CN215464772U - A feed additive preparation facilities that is used for controllable vibrio of small shed shrimp to breed - Google Patents

Abstract

The utility model discloses a feed additive preparation device capable of preventing and controlling vibrio for culturing shrimps in a small shed, wherein a shell serving as a supporting device is arranged on a horizontal ground; a filter plate is arranged inside the shell; the discharge port is formed in the outer side of the bottom of the shell; the method comprises the following steps: the upper output end of the bidirectional motor is connected with a sector gear, the sector gear is arranged on the inner side of the connecting block, two groups of connecting rods are connected to the front side and the rear side of the connecting block, and the rolling roller is arranged above the filter plate. This a feed additive preparation facilities for controllable vibrio of small shed shrimp breed is provided with the linkage plate, and last output through two way motor will drive sector gear and rotate, and then makes sector gear will drive the linkage block and rotate, and then makes the roller that rolls will make a round trip to roll on the filter to make the granule of fodder more even, and then make things convenient for the small shed shrimp to feed and eat.

Description

A feed additive preparation facilities that is used for controllable vibrio of small shed shrimp to breed

Technical Field

The utility model relates to the technical field of small-shed shrimp culture, in particular to a vibrio-controllable feed additive preparation device for small-shed shrimp culture.

Background

When traditional shrimp feed is prepared, additives are often needed to be added, and the shrimp feed additives are required to be stirred and mixed when the preparation is carried out, and vibrio is not easy to survive below 20 degrees or above 40 degrees, so that a certain sterilization device is arranged inside a feed additive preparation device on the market to prevent and control vibrio, thereby improving the quality of the feed additives, and the feed additive preparation device on the market has certain defects:

publication No. CN110038467A discloses a shrimp feed additive preparation facilities, the device utilizes rabbling mechanism to carry out intensive mixing to the additive material in the mixing tank to improve feed additive's preparation effect, wherein, utilize drive assembly drive horizontal adjustment mechanism operation, and cooperate electronic telescopic cylinder, can adjust rabbling mechanism position … … in the mixing tank, but the granule of in-process fodder is bigger at the use, and then inconvenient small-canopy shrimp feeds, and the feed additive preparation facilities on the market can not conveniently carry out the ejection of compact of timing ration.

Therefore, the device for preparing the feed additive capable of preventing and controlling vibrios for culturing the shrimps in the small shed can well solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vibrio prevention and control feed additive preparation device for small-shed shrimp culture, which solves the problems that the feed additive preparation device in the prior market has larger feed particles in the using process, so that the small-shed shrimps are inconvenient to take food, and the feed additive preparation device in the market cannot conveniently discharge materials in a timed and quantitative manner.

In order to achieve the purpose, the utility model provides the following technical scheme: a feed additive preparation device capable of preventing and controlling vibrios for culturing small-shed shrimps is characterized in that a shell serving as a supporting device is installed on a horizontal ground, a feeding hole is formed in the top of the shell, and a bidirectional motor is installed on the outer wall of one side of the shell;

a filter plate is arranged inside the shell;

the discharge port is formed in the outer side of the bottom of the shell;

the method comprises the following steps:

the upper output end of the bidirectional motor is connected with a sector gear, the sector gear is arranged on the inner side of the connecting block, two groups of connecting rods are connected to the front side and the rear side of the connecting block, the other ends of the two groups of connecting rods are arranged at one end of a rolling roller, and the rolling roller is arranged above the filter plate.

Preferably, be swing joint between the one end of connecting rod and the linking piece, just be connected for the bearing between the other end of connecting rod and the one end of rolling the roller, and then make things convenient for the connecting rod to drive and roll the roller and remove.

Preferably, the inner side of the joining block is in meshed connection with the outer side of the sector gear, and the joining block forms a back-and-forth sliding structure with the shell through the sector gear, so that the sector gear drives the joining block to move.

Preferably, the lower output end of the two-way motor is connected with the supporting rod through a first bevel gear assembly, the other end of the supporting rod is connected with the shaft end of the rotary table through a second bevel gear assembly, a limiting block is fixed on the outer surface of one side of the rotary table, the limiting block is arranged on the inner side of the swing gear, the inner side of the swing gear is embedded in the outer side of the connecting shaft, a moving push block is arranged at the bottom of the swing gear, one end of the moving push block penetrates through the outer side of the guide rod, and one end of the moving push block is arranged inside the discharge port, so that quantitative discharging is convenient to carry out.

Preferably, the movable push block is connected with the swing gear in a meshed mode, the inner side of the swing gear is attached to the outer side of the limiting block, and the turntable is convenient to move by driving the swing gear through the limiting block.

