CN218921320U - Mixed material feeding equipment for aquaculture - Google Patents

Abstract

The utility model discloses mixing and feeding equipment for aquaculture, which comprises a tank body, a mixing motor, a feeding pipe, stirring paddles, a top cover, a uniform discharging device and an auxiliary feeding mechanism. According to the utility model, the upper half part in the tank body is provided with the uniform discharging device, when mixing is started, the storage bins synchronously rotate along with the stirring paddles, all the storage chambers can sequentially discharge materials through the through holes, and due to the short residence time of the discharge holes, the storage chambers only discharge partial feed at a time, and the feed is directly scattered by the stirring paddles when being discharged, so that layering is not easy to generate between the feeds, the blending degree is higher, the effective feeding rate is improved, and the auxiliary feeding mechanism is arranged at the tail end outlet part of the feeding pipe and drives the feeding plate to rotate through the feeding motor, and the feed is outwards thrown out from the feeding window by utilizing the centrifugal force generated when the feeding plate rotates, so that the feeding range of the feeding pipe can be enlarged by the auxiliary feeding mechanism, and the fish shoal is effectively avoided.

Description

Mixed material feeding equipment for aquaculture

Technical Field

The utility model relates to the technical field of aquaculture, in particular to a mixing and feeding device for aquaculture.

Background

Aquaculture is the production activity of reproduction, cultivation and results aquatic animal and plant under artificial control, and the normal use of feeding machine is fed in the feeding process, can reduce manual operation to the feeding machine has mixed function, can select to mix different fodder with the feeding machine together before feeding, and then in unified the feeding pond, can improve feeding efficiency, is applicable to the aquaculture farm of mixed feeding.

Current patent application number: CN202220517273.3 an oxygenation feeding and mixing device for agricultural aquaculture, comprising a mixing cylinder and a cylinder cover, wherein the mixing cylinder, the cylinder cover, the feeding and mixing mechanism and the oxygenation mechanism are provided with the feeding and mixing mechanism on the cylinder cover, the feeding area of the device is large, and the device has the functions of stirring and mixing and oxygenation.

The patent describes a feeder with a mixing function, wherein a stirring paddle is mounted in the feeder for scattering and mixing added feed, but when a worker adds feed, generally, feed A is added firstly and feed B is added secondly, obvious upper and lower layering exists between the feeds due to the sequential sequence of the feed adding process, so that the mixing difficulty of the feeds is high, an ideal mixing effect is difficult to achieve in a short time, the effective feeding rate is reduced, in addition, the feeder in the prior art only has a feeding pipe on a discharging part, the feed can only fall out along the feeding pipe, the feeding range is small and difficult to adjust, the feeding of fish shoals is easy to cause, and the function of the feeding pipe can be further improved.

Disclosure of Invention

Therefore, in order to solve the defects, the utility model provides mixed material feeding equipment for aquaculture.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a feed equipment is thrown to compounding of aquaculture, includes a jar body, hybrid motor, throws feeding tube, stirring rake, top cap, even unloader and supplementary mechanism of throwing, jar body bottom surface mid-mounting has hybrid motor, jar body bottom surface edge installs the feeding tube, and the feeding tube communicates each other with jar internal portion, is equipped with the bleeder valve in the feeding tube to control the throwing of fodder, the inside bottom surface of jar body rotates installs the stirring rake, hybrid motor top output shaft extends into jar internal portion and is connected with the stirring rake bottom, the stirring rake is driven by hybrid motor and rotates, jar body top surface border department articulates and is provided with the top cap, jar internal portion top is provided with even unloader, even unloader includes baffle, through-hole, storage silo, storage chamber and bin, baffle is installed to jar internal side mid-mounting, the through-hole is seted up to the baffle from top to bottom, jar body inboard upper half is provided with the storage silo to the stirring rake top is connected with the storage silo, two at least storage chamber inside the storage silo have a through-hole, the feed mechanism is seted up to the discharge opening to the bottom.

Preferably, the outer diameter of the storage bin is matched with the inner diameter of the tank body.

Preferably, the through hole is positioned below the moving route of the discharge hole.

Preferably, at least two storage chambers are arranged in the storage bin, and the size of the space between the storage bins is consistent.

Preferably, the discharge port specifications of the different storage chambers are different.

