CN219228744U - Food flow control system is thrown to rice frog - Google Patents

Abstract

The utility model relates to the technical field of feeding of rice and frog, in particular to a rice and frog feeding flow control system, which comprises a vehicle body, a hopper, a feeding pipe and a material control device, wherein the vehicle body is arranged in a circulating way around a rice field along a preset track, the hopper is arranged on the vehicle body and is arranged in a moving way along with the vehicle body, a storage bin for storing frog baits is arranged in the hopper, the feeding pipe extends to one side of the rice field from the bottom of the hopper, the feeding pipe is communicated with the hopper, the frog baits in the hopper are fed into the rice field, and the material control device is used for adjusting the size of a discharge hole at the discharge end part of the feeding pipe, so that when the frog baits are fed, the feeding amount of the frog baits can be controlled according to the environmental factors of the day, and the setting of a humidity sensor is matched with the material control device, so that the aim of quantitatively feeding the frog baits according to the air humidity is achieved.

Description

Food flow control system is thrown to rice frog

Technical Field

The utility model relates to the technical field of feeding of rice and frog, in particular to a rice and frog feeding flow control system.

Background

With the development of economy in China and the improvement of living standard of people, the demands of consumers on organic rice are increased, the nutrition of frog meat is rich and the frog meat has considerable medical value, the frog cultivation has rapid development in recent years, the related cultivation modes are also very large, and the rice frog mode can well realize one-land dual-purpose, one-water two-cultivation and one-season two-harvest, so that mu yield is greatly increased, the ecological mixed cultivation of rice and frog is utilized, the production potential of rice field space is excavated, the interaction of rice and frog is realized, the cultivation cost is reduced, the rice and frog intergrowth is co-inhabited, promoted and interacted, the frog can not only ingest aquatic and water-falling pests, but also predate pests attached to rice stems and leaves.

Therefore, in the whole rice planting process, pesticides are not used basically, the quality of rice and frogs is improved, rice and frog products produced by raising the frogs in the rice field are free of pesticides and chemical fertilizer pollution, the frogs keep the original body surface color and taste, the quality is close to natural, the rice is organic rice, market competitiveness is enhanced, rice field planting economic benefits are improved, symbiotic property of rice and frog growth can be effectively reflected, rice field comprehensive planting benefits can be better reflected, but the rice frog comprehensive planting mode needs to be further enriched and perfected, the frog feeding table area of the conventional rice frog planting system is open-air, so that frog feeds on the feeding table area can cause mildew and deterioration due to rainwater, not only can waste the feeds, but also can influence normal cultivation growth after the frogs eat deteriorated feeds, and the death rate of the frogs in the cultivation process is improved.

In the Chinese patent with the patent application number of CN202010716658.8, an ecological breeding system for rice and frog is specifically disclosed, and belongs to the technical field of agricultural breeding. The utility model relates to a feed throwing mechanism which is arranged on a rice frog breeding Tian Ji between two ecological breeding fields, wherein a rice planting area and a feeding table area are arranged in the ecological breeding fields, a frog escape preventing fence is arranged on the outer sides of the ecological breeding fields, a bird predation preventing blocking net is arranged on the upper sides of the two ecological breeding fields, a frog shed support is fixedly arranged on the upper sides of the feeding table areas of the two ecological breeding fields, a protective coating is covered on the upper sides of the frog shed support, a plurality of feeding basin placing bases on the upper sides of the feeding table areas are provided with feed placing food basins, a reciprocating translation support of the feed throwing mechanism is arranged on the upper sides of the feeding translation bases, and a feed guiding mechanism and a feed guiding driving mechanism are sequentially arranged on the feed throwing support from top to bottom.

Although the patent specifically discloses an ecological system for feeding the frogs, the technical scheme is excessively complex in structure and cannot regulate and control the feeding amount.

Disclosure of Invention

According to the utility model, the material control device is arranged at the discharge end part of the feeding pipe, and the material control device is utilized to adjust the size of the discharge hole at the discharge end part of the feeding pipe, so that when the frog bait is fed, the control can be performed according to the environmental factors of the day, the feeding amount of the frog bait is controlled, the setting of the humidity sensor is matched, and the control fan is matched with the material control device, so that the aim of quantitatively feeding the frog bait according to the air humidity is fulfilled.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a frog feeding flow control system, comprising:

the feeding device comprises a vehicle body, a hopper, a feeding pipe and a material control device;

the vehicle body is circularly arranged around the rice field along a preset track;

the hopper is arranged on the vehicle body and moves along with the vehicle body, and a storage bin for storing frog baits is arranged in the hopper;

the feeding pipe extends from the bottom of the hopper to one side of the paddy field, is communicated with the hopper and is used for feeding the frog baits in the hopper into the paddy field;

the material control device is arranged at the discharge end part of the feeding pipe, controls the opening of the feeding pipe, and comprises two groups of symmetrically arranged material control plates, gears and motors, wherein the material control plates are driven by the motors through the gears to synchronously overturn.

As an improvement, the material outlet of the frog bait formed by swinging the material control plate is perpendicular to the moving direction of the vehicle body.

As an improvement, an exhaust cleaning mechanism is arranged on the outer side of the hopper, is positioned in front of the esophagus, and discharges airflow towards the rice field.

As an improvement, the exhaust cleaning mechanism comprises a wind scoop, a connecting pipe, an exhaust nozzle and a fan;

the wind scoop is arranged at the front end part of the hopper, and absorbs air in the process of moving along with the vehicle body;

the connecting pipe is connected with the wind scoop and the exhaust nozzle, and air absorbed by the wind scoop is vertically discharged downwards from the exhaust nozzle;

the fan is arranged in the connecting pipe and drives air at the wind scoop to flow to the exhaust nozzle.

