CN216770010U - High-efficient stoving fermenting installation is used in preparation of microorganism quality of water modifier - Google Patents

Abstract

The utility model is suitable for the technical field of water quality modifying agent preparation devices, and particularly relates to a high-efficiency drying and fermenting device for preparing a microbial water quality modifying agent, which comprises a drying chamber and a screen plate, wherein the screen plate is arranged in the drying chamber, and is used for placing materials to be dried, and the high-efficiency drying and fermenting device for preparing the microbial water quality modifying agent is characterized by further comprising: and the dragging structure is arranged on the drying chamber and the screen plate and is used for supporting the screen plate in the drying chamber, and the screen plate is inclined in the drying chamber in a mechanical transmission mode so as to discharge the dried material on the screen plate away from the screen plate. According to the utility model, by arranging the turning assembly, the materials stacked on the screen plate can be turned by intermittently knocking the screen plate, so that the materials stacked on the screen plate can be uniformly dried, and the working efficiency of the drying and fermenting device is improved.

Description

High-efficient stoving fermenting installation is used in preparation of microorganism quality of water modifier

Technical Field

The utility model relates to the technical field of water quality modifier preparation devices, in particular to a high-efficiency drying and fermenting device for preparing a microbial water quality modifier.

Background

Because of the large amount of bait, fertilizer, fishing medicine and the like put into aquaculture, dissolved oxygen is reduced, harmful substances such as ammonia nitrogen, nitrite and the like are generated, water quality is deteriorated, finally, harmful bacteria are grown, and aquaculture biological diseases are frequent. The water quality modifier can solve the problems, integrates the modern biological application technology, and is an environment-friendly ecological water quality and substrate conditioner.

When the microbial water quality modifier is produced, partial raw materials for producing the microbial water quality modifier need to be dried and fermented, and the conventional drying and fermenting device is usually integrated to improve the drying and fermenting efficiency.

The high-efficiency drying and fermenting device for preparing the microbial water quality improver in the prior art generally cannot turn over stacked materials so that the materials can be uniformly dried, and the drying efficiency is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide a high-efficiency drying and fermenting device for preparing a microbial water quality improver, and aims to solve the following problems: the piled materials cannot be turned over so that the materials can be uniformly dried, and the drying efficiency is low.

In order to achieve the purpose, the utility model provides the following technical scheme:

microorganism quality of water improver preparation is with high-efficient stoving fermenting installation, including drying chamber and otter board, and the otter board setting is in the inside of drying chamber, and the otter board is used for placing the material of treating the stoving, its characterized in that, microorganism quality of water improver preparation is with high-efficient stoving fermenting installation still includes:

the dragging structure is arranged on the drying chamber and the screen plate, is used for supporting the screen plate in the drying chamber, and enables the screen plate to incline in the drying chamber in a mechanical transmission mode so as to discharge the dried material on the screen plate away from the screen plate;

the turning assembly is arranged on the drying chamber and used for turning the materials stacked on the screen plate in a mode of intermittently knocking the screen plate supported by the traction structure; and

and the drying structure is arranged on the drying chamber and used for blowing hot air to the materials on the screen plate from the upper part and the lower part of the screen plate so as to dry the front and back sides of the materials.

Further, the traction structure comprises;

the first connecting piece is arranged on the screen plate and the drying chamber and used for installing the screen plate on the drying chamber;

the second connecting piece is arranged on the screen plate and used for driving the screen plate to move and incline; and

and the first transmission assembly is arranged on the first connecting rope and the drying chamber and used for driving the second connecting piece to move.

Further, the first transmission assembly includes:

the rolling piece is arranged on the screen plate and the drying chamber and used for rolling or unfolding the first connecting rope so that the first connecting rope can drive the screen plate to move upwards or downwards; and

the first driving piece is installed on the rolling piece and used for driving the rolling piece to move.

Further, the flipping assembly comprises:

the knocking piece is arranged below the screen plate and used for intermittently knocking the screen plate so as to enable materials on the screen plate to be continuously turned over;

the rotating piece is arranged on the knocking piece and used for driving the knocking piece to move; and

and the second driving piece is arranged on the drying chamber, the output end of the second driving piece is connected with the rotating piece, and the second driving piece is used for driving the rotating piece to move.

Further, the drying structure includes:

the induced air piece is arranged on the drying chamber and used for producing hot air;

the first ventilation piece is arranged on the drying chamber and the blowing piece;

the second ventilation piece is arranged on the first ventilation piece and the drying chamber;

the blowing part is arranged on the first ventilation part and the second ventilation part, the air inducing part is used for blowing hot air into the first ventilation part and the second ventilation part, and the blowing part is used for blowing the hot air in the first ventilation part and the second ventilation part to materials on the screen plate; and

and the second transmission assembly is arranged on the second ventilation piece and the drying chamber and used for driving the second ventilation piece to move so as to prevent the material on the screen plate from falling into the ventilation piece arranged on the second ventilation piece.

Further, the second transmission assembly comprises:

the rolling piece is arranged on the second ventilating piece and the drying chamber and is used for driving the second ventilating piece to rotate;

the first transmission piece is arranged on the second ventilation piece and used for driving the second ventilation piece to rotate on the drying chamber through the rolling piece;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move; and

and the third driving piece is arranged on the drying chamber, the output end of the third driving piece is connected with the second transmission piece, and the third driving piece is used for driving the second transmission piece to move.

According to the efficient drying and fermenting device for preparing the microbial water quality improver, the turnover component is arranged, so that materials stacked on the screen plate can be turned over in an intermittent mode of knocking the screen plate, the materials stacked on the screen plate can be uniformly dried, and the working efficiency of the drying and fermenting device is improved.

Drawings

FIG. 1 is a schematic structural diagram of a high-efficiency drying and fermenting device for preparing a microbial water quality improver.

FIG. 2 is a partial cross-sectional side view of a third driving motor, a rope winding rod and a first connecting rope in the high-efficiency drying and fermenting device for preparing the microbial water quality improver.

FIG. 3 is a partial structure diagram of a cam and a rotating rod in the high-efficiency drying and fermenting device for preparing the microbial water quality improver.

In the figure: 1. a fermentation tank; 2. a first drive motor; 3. a first gear; 4. a second gear; 5. a rolling bearing; 6. a second drive motor; 7. a screen plate; 8. a rope winding rod; 9. a first connecting rope; 10. a feed inlet; 11. a three-way pipe; 12. a second connecting rope; 13. a third drive motor; 14. a fan; 15. a ventilation hose; 16. a vent pipe; 17. a stock guide; 18. a drying chamber; 19. a blowing nozzle; 20. rotating the rod; 21. a cam.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, 2 and 3, the efficient drying and fermenting apparatus for preparing a microbial water quality improving agent according to an embodiment of the present invention includes a drying chamber 18 and a mesh plate 7, wherein the mesh plate 7 is disposed inside the drying chamber 18, the mesh plate 7 is used for placing a material to be dried, and the efficient drying and fermenting apparatus for preparing a microbial water quality improving agent further includes:

the dragging structure is arranged on the drying chamber 18 and the screen plate 7 and is used for supporting the screen plate 7 in the drying chamber 18, and the screen plate 7 is inclined in the drying chamber 18 in a mechanical transmission mode so as to discharge the dried material on the screen plate 7 from the screen plate 7;

the turning assembly is arranged on the drying chamber 18 and is used for turning the materials stacked on the screen plate 7 in a mode of intermittently knocking the screen plate 7 supported by the traction structure; and

and a drying structure installed on the drying chamber 18 for drying both front and back sides of the material by blowing hot air to the material on the screen 7 from above and below the screen 7.

In an embodiment of the present invention, the screen plate 7 is a plate-shaped object with dense through holes formed on the surface, the pulling structure can adopt a rope pulling or hydraulic cylinder pushing mode to install the screen plate 7 and incline the screen plate 7 so as to discharge the dried material on the screen plate 7 away from the screen plate 7, the turning component can adopt an eccentric block impact or cylinder driving mode so that the screen plate 7 can be vibrated continuously to turn the material contained in the screen plate 7 so as to improve the drying efficiency of the material, the drying structure can blow hot air to the material on the screen plate 7 from the upper side and the lower side of the screen plate 7 so as to dry the front and back sides of the material, the top end of the drying chamber 18 is connected with the feed inlet 10, the bottom end is connected with the fermentation tank 1, and the interior is provided with the material guide plate 17 for guiding the material.

As shown in fig. 1 and 2, in one embodiment of the present invention, the pulling structure comprises;

the first connecting piece is arranged on the screen plate 7 and the drying chamber 18 and is used for installing the screen plate 7 on the drying chamber 18;

the second connecting piece is arranged on the screen plate 7 and used for driving the screen plate 7 to move and incline; and

and the first transmission assembly is arranged on the first connecting rope 9 and the drying chamber 18 and is used for driving the second connecting piece to move.

The first transmission assembly includes:

a rolling member, installed on the screen plate 7 and the drying chamber 18, for rolling or unfolding the first connecting rope 9, so that the first connecting rope 9 can drive the screen plate 7 to move upwards or downwards; and

the first driving piece is installed on the rolling piece and used for driving the rolling piece to move.

In this embodiment, the first connecting member is a flexible second connecting rope 12, the second connecting member is a flexible first connecting rope 9, the winding member is a rod-shaped rope winding rod 8 with a flat surface, and the first driving member is a third driving motor 13;

when the net plate 7 needs to be inclined, the third driving motor 13 can be firstly opened, the output shaft of the third driving motor 13 drives the first connecting rope 9 connected with the third driving motor to rotate, so that the first connecting rope 9 wound outside the rope winding rod 8 is gradually wound up, the net plate 7 connected with the end of the first connecting rope 9 is pulled, the net plate 7 is inclined, and materials placed on the top of the net plate 7 can slide down on the net plate 7.

As shown in fig. 1 and 2, in one embodiment of the present invention, the flip assembly comprises:

the knocking piece is arranged below the screen plate 7 and used for intermittently knocking the screen plate 7 so as to enable the material on the screen plate 7 to be continuously turned over;

the rotating piece is arranged on the knocking piece and used for driving the knocking piece to move; and

and the second driving part is arranged on the drying chamber 18, the output end of the second driving part is connected with the rotating part, and the second driving part is used for driving the rotating part to move.

In this embodiment, the piece of strikeing is cam 21, rotate the piece and be smooth shaft-like article dwang 20 in surface, the second driving piece is second driving motor 6, make otter board 7 vibrations when needs, so that the material on the otter board 7 can be turned over, second driving motor 6 can be opened, the output shaft of second driving motor 6 is driving its dwang 20 of connecting and is rotating, two cams 21 that make the dwang 20 outside cup joint are constantly strikeing otter board 7, make otter board 7 vibrated, and make the material turned over.

As shown in fig. 1 and 2, in the present embodiment, the drying structure includes:

an air inducing member installed on the drying chamber 18 for generating hot air;

a first ventilating member installed on the drying chamber 18 and the blowing member;

a second ventilating member installed on the first ventilating member and the drying chamber 18;

the blowing piece is arranged on the first ventilation piece and the second ventilation piece, the air inducing piece is used for blowing hot air into the first ventilation piece and the second ventilation piece, and the blowing piece is used for blowing the hot air in the first ventilation piece and the second ventilation piece to the material on the screen plate 7; and

and the second transmission assembly is arranged on the second ventilation piece and the drying chamber 18 and is used for driving the second ventilation piece to move so as to prevent the material on the screen plate 7 from falling into the ventilation piece arranged on the second ventilation piece.

The second transmission assembly includes:

the rolling piece is arranged on the second ventilating piece and the drying chamber 18 and is used for driving the second ventilating piece to rotate;

the first transmission piece is arranged on the second ventilation piece and used for driving the second ventilation piece to rotate on the drying chamber 18 through the rolling piece;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move; and

and the third driving part is arranged on the drying chamber 18, the output end of the third driving part is connected with the second transmission part, and the third driving part is used for driving the second transmission part to move.

In this embodiment, the induced air member is a fan 14 and is installed on the drying chamber 18, the first ventilation member is a three-way pipe 11, the second ventilation member may be composed of a ventilation pipe 16 and a ventilation hose 15, the blowing member is a blowing nozzle 19, the rolling member is a rolling bearing 5, the first transmission member is a second gear 4 and is sleeved on the ventilation pipe 16, the second transmission member is a first gear 3, the first gear 3 is in meshed connection with the second gear 4, and the third driving member is a first driving motor 2;

when the material on the otter board 7 needs to be dried, the fan 14 can be opened, the fan 14 blows hot air into the three-way pipe 11 and the ventilation pipe 16, then the air blowing nozzles 19 connected to the three-way pipe 11 and the ventilation pipe 16 blow on the otter board 7, when the otter board 7 discharges materials in an inclined mode, in order to prevent the discharged materials from falling into the air blowing nozzles 19, the first driving motor 2 can be opened, the output shaft of the first driving motor 2 drives the first gear 3 connected with the first driving motor to rotate, the first gear 3 drives the second gear 4 connected with the first gear in a meshed mode to rotate, the second gear 4 can drive the ventilation pipe 16 to rotate on the drying chamber 18 through the rolling bearing 5, and therefore the opening of the air blowing nozzles 19 faces downwards.

In the utility model, the screen plate 7 can be conveniently inclined by arranging the dragging structure, so that dried materials on the screen plate 7 can be discharged from the screen plate 7 and enter the fermentation tank 1 for fermentation, and materials stacked on the screen plate 7 can be turned by arranging the turning assembly in a mode of intermittently knocking the screen plate 7, so that the materials stacked on the screen plate 7 can be uniformly dried.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. Microorganism quality of water improver preparation is with high-efficient stoving fermenting installation, including drying chamber and otter board, and the otter board setting is in the inside of drying chamber, and the otter board is used for placing the material of treating the stoving, its characterized in that, microorganism quality of water improver preparation is with high-efficient stoving fermenting installation still includes:

the dragging structure is arranged on the drying chamber and the screen plate and is used for supporting the screen plate in the drying chamber, and the screen plate is inclined in the drying chamber in a mechanical transmission mode so as to discharge the dried material on the screen plate away from the screen plate;

the turning assembly is arranged on the drying chamber and used for turning the materials stacked on the screen plate in a mode of intermittently knocking the screen plate supported by the traction structure; and

and the drying structure is arranged on the drying chamber and used for blowing hot air to the materials on the screen plate from the upper part and the lower part of the screen plate so as to dry the front and back sides of the materials.

2. The efficient drying and fermenting device for preparing the microbial water quality improver according to claim 1, wherein the dragging structure comprises;

the first connecting piece is arranged on the screen plate and the drying chamber and used for installing the screen plate on the drying chamber;

the second connecting piece is arranged on the screen plate and used for driving the screen plate to move and incline; and

and the first transmission assembly is arranged on the first connecting rope and the drying chamber and used for driving the second connecting piece to move.

3. The efficient drying and fermenting device for preparing the microbial water quality modifying agent according to claim 2, wherein the first transmission assembly comprises:

the winding part is arranged on the screen plate and the drying chamber and is used for winding or unfolding the first connecting rope so that the first connecting rope can drive the screen plate to move upwards or downwards; and

the first driving piece is installed on the rolling piece and used for driving the rolling piece to move.

4. The efficient drying and fermenting device for preparing the microbial water quality improver according to claim 1, wherein the turning assembly comprises:

the knocking piece is arranged below the screen plate and used for intermittently knocking the screen plate so as to enable materials on the screen plate to be continuously turned over;

the rotating piece is arranged on the knocking piece and used for driving the knocking piece to move; and

and the second driving piece is arranged on the drying chamber, the output end of the second driving piece is connected with the rotating piece, and the second driving piece is used for driving the rotating piece to move.

5. The efficient drying and fermenting device for preparing the microbial water quality improver according to claim 1, wherein the drying structure comprises:

the induced air piece is arranged on the drying chamber and used for producing hot air;

the first ventilation piece is arranged on the drying chamber and the blowing piece;

the second ventilation piece is arranged on the first ventilation piece and the drying chamber;

the blowing part is arranged on the first ventilation part and the second ventilation part, the air inducing part is used for blowing hot air into the first ventilation part and the second ventilation part, and the blowing part is used for blowing the hot air in the first ventilation part and the second ventilation part to materials on the screen plate; and

and the second transmission assembly is arranged on the second ventilation piece and the drying chamber and used for driving the second ventilation piece to move so as to prevent the material on the screen plate from falling into the ventilation piece arranged on the second ventilation piece.

6. The efficient drying and fermenting device for preparing the microbial water quality improver according to claim 5, wherein the second transmission assembly comprises:

the rolling piece is arranged on the second ventilating piece and the drying chamber and is used for driving the second ventilating piece to rotate;

the first transmission piece is arranged on the second ventilation piece and used for driving the second ventilation piece to rotate on the drying chamber through the rolling piece;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move; and

and the third driving piece is arranged on the drying chamber, the output end of the third driving piece is connected with the second transmission piece, and the third driving piece is used for driving the second transmission piece to move.

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