Preferably, the auxiliary feeding mechanism comprises a charging barrel, a charging tray, a charging motor and a charging window, the charging barrel is arranged at the tail end of the charging barrel, the charging barrel is communicated with the inside of the charging barrel, the charging tray is rotatably arranged at the center of the inside of the charging barrel, the charging motor is arranged at the middle part of the bottom of the charging barrel, an output shaft at the top of the charging motor extends to the inner side of the charging barrel and is connected with the charging tray, and the charging window is arranged on the side face of the charging barrel.

Preferably, an arc chute is arranged on two sides of the material throwing window, and a baffle is connected in a sliding manner in the arc chute.

The utility model has the beneficial effects that:

according to the utility model, the uniform discharging device is arranged at the upper half part of the interior of the tank body, when mixing is started, the mixing motor drives the stirring paddles to rotate, the storage bins synchronously rotate along with the stirring paddles, all the storage chambers can sequentially discharge materials through the through holes, and due to the short residence time of the discharge holes, only part of feed can be discharged from the storage chambers at a time, and when the feed is discharged, the feed can be directly scattered by the stirring paddles, so that layering is not easy to generate between the feed, the blending degree is higher, and the effective feeding rate is improved.

According to the utility model, the auxiliary feeding mechanism is arranged at the outlet part of the tail end of the feeding pipe, the feeding plate is driven to rotate by the feeding motor, and the feed is outwards thrown out from the feeding window by utilizing the centrifugal force generated when the feeding plate rotates, so that the feeding range of the feeding pipe can be enlarged by the auxiliary feeding mechanism, and the fish shoal can be effectively prevented from competing for food.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the tank of the present utility model;

FIG. 3 is a schematic top view of the storage bin of the present utility model;

FIG. 4 is a schematic view of the structure of the present utility model with the partition of FIG. 3 removed;

FIG. 5 is a schematic view of the auxiliary delivery mechanism of the present utility model;

FIG. 6 is a schematic view of the structure of the auxiliary delivery mechanism of the present utility model after disassembly;

FIG. 7 is a schematic view of the bottom surface structure of the cartridge of the present utility model;

fig. 8 is a schematic view of a cross-sectional bottom view of a cartridge of the present utility model.

Wherein: the device comprises a tank body-1, a mixing motor-2, a feeding tube-3, a stirring paddle-4, a top cover-5, a uniform discharging device-6, a partition plate-61, a through port-62, a storage bin-63, a storage chamber-64, a discharge port-65, an auxiliary feeding mechanism-7, a charging barrel-71, a material throwing disc-72, a material throwing motor-73, a material throwing window-74, an arc chute-75 and a baffle plate-76.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1, the utility model provides a mixing and feeding device for aquaculture, which comprises a tank body 1, a mixing motor 2, a feeding pipe 3, a stirring paddle 4, a top cover 5, a uniform blanking device 6 and an auxiliary feeding mechanism 7, wherein the mixing motor 2 is installed in the middle of the bottom end surface of the tank body 1, the feeding pipe 3 is installed at the edge of the bottom end surface of the tank body 1, the feeding pipe 3 is communicated with the inside of the tank body 1, a discharge valve is arranged in the feeding pipe 3 to control feeding, the stirring paddle 4 is rotatably installed at the bottom surface of the inside of the tank body 1, an output shaft at the top of the mixing motor 2 extends into the inside of the tank body 1 and is connected with the bottom end of the stirring paddle 4, the stirring paddle 4 is driven to rotate by the mixing motor 2, the top cover 5 is hinged at the edge of the top end surface of the tank body 1, the uniform blanking device 6 is arranged at the upper half of the inside of the tank body 1, and the auxiliary feeding mechanism 7 is arranged at the outlet position at the tail end of the feeding pipe 3.

Referring to fig. 2-4, the uniform blanking device 6 in the utility model comprises a partition 61, a through hole 62, a storage bin 63, a storage chamber 64 and a discharge hole 65, wherein the partition 61 is arranged in the middle of the inner side of the tank 1 by screws, the partition 61 divides the inner part of the tank 1 into an upper part and a lower part, the through hole 62 is arranged in the area of the surface of the partition 61 near the edge, the through hole 62 penetrates through the partition 61 up and down, the cylindrical storage bin 63 is arranged in the upper half of the inner side of the tank 1, the bottom end surface of the storage bin 63 is close to the partition 61, the top end of the stirring paddle 4 is connected with the storage bin 63, the storage bin 63 can synchronously rotate along with the stirring paddle 4, at least two storage chambers 64 are separated in the storage bin 63, the storage chambers 64 are used for separating and storing feeds, the discharge hole 65 is arranged at the bottom end of the storage chamber 64, and the discharge hole 65 penetrates to the bottom of the storage bin 63.

Further, the outer diameter of the storage bin 63 is matched with the inner diameter of the tank body 1, so that the storage bin 63 and the tank body 1 are tightly matched, and feed is not easy to fall into a gap between the storage bin 63 and the tank body 1.

Further, the through openings 62 are below the moving path of the discharge openings 65, and when the storage bin 63 rotates, the discharge openings 65 of all the storage chambers 64 pass through the through openings 62, so that the discharging of all the storage chambers 64 can be realized.

Further, at least two storage chambers 64 are arranged in the storage bin 63, and the size of the space between the storage bins 63 is consistent, and the storage chambers 64 play a role in separating feeds, so that feeds with different components can be stored separately.

Further, the discharge openings 65 of different storage chambers 64 are different in size, and the user can select the storage chamber 64 with the discharge opening 65 of the corresponding size according to the granularity of the feed due to the large-sized, small-sized and powdery feed.

Referring to fig. 5-8, the auxiliary feeding mechanism 7 in the utility model comprises a feed cylinder 71, a feed throwing disc 72, a feed throwing motor 73 and a feed throwing window 74, wherein the feed cylinder 71 is arranged at the tail end of the feed throwing pipe 3 through screws, the feed throwing pipe 3 is communicated with the inside of the feed cylinder 71, the feed throwing disc 72 is rotatably arranged at the center of the inside of the feed cylinder 71, the feed throwing disc 72 is in an impeller shape and plays a role of throwing feed, the feed throwing motor 73 is arranged at the middle part of the bottom of the feed cylinder 71, the top output shaft of the feed throwing motor 73 extends into the inner side of the feed cylinder 71 and is connected with the feed throwing disc 72, the feed throwing disc 72 is driven to rotate by the feed throwing motor 73, the feed throwing window 74 is arranged at the side surface of the feed cylinder 71, and the feed is thrown outwards through the feed throwing window 74.

Further, two sides of the material throwing window 74 are provided with an arc-shaped chute 75, the baffle 76 is connected with the arc-shaped chute 75 in a sliding manner, the baffle 76 is arc-shaped and is matched with the arc of the arc-shaped chute 75, the baffle 76 can slide along the arc-shaped chute 75, and the baffle 76 plays a role in adjusting the size of the material throwing window 74 so as to adjust the throwing range of the feed.

The working principle is as follows:

firstly, before use, firstly, the feeder is connected into an external control box, so that parameters such as feeding time and feeding amount of the feeder can be conveniently adjusted.

Secondly, when in use, the feed needs to be filled firstly, the top cover 5 is opened to expose the storage bin 63, the feeds with different components can be separately filled into different storage chambers 64 by a user, in addition, the discharge ports 65 of the different storage chambers 64 are different in specification, the user can select the storage chamber 64 with the discharge port 65 with the corresponding specification according to the granularity of the feed, the feed mixer is applicable to large-particle, small-particle and powdery feeds, the application range is wide, and the top cover 5 can be turned down to start mixing after the feed is filled.

Thirdly, when mixing begins, the mixing motor 2 drives the stirring paddle 4 to rotate, the storage bin 63 can rotate along with the stirring paddle 4 synchronously, in the process of rotation of the storage bin 63, when the discharge port 65 at the bottom of the storage chamber 64 passes through the through hole 62, the storage chamber 64 can be downwards discharged into feed through the discharge port 65 and the through hole 62, the feed can fall into the bottom of the tank 1 and be scattered and mixed by the stirring paddle 4, when the discharge port 65 is staggered with the through hole 62, the feed in the storage chamber 64 can be blocked by the partition plate 61, discharging is stopped, all the storage chambers 64 can sequentially pass through the through hole 62 for discharging, and due to the short residence time of the discharge port 65, only part of feed can be discharged by the storage chamber 64 once, and when the feed is discharged, the feed can be directly scattered by the stirring paddle 4, so that layering is not easy to generate between the feeds, the blending degree is higher, and the effective feeding rate is improved.

Fourth, when throwing the feeding, the discharge valve in the feeding pipe 3 opens, let the fodder in the jar body 1 discharge, feed enters into in the feed cylinder 71 via feeding pipe 3, throw material motor 73 circular telegram work is driven to throw the charging tray 72 and is rotated this moment, utilize the centrifugal force that produces when throwing the charging tray 72 rotatory to throw the fodder outwards from throwing the material window 74, supplementary feeding mechanism 7 can enlarge the range of throwing feeding of feeding pipe 3, effectively avoid the fish crowd to fight for food, in addition, the user can slide baffle 76 along arc spout 75 and adjust its position, can adjust the size of throwing material window 74 through removing baffle 76, realize the regulation of fodder throwing scope, application scope is wider.

According to the mixed material feeding equipment for aquaculture, the upper half part of the interior of the tank body 1 is provided with the uniform discharging device 6, when mixing starts, the mixing motor 2 drives the stirring paddles 4 to rotate, the storage bins 63 synchronously rotate along with the stirring paddles 4, all the storage chambers 64 sequentially discharge materials through the through holes 62, due to the short residence time of the discharge holes 65, the storage chambers 64 only discharge partial feed once, the feed is directly scattered by the stirring paddles 4 when being discharged, layering is not easy to generate between the feeds, the blending degree is higher, the effective feeding rate is improved, the auxiliary feeding mechanism 7 is arranged at the tail end outlet part of the feeding pipe 3, the feed is driven to rotate by the feed throwing motor 73, the feed is thrown outwards from the feed throwing window 74 by the centrifugal force generated when the feed throwing disk 72 rotates, and the auxiliary feeding mechanism 7 can expand the feeding range of the feeding pipe 3, so that fish flocks can be effectively avoided.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. 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 (7)

1. The utility model provides a compounding of aquaculture throws and feeds equipment, includes a jar body (1), hybrid motor (2), throws feeding pipe (3), stirring rake (4) and top cap (5), hybrid motor (2) are installed to jar body (1) bottom face mid-mounting, jar body (1) bottom face edge installs throws feeding pipe (3), throws feeding pipe (3) and jar body (1) inside intercommunication each other, is equipped with the bleeder valve in throwing feeding pipe (3) to control the throwing of fodder, stirring rake (4) are installed in the rotation of jar body (1) inside bottom surface, hybrid motor (2) top output shaft extends into jar body (1) inside and is connected with stirring rake (4) bottom, stirring rake (4) are driven to rotate by hybrid motor (2), jar body (1) top face border department articulates and is provided with top cap (5);

the method is characterized in that: still including even unloader (6) and supplementary feeding mechanism (7), the inside upper portion of jar body (1) is provided with even unloader (6), even unloader (6) are including baffle (61), opening (62), storage silo (63), storage chamber (64) and bin outlet (65), baffle (61) are installed to the inboard mid-mounting of jar body (1), opening (62) have been seted up on baffle (61) surface, link up from top to bottom in baffle (61) opening (62), jar body (1) inboard upper half is provided with storage silo (63) to stirring rake (4) top is connected with storage silo (63), storage silo (63) internal separation has at least two storage chamber (64), discharge gate (65) have been seted up to storage silo (63) bottom to discharge gate (65) link up to storage silo (63) bottom, the terminal exit position of feeding tube (3) is provided with supplementary feeding mechanism (7).

2. A mixed feed device for aquaculture according to claim 1, wherein: the outer diameter of the storage bin (63) is matched with the inner diameter of the tank body (1).

3. A mixed feed device for aquaculture according to claim 1, wherein: the through hole (62) is positioned below the moving route of the discharge hole (65).

4. A mixed feed device for aquaculture according to claim 1, wherein: at least two storage chambers (64) are arranged in the storage bin (63), and the size of the space between the storage bins (63) is consistent.

5. A mixed feed device for aquaculture according to claim 1, wherein: the discharge ports (65) of different storage chambers (64) are different in specification.

6. A mixed feed device for aquaculture according to claim 1, wherein: the auxiliary feeding mechanism (7) comprises a feed cylinder (71), a feed throwing disc (72), a feed throwing motor (73) and a feed throwing window (74), wherein the feed cylinder (71) is arranged at the tail end of the feed throwing pipe (3), the feed throwing pipe (3) is mutually communicated with the inside of the feed cylinder (71), the feed throwing disc (72) is rotatably arranged at the center of the inside of the feed cylinder (71), the feed throwing motor (73) is arranged at the middle part of the bottom of the feed cylinder (71), the output shaft at the top of the feed throwing motor (73) extends into the inner side of the feed cylinder (71) and is connected with the feed throwing disc (72), and the feed throwing window (74) is formed in the side face of the feed cylinder (71).

7. A mixed feed apparatus for aquaculture according to claim 6, wherein: an arc chute (75) is formed in two sides of the material throwing window (74), and a baffle (76) is connected in a sliding manner in the arc chute (75).

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