As an improvement, the exhaust nozzle is arranged in a straight shape and is perpendicular to the moving direction of the vehicle body.

As an improvement, the width of the exhaust nozzle is larger than that of the discharge hole.

As an improvement, a humidity sensor is arranged in the wind hopper and is connected with the motor and the fan respectively through a controller, the humidity sensor transmits signals, and the motor runs to drive the material control plate to swing so as to control the opening width of the discharge hole.

As an improvement, the hopper comprises a bottom bin and a cover plate, wherein the bottom bin is communicated with the hopper, the cover plate is rotatably arranged at the top of the bottom bin, and the cover plate is used for sealing the top opening of the bottom bin.

The utility model has the beneficial effects that:

(1) According to the utility model, the material control device is arranged at the discharge end part of the feeding pipe, and the material control device is used for adjusting the size of the discharge hole at the discharge end part of the feeding pipe, so that when the frog bait is fed, the control can be performed according to the environmental factors of the day, the feeding amount of the frog bait is controlled, the setting of the humidity sensor is matched, and the control fan is matched with the material control device, so that the aim of quantitatively feeding the frog bait according to the air humidity is fulfilled;

(2) In the weather with high humidity, particularly in rainy days, the utility model can clean the area where the frog baits are put through the exhaust cleaning mechanism, clean rainwater from the frog baits putting area, then put a layer of thin frog baits, and after the rice frog is attracted, increase the putting amount of the frog baits, so that the frog baits are quickly eaten by the rice frog, and decay and waste of the frog baits are avoided.

In conclusion, the utility model has the advantages of controllable throwing amount, reasonable regulation and control according to weather conditions and the like, and is particularly suitable for the technical field of automatic feeding of the rice frog baits.

Drawings

FIG. 1 is a schematic perspective view of the first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model;

FIG. 3 is an enlarged schematic view of the structure shown in FIG. 2A;

FIG. 4 is a schematic side view of the present utility model;

FIG. 5 is an enlarged schematic view of the structure shown at B in FIG. 4;

FIG. 6 is a schematic diagram of a partial structure of the present utility model;

fig. 7 is a schematic diagram of a partial structure of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1:

as shown in fig. 1 to 7, a frog feeding flow rate control system includes:

the automatic feeding device comprises a vehicle body 1, a hopper 2, a feeding pipe 3 and a material control device 4;

the vehicle body 1 is circularly arranged around a paddy field along a preset track;

the hopper 2 is arranged on the vehicle body 1 and moves along with the vehicle body 1, and a storage bin 21 for storing the frog baits is arranged in the hopper 2;

the feeding pipe 3 extends from the bottom of the hopper 2 to one side of the paddy field, the feeding pipe 3 is communicated with the hopper 2, and the frog baits in the hopper 2 are fed into the paddy field;

the material control device 4 is arranged at the discharging end part of the feeding pipe 3, the material control device 4 controls the opening of the feeding pipe 3, the material control device 4 comprises two groups of material control plates 41, gears 42 and motors 43 which are symmetrically arranged, and the material control plates 41 are driven by the motors 43 through the gears 42 to synchronously overturn.

Further, the material outlet 411 of the bait formed by swinging the material control plate 41 is perpendicular to the moving direction of the vehicle body 1.

More preferably, an exhaust cleaning mechanism 5 is provided outside the hopper 2, the exhaust cleaning mechanism 5 is positioned in front of the esophagus 3, and the exhaust cleaning mechanism 5 discharges an airflow toward the paddy field.

Specifically, the exhaust cleaning mechanism 5 includes a wind scoop 51, a connecting pipe 52, an exhaust nozzle 53 and a fan 54;

the wind scoop 51 is mounted at the front end of the hopper 2, and the wind scoop 51 absorbs air during movement of the vehicle body 1;

the connecting pipe 52 connects the wind scoop 51 and the exhaust nozzle 53, and the air absorbed by the wind scoop 51 is exhausted vertically and downwards from the exhaust nozzle 53;

the fan 54 is installed in the connection pipe 52, and the fan 54 drives the air at the air hopper 51 to flow toward the air discharge nozzle 53.

Further, the exhaust nozzle 53 is disposed in a straight line shape, and the exhaust nozzle 53 is disposed perpendicular to the moving direction of the vehicle body 1.

Further, the width of the exhaust nozzle 53 is greater than the width of the discharge opening 411.

In addition, a humidity sensor 55 is disposed in the wind hopper 51, the humidity sensor 55 is respectively connected with the motor 43 and the fan 54 through a controller, a signal is transmitted from the humidity sensor 55, and the motor 43 operates to drive the material control plate 41 to swing to control the opening width of the material outlet 411.

It should be noted that, vehicle body 1 drives hopper 2 and carries out the circulation along preset track, at the in-process that removes, and the material control device 4 is opened the throwing tip of throwing esophagus 3 for in the frog bait can put into the paddy field, and the frog bait is put into along the border of paddy field, can not enter into the paddy field inside, has guaranteed the inside neatly of paddy field.

Further, in the process of putting the frog baits, the humidity sensor 55 detects the humidity in the air, in rainy days or relatively humid days, the fan 54 is started first, so that the air extracted from the air funnel 51 is vertically discharged downwards into the paddy field from the air outlet 53, the area where the frog baits are to be put is cleaned, the accumulated rainwater is blown out of the area, then the small quantity of frog baits are put into the bait area of the paddy field through the narrow discharge hole 411 formed by swinging the material control plate 41, the rice frog is led out from the paddy field, and then the discharge hole 411 is enlarged, so that the frog baits are put in a large quantity for immediate eating of the concentrated rice frog baