizer, which at least solves the problem that the whole process of manufacturing the organic fertilizer by utilizing fruit tree branches and crop straws needs to be manually operated, and is time-consuming and labor-consuming in the prior art.

In order to achieve the above object, the present utility model provides a fermentation apparatus for organic fertilizer production, comprising: a base; the rotating frame is rotatably arranged on the base around a preset horizontal axis; the driving motor is fixedly arranged on the base and connected with the rotating frame to drive the rotating frame to rotate; a fermenter rotatably mounted on the spin frame around a central axis thereof; the auxiliary transmission mechanism is arranged on the base and the rotating frame and connected with the fermentation barrel, and the auxiliary transmission mechanism is used for transmitting the power for rotating the rotating frame to the fermentation barrel so as to drive the fermentation barrel to rotate.

Further, the base includes: a horizontal support plate for placement on a horizontal table or floor; the bottom end of the vertical mounting plate is vertically connected with one end of the horizontal supporting plate; the rotating frame is rotatably arranged on one side of the vertical mounting plate around a preset horizontal axis, and the driving motor is fixedly arranged on the other side of the vertical mounting plate opposite to the vertical mounting plate.

Further, first shaft hole has been seted up to the thickness direction of vertical mounting panel, and fermenting installation still includes: a main drive shaft rotatably mounted in the first shaft hole; one end of the main driving shaft is connected with the rotating frame, and the other end of the main driving shaft is connected with an output shaft of the driving motor; the driving motor drives the rotating frame to rotate through the main driving shaft.

Further, the rotating frame includes: the two ends of the two transverse connecting arms are correspondingly and vertically connected with the two ends of the longitudinal connecting arm to form a transverse U-shaped frame body, and the other ends of the two transverse connecting arms are free ends; the middle part of the longitudinal connecting arm is fixedly connected with the main driving shaft; the fermenter is rotatably mounted between two transverse connecting arms.

Further, the auxiliary transmission mechanism includes: the first bevel gear is fixedly arranged on one side of the vertical mounting plate, facing the rotating frame, and the first shaft hole penetrates through the center position of the first bevel gear; a second bevel gear rotatably mounted on the longitudinal connecting arm about its axis and intermeshed with the first bevel gear; a first link shaft rotatably mounted on the longitudinal link arm about an axis thereof and extending in a length direction of the longitudinal link arm; the first end of the first connecting shaft is fixedly connected with the second bevel gear; the second connecting shaft is rotatably arranged at the end part of one transverse connecting arm around the axis of the second connecting shaft, and the first end of the second connecting shaft is fixedly connected with the bottom surface of the fermentation barrel; the first belt pulley is fixedly arranged at the second end of the first connecting shaft; the second belt pulley is fixedly arranged at the second end of the second connecting shaft; the transmission belt is sleeved on the first belt pulley and the second belt pulley to connect the first belt pulley and the second belt pulley in a transmission way; the first connecting shaft is driven to rotate through interaction of the first bevel gear and the second bevel gear when the rotating frame rotates, and the first connecting shaft drives the fermentation barrel to rotate around the central axis of the fermentation barrel through the first belt pulley, the second belt pulley and the second connecting shaft.

Further, the tip of another transverse connection arm is provided with rotatory positioning bolt, and rotatory positioning bolt central axis is collinearly with the central axis of fermentation vat, and the fermentation vat includes: the second connecting shaft is fixedly connected with the central part of the bottom surface of the barrel body; the barrel cover is hermetically arranged at the upper port of the barrel body, and a rotary positioning column is arranged at the center of the upper surface of the barrel cover; the lower end of the rotary positioning bolt is provided with a positioning slide hole matched with the rotary positioning column, and when the rotary positioning bolt rotates to a preset position towards the barrel cover, the positioning slide hole is nested on the rotary positioning column so that the fermentation barrel can freely rotate around the central axis of the fermentation barrel.

Further, one end of the barrel cover is connected with the side edge of the upper port of the barrel body through a hinge, the other end of the barrel cover is connected with the other side edge of the upper port of the barrel body through a buckle, and a sealing ring is arranged at the edge of the inner side of the barrel cover.

Further, the fermentation apparatus further comprises: and the temperature sensor is arranged inside the fermentation barrel and is used for monitoring the temperature inside the fermentation barrel.

Further, the fermentation barrel is internally provided with stirring teeth which are used for stirring the raw materials in the fermentation barrel.

The fermentation device for organic fertilizer production in the technical scheme of the utility model comprises a base, a rotating frame, a driving motor, a fermentation barrel and an auxiliary transmission mechanism; the rotating frame is rotatably arranged on the base around a preset horizontal axis; the driving motor is fixedly arranged on the base and connected with the rotating frame to drive the rotating frame to rotate; the fermentation barrel is rotatably arranged on the rotary frame around the central axis; the auxiliary transmission mechanism is arranged on the base and the rotating frame and is connected with the fermentation barrel, and the auxiliary transmission mechanism is used for transmitting the power for rotating the rotating frame to the fermentation barrel so as to drive the fermentation barrel to rotate. Therefore, in the process of preparing the organic fertilizer, after the raw materials such as branches or straws and the like are put into the fermentation barrel, automatic turning can be realized, and labor and time are effectively saved. The method solves the problem that in the prior art, the whole process of manufacturing the organic fertilizer by utilizing fruit tree branches and crop straws needs manual operation, which wastes time and labor.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic perspective view of an alternative fermentation device for organic fertilizer production according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an alternative explosive structure of a fermentation device for organic fertilizer production according to an embodiment of the present utility model.

Wherein the above figures include the following reference numerals:

10. a base; 11. a horizontal support plate; 12. a vertical mounting plate; 13. a first shaft hole; 20. a rotating frame; 21. a longitudinal connecting arm; 211. a gear groove; 212. a second shaft hole; 22. a transverse connecting arm; 221. a third shaft hole; 222. a screw hole; 30. a driving motor; 40. a fermentation barrel; 41. a tub body; 42. a barrel cover; 43. rotating the positioning column; 44. stirring teeth; 50. an auxiliary transmission mechanism; 51. a first bevel gear; 52. a second bevel gear; 53. a first connecting shaft; 54. a second connecting shaft; 55. a first pulley; 56. a second pulley; 57. a drive belt; 60. a main drive shaft; 70. rotating the positioning bolt; 80. a temperature sensor.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

The fermentation device for organic fertilizer production in the embodiment of the utility model, as shown in fig. 1 and 2, comprises a base 10, a rotating frame 20, a driving motor 30, a fermentation barrel 40 and an auxiliary transmission mechanism 50; the rotating frame 20 is rotatably installed on the base 10 about a preset horizontal axis; the driving motor 30 is fixedly installed on the base 10 and connected with the rotating frame 20 to drive the rotating frame 20 to rotate; the fermenter 40 is rotatably installed on the spin frame 20 around the central axis thereof; the auxiliary transmission mechanism 50 is disposed on the base 10 and the rotating frame 20 and connected with the fermenter 40, and the auxiliary transmission mechanism 50 is used for transmitting the power of rotating the rotating frame 20 to the fermenter 40 to drive the fermenter 40 to rotate. Therefore, in the process of preparing the organic fertilizer, after the raw materials such as branches or straws and the like are put into the fermentation barrel, automatic turning can be realized, and labor and time are effectively saved. The method solves the problem that in the prior art, the whole process of manufacturing the organic fertilizer by utilizing fruit tree branches and crop straws needs manual operation, which wastes time and labor.

In specific implementation, the base 10 comprises a horizontal supporting plate 11 and a vertical mounting plate 12, wherein the horizontal supporting plate 11 is a rectangular plate body, the vertical mounting plate 12 is an isosceles triangle plate body, and the horizontal supporting plate 11 is used for being placed on a horizontal table top or the ground; the bottom end of the vertical mounting plate 12 is vertically connected with one end of the horizontal support plate 11; the rotating frame 20 is rotatably installed on one side of the vertical installation plate 12 facing the horizontal support plate 11 around a preset horizontal axis, and the driving motor 30 is fixedly installed on the other side opposite to the vertical installation plate 12; a first shaft hole 13 is formed in the thickness direction of the vertical mounting plate 12, and two ends of the first shaft hole 13 are respectively opposite to the middle part of the rotating frame 20 and the output shaft of the driving motor 30; the fermentation device further comprises a main drive shaft 60, the main drive shaft 60 being rotatably mounted in the first shaft hole 13 by means of bearings; one end of the main driving shaft 60 is connected with the middle part of the rotating frame 20, and the other end of the main driving shaft 60 is connected with the output shaft of the driving motor 30; the driving motor 30 drives the rotating frame 20 to rotate through the main driving shaft 60, so as to drive the fermentation cylinder 40 to integrally overturn up and down around a preset horizontal axis.