Preferably, the movable pushing block forms a sliding structure with the inner wall of the discharge hole through the guide rod, and the guide rod is fixed at the bottom inside the shell, so that the movable pushing block moves back and forth on the inner wall of the discharge hole.

Compared with the prior art, the utility model has the beneficial effects that: the feed additive preparation device capable of preventing and controlling vibrio for small shed shrimp culture;

(1) the connecting plate is arranged, the fan-shaped gear is driven to rotate through the upper output end of the bidirectional motor, the fan-shaped gear drives the connecting block to rotate, one end of the connecting block is arranged on the inner side of the shell, the connecting block drives the rolling roller to roll through the connecting rod, and the rolling roller rolls back and forth on the filter plate, so that the feed particles are uniform, and the small-shed shrimps can be fed conveniently;

(2) be provided with the removal ejector pad, two-way motor's lower output will drive the bracing piece through first bevel gear subassembly and rotate, thereby make the bracing piece will drive the carousel through second bevel gear subassembly and rotate, because one side axle head of second bevel gear subassembly will drive the carousel and rotate, and then make the carousel will drive swing gear through the stopper and rotate, thereby make swing gear will drive the removal ejector pad that the meshing is connected and carry out the round trip movement through the guide bar in the inside of discharge gate, and then reach the purpose of quantitative ejection of compact.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top sectional view of the sector gear and engagement block connection of the present invention;

FIG. 3 is a schematic sectional view of the connection of the sector gear and the engagement block of the present invention;

FIG. 4 is a left side view structural diagram of the connection between the limiting block and the connecting shaft of the present invention;

fig. 5 is an enlarged schematic view of a portion of fig. 1 according to the present invention.

In the figure: 1. a housing; 2. a feed inlet; 3. a bi-directional motor; 4. a sector gear; 5. a joining block; 6. a connecting rod; 7. rolling a roller; 8. a filter plate; 9. a first bevel gear assembly; 10. a support bar; 11. a second bevel gear assembly; 12. a turntable; 13. a limiting block; 14. a connecting shaft; 15. a swing gear; 16. moving the push block; 17. a guide bar; 18. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a feed additive preparation device capable of preventing and controlling vibrios for culturing small-shed shrimps comprises: the device comprises a shell 1, a feeding hole 2, a bidirectional motor 3, a sector gear 4, a connecting block 5, a connecting rod 6, a grinding roller 7, a filter plate 8, a first bevel gear assembly 9, a supporting rod 10, a second bevel gear assembly 11, a rotary table 12, a limiting block 13, a connecting shaft 14, a swinging gear 15, a moving push block 16, a guide rod 17 and a discharging hole 18;

a shell 1 serving as a supporting device is arranged on a horizontal ground, a feeding hole 2 is formed in the top of the shell 1, and a bidirectional motor 3 is arranged on the outer wall of one side of the shell 1;

a filter plate 8 is arranged inside the shell 1;

a discharge port 18 opened at the outer side of the bottom of the casing 1;

the method comprises the following steps:

two-way motor 3's last output is connected with sector gear 4, and sector gear 4 sets up in the inboard that links up piece 5, and links up piece 5 front and back both sides and be connected with two sets of connecting rods 6, and the other end of two sets of connecting rods 6 all sets up in the one end of rolling roller 7, and rolling roller 7 sets up the top at filter 8.

One end of the connecting rod 6 is movably connected with the connecting block 5, and the other end of the connecting rod 6 is connected with one end of the rolling roller 7 through a bearing.

The inner side of the connecting block 5 is in meshed connection with the outer side of the sector gear 4, and the connecting block 5 forms a back-and-forth sliding structure with the shell 1 through the sector gear 4.

Combine accompanying drawing 1-3, at first, last output through two-way motor 3 will drive sector gear 4 and rotate, and then make sector gear 4 will drive the linking piece 5 that the meshing is connected and remove in the outside of casing 1, and the connecting rod 6 that links up the setting of both sides around piece 5 will drive rolls roller 7 and remove, thereby make roll roller 7 carry out round trip movement at the top of filter 8, thereby make the fodder that feed inlet 2 fell to roll through rolling roller 7, thereby make the granule of fodder more evenly fall, after starting the inside ultraviolet lamp of casing 1, and then kill the vibrio of the inside of the device through high temperature, and then the growth of preventing accuse vibrio in the in-process of preparation is numerous.

The lower output end of the bidirectional motor 3 is connected with a support rod 10 through a first bevel gear assembly 9, the other end of the support rod 10 is connected with the shaft end of a rotary table 12 through a second bevel gear assembly 11, a limiting block 13 is fixed on the outer surface of one side of the rotary table 12, the limiting block 13 is arranged on the inner side of a swing gear 15, the inner side of the swing gear 15 is embedded on the outer side of a connecting shaft 14, a movable push block 16 is arranged at the bottom of the swing gear 15, one end of the movable push block 16 penetrates through the outer side of a guide rod 17, and one end of the movable push block 16 is arranged inside a discharge hole 18.

The movable push block 16 is meshed with the swing gear 15, and the inner side of the swing gear 15 is attached to the outer side of the limiting block 13.

Combine figure 1, figure 4 and figure 5, at first the lower output of two-way motor 3 will drive bracing piece 10 through first bevel gear subassembly 9 and rotate, thereby make bracing piece 10 drive second bevel gear subassembly 11 and rotate, thereby make the axle head of second bevel gear subassembly 11 will drive carousel 12 and rotate, thereby make stopper 13 that carousel 12 one side set up will drive swing gear 15 and swing, the inner wall at casing 1 is passed through connecting axle 14 to one side of swing gear 15 simultaneously, swing gear 15 will drive the removal ejector pad 16 that the meshing is connected and move in the inside of discharge gate 18 through guide bar 17, thereby reach the purpose of carrying out the ration ejection of compact to discharge gate 18.

The movable pushing block 16 forms a sliding structure through the guide rod 17 and the inner wall of the discharge hole 18, and the guide rod 17 is fixed at the bottom inside the shell 1.

The working principle is as follows: when the feed additive preparation device capable of preventing and controlling vibrios for small-shed shrimp culture is used, firstly, the upper output end of the bidirectional motor 3 drives the sector gear 4 to rotate, and then the sector gear 4 drives the engagement block 5 in meshed connection to move outside the shell 1, so that feed falling from the feed inlet 2 is rolled by the rolling roller 7, and particles of the feed fall uniformly; firstly, the lower output end of the bidirectional motor 3 drives the support rod 10 to rotate through the first bevel gear assembly 9, one side of the swing gear 15 is connected to the inner wall of the shell 1 through the connecting shaft 14, the swing gear 15 drives the movable push block 16 connected in a meshed mode to move inside the discharge hole 18 through the guide rod 17, and therefore the purpose of quantitatively discharging the discharge hole 18 is achieved.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. A feed additive preparation device capable of preventing and controlling vibrios for small shed shrimp culture is characterized in that a shell (1) serving as a supporting device is installed on a horizontal ground, a feeding hole (2) is formed in the top of the shell (1), and a bidirectional motor (3) is installed on the outer wall of one side of the shell (1);

a filter plate (8) is arranged inside the shell (1);

a discharge port (18) provided outside the bottom of the housing (1);

it is characterized by comprising:

the last output of two-way motor (3) is connected with sector gear (4), sector gear (4) set up the inboard in linking up piece (5), just both sides are connected with two sets of connecting rods (6) around linking up piece (5), and the other end of two sets of connecting rods (6) all sets up the one end in rolling roller (7), rolling roller (7) set up the top in filter (8).

2. The apparatus for preparing feed additive capable of controlling vibrio for shrimp culture in small shed as claimed in claim 1, wherein: one end of the connecting rod (6) is movably connected with the connecting block (5), and the other end of the connecting rod (6) is connected with one end of the rolling roller (7) through a bearing.

3. The apparatus for preparing feed additive capable of controlling vibrio for shrimp culture in small shed as claimed in claim 1, wherein: the inner side of the joining block (5) is in meshed connection with the outer side of the sector gear (4), and the joining block (5) forms a back-and-forth sliding structure with the shell (1) through the sector gear (4).

4. The apparatus for preparing feed additive capable of controlling vibrio for shrimp culture in small shed as claimed in claim 1, wherein: the lower output end of the two-way motor (3) is connected with the supporting rod (10) through the first bevel gear assembly (9), the other end of the supporting rod (10) is connected with the shaft end of the rotary table (12) through the second bevel gear assembly (11), the outer surface of one side of the rotary table (12) is fixedly provided with a limiting block (13), the limiting block (13) is arranged on the inner side of the swing gear (15), the inner side of the swing gear (15) is nested on the outer side of the connecting shaft (14), the bottom of the swing gear (15) is provided with a movable push block (16), one end of the movable push block (16) penetrates through the outer side of the guide rod (17), and one end of the movable push block (16) is arranged inside the discharge hole (18).

5. The apparatus for preparing feed additive capable of controlling vibrio for shrimp culture in small shed as claimed in claim 4, wherein: the movable push block (16) is in meshed connection with the swing gear (15), and the inner side of the swing gear (15) is attached to the outer side of the limiting block (13).

6. The apparatus for preparing feed additive capable of controlling vibrio for shrimp culture in small shed as claimed in claim 4, wherein: the movable push block (16) forms a sliding structure through the guide rod (17) and the inner wall of the discharge hole (18), and the guide rod (17) is fixed at the bottom inside the shell (1).

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