Further, the rotating frame 20 includes a longitudinal connecting arm 21 and two transverse connecting arms 22, one ends of the two transverse connecting arms 22 are correspondingly and vertically connected with two ends of the longitudinal connecting arm 21 to form a transverse U-shaped frame body, and the other ends of the two transverse connecting arms 22 are free ends; the main driving shaft 60 is fixedly connected with the middle part of the longitudinal connecting arm 21 to drive the rotating frame 20 to rotate; the upper end and the lower end of the fermentation barrel 40 are respectively connected with the end parts of the two transverse connecting arms 22 through rotary connecting pieces, so that the fermentation barrel 40 can be driven by the rotary frame 20 to turn up and down and can also rotate around the central axis of the fermentation barrel to realize better turning effect.

Further, the auxiliary transmission mechanism 50 includes a first bevel gear 51, a second bevel gear 52, a first connection shaft 53, a second connection shaft 54, a first pulley 55, a second pulley 56, and a transmission belt 57, the first bevel gear 51 is fixedly installed at a side of the vertical installation plate 12 facing the rotating frame 20, and the first shaft hole 13 penetrates through a center position of the first bevel gear 51; the longitudinal connecting arm 21 is provided with a gear groove 211 and a second shaft hole 212 communicated with the gear groove 211, the gear groove 211 is formed along the radial direction of the longitudinal connecting arm 21, the second shaft hole 212 extends along the length direction of the longitudinal connecting arm 21, and the first connecting shaft 53 is rotatably arranged in the second shaft hole 212 around the axis thereof through a bearing; the second bevel gear 52 is positioned in the gear groove 211 and fixedly connected with the first end of the first connecting shaft 53, and the second bevel gear 52 is meshed with the first bevel gear 51; when the rotating frame 20 rotates around a preset horizontal axis, the first connecting shaft 53 is driven to rotate through the interaction of the first bevel gear 51 and the second bevel gear 52; a third shaft hole 221 is formed at the end of the transverse connecting arm 22 near the bottom of the fermentation cylinder 40, a second connecting shaft 54 is rotatably arranged in the third shaft hole 221 around the axis thereof through a bearing, and the first end of the second connecting shaft 54 is fixedly connected with the bottom surface of the fermentation cylinder 40; the first pulley 55 is fixedly mounted at the second end of the first connecting shaft 53; a second pulley 56 is fixedly mounted to a second end of the second connecting shaft 54; the transmission belt 57 is sleeved on the first belt pulley 55 and the second belt pulley 56 to connect the first belt pulley 55 and the second belt pulley 56 in a transmission manner; the first connection shaft 53 rotates through the first pulley 55, the second pulley 56, and the second connection shaft 54 to rotate the fermenter 40 around the center axis thereof.

Further, a screw hole 222 is formed at the end of the transverse connecting arm 22 close to the top of the fermentation barrel 40, a rotary positioning bolt 70 is arranged in the screw hole 222, the central axis of the rotary positioning bolt 70 is collinear with the central axis of the fermentation barrel 40, the fermentation barrel 40 comprises a barrel body 41 and a barrel cover 42, and the second connecting shaft 54 is fixedly connected with the central part of the bottom surface of the barrel body 41; the barrel cover 42 is arranged at the upper port of the barrel body 41 in a sealing way, and a rotary positioning column 43 is arranged at the center of the upper surface of the barrel cover 42; the lower end of the rotary positioning bolt 70 is provided with a positioning slide hole matched with the rotary positioning column 43, the rotary positioning bolt 70 moves close to the direction of the barrel cover 42 when rotating clockwise, and the positioning slide hole is nested on the rotary positioning column 43 so that the fermentation barrel 40 can freely rotate around the central axis of the fermentation barrel under the drive of the auxiliary transmission mechanism 50. The rotation positioning bolt 70 moves in a direction away from the tub cover 42 when rotated in a counterclockwise direction, so that the positioning slide hole is separated from the rotation positioning column 43, thereby enabling the tub cover 42 to be normally opened.

Further, one end of the tub cover 42 is connected to a side of the upper port of the tub 41 through a hinge, and the other end of the tub cover 42 is connected to the other side of the upper port of the tub 41 through a buckle, so that the tub cover can be turned upside down to be opened or closed.

In order to monitor the temperature in the fermentation barrel 40, so that the fermentation barrel 40 can be turned over at any time according to the temperature change in the fermentation barrel 40, the fermentation device further comprises a temperature sensor 80, wherein the temperature sensor 80 is of a rod-shaped structure and is arranged on the inner side of the barrel cover 42, and when the barrel cover 42 is closed, the temperature sensor 80 is inserted into the raw materials such as branches or straws in the barrel body 41, so that the temperature state in the raw materials can be monitored in real time; the temperature sensor 80 is connected with the controller in a wireless connection manner, the controller is connected with the driving motor 30, and when the temperature inside the raw materials reaches the set temperature, the controller automatically controls the driving motor 30 to start so as to turn over the raw materials in the fermentation barrel 40. In addition, the controller can turn the pile according to the time, and when the set time is reached, the controller automatically controls the driving motor 30 to start turning the pile of the raw materials in the fermentation barrel 40.

Further, in order to achieve a better pile turning effect, the stirring teeth 44 are arranged in the fermentation barrel 40, and the fermentation barrel 40 can turn over and stir the raw materials such as branches or straws in the fermentation barrel 40 no matter the fermentation barrel 40 turns up and down or rotates, so that pile turning is more uniform.

In specific use, the rotary positioning bolt 70 is rotated in the anticlockwise direction to separate the positioning slide hole at the lower end of the rotary positioning bolt 70 from the rotary positioning column 43; then the buckles on the side edge of the barrel cover 42 are opened so as to turn up the barrel cover 42, crushed branches or straws are filled into the fermentation barrel 40 and corresponding leavening agent and water are added, then the barrel cover 42 is closed and the buckles are fastened, and the sealing ring arranged on the inner side edge of the barrel cover 42 can enable the whole fermentation barrel 40 to be in a sealed environment. In the fermentation process, the temperature sensor 80 can real-time the temperature state of the raw materials, the controller can time the whole fermentation process, and when the temperature reaches a preset temperature or a preset fermentation time, the controller can automatically control the driving motor 30 to start turning the raw materials in the fermentation barrel 40; in the process of turning the piles, the rotating frame 20 drives the fermentation barrel 40 to turn up and down, and simultaneously, under the transmission action of the auxiliary transmission mechanism 50, the fermentation barrel 40 rotates around the central axis of the fermentation barrel, and the stirring teeth 44 of the fermentation barrel 40 turn over and stir the raw materials back and forth; when the turning process is stopped, the controller ensures that the fermenter 40 is at a position opposite to the original position, i.e., the fermenter 40 is turned 180 ° as a whole.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. A fermenting installation for fertilizer preparation, characterized by that includes:

a base (10);

a swivel mount (20), the swivel mount (20) being rotatably mounted on the base (10) about a preset horizontal axis;

the driving motor (30), the said driving motor (30) is fixedly mounted on said base (10) and connected with said rotating frame (20) in order to drive the said rotating frame (20) to rotate;

a fermenter (40), the fermenter (40) being rotatably mounted on the rotary frame (20) around a central axis thereof;

the auxiliary transmission mechanism (50) is arranged on the base (10) and the rotating frame (20) and is connected with the fermentation barrel (40), and the auxiliary transmission mechanism (50) is used for transmitting the power for rotating the rotating frame (20) to the fermentation barrel (40) so as to drive the fermentation barrel (40) to rotate.

2. Fermentation device for organic fertilizer production according to claim 1, characterized in that the base (10) comprises:

a horizontal support plate (11), the horizontal support plate (11) being for placement on a horizontal table or floor;

the bottom end of the vertical mounting plate (12) is vertically connected with one end of the horizontal supporting plate (11);

the rotating frame (20) is rotatably arranged on one side of the vertical mounting plate (12) around a preset horizontal axis, and the driving motor (30) is fixedly arranged on the other side opposite to the vertical mounting plate (12).

3. The fermentation device for organic fertilizer production according to claim 2, wherein the vertical mounting plate (12) is provided with a first shaft hole (13) in a thickness direction, and the fermentation device further comprises:

a main drive shaft (60) rotatably mounted in the first shaft hole (13);

wherein one end of the main driving shaft (60) is connected with the rotating frame (20), and the other end of the main driving shaft (60) is connected with an output shaft of the driving motor (30); the drive motor (30) drives the rotating frame (20) to rotate through the main drive shaft (60).

4. A fermentation device for organic fertilizer production according to claim 3, wherein the rotating frame (20) comprises:

the device comprises a longitudinal connecting arm (21) and two transverse connecting arms (22), wherein one ends of the two transverse connecting arms (22) are correspondingly and vertically connected with two ends of the longitudinal connecting arm (21) to form a transverse U-shaped frame body, and the other ends of the two transverse connecting arms (22) are free ends;

wherein the middle part of the longitudinal connecting arm (21) is fixedly connected with the main driving shaft (60); the fermenter (40) is rotatably mounted between two of the transverse connection arms (22).

5. The fermentation device for organic fertilizer production according to claim 4, wherein the auxiliary transmission mechanism (50) comprises:

the first bevel gear (51) is fixedly arranged on one side, facing the rotating frame (20), of the vertical mounting plate (12), and the first shaft hole (13) penetrates through the center position of the first bevel gear (51);

a second bevel gear (52) rotatably mounted on said longitudinal connecting arm (21) about its axis and intermeshed with said first bevel gear (51);

a first connecting shaft (53) rotatably mounted on the longitudinal connecting arm (21) about an axis thereof and extending in a length direction of the longitudinal connecting arm (21); the first end of the first connecting shaft (53) is fixedly connected with the second bevel gear (52);

a second connecting shaft (54) rotatably mounted around an axis thereof at an end of one of the lateral connecting arms (22), a first end of the second connecting shaft (54) being fixedly connected to a bottom surface of the fermenter (40);

a first pulley (55) fixedly mounted at a second end of the first connecting shaft (53);

a second pulley (56) fixedly mounted to a second end of the second connecting shaft (54);

the transmission belt (57) is sleeved on the first belt pulley (55) and the second belt pulley (56) to connect the first belt pulley (55) and the second belt pulley (56) in a transmission way;

the first connecting shaft (53) is driven to rotate through interaction of the first bevel gear (51) and the second bevel gear (52) when the rotating frame (20) rotates, and the first connecting shaft (53) drives the fermentation barrel (40) to rotate around the central axis of the fermentation barrel through the first belt pulley (55), the second belt pulley (56) and the second connecting shaft (54).

6. The fermentation device for organic fertilizer production according to claim 5, wherein the end of the other lateral connecting arm (22) is provided with a rotary positioning bolt (70), the rotary positioning bolt (70) central axis is collinear with the central axis of the fermentation vat (40), and the fermentation vat (40) comprises:

the second connecting shaft (54) is fixedly connected with the central part of the bottom surface of the barrel body (41);

a barrel cover (42) is hermetically arranged at the upper port of the barrel body (41), and a rotary positioning column (43) is arranged at the center of the upper surface of the barrel cover (42);

the lower end of the rotary positioning bolt (70) is provided with a positioning sliding hole matched with the rotary positioning column (43), and when the rotary positioning bolt (70) rotates to a preset position towards the barrel cover (42), the positioning sliding hole is nested on the rotary positioning column (43) so that the fermentation barrel (40) can freely rotate around the central axis of the fermentation barrel.

7. The fermentation device for organic fertilizer production according to claim 6, wherein one end of the barrel cover (42) is connected with the side edge of the upper port of the barrel body (41) through a hinge, the other end of the barrel cover (42) is connected with the other side edge of the upper port of the barrel body (41) through a buckle, and a sealing ring is arranged at the inner side edge of the barrel cover (42).

8. The fermentation device for organic fertilizer production according to claim 1, further comprising:

and a temperature sensor (80) disposed inside the fermenter (40), the temperature sensor (80) being configured to monitor a temperature inside the fermenter (40).

9. The fermentation device for organic fertilizer production according to claim 1, wherein stirring teeth (44) are arranged in the fermentation barrel (40), and the stirring teeth (44) are used for stirring raw materials in the fermentation barrel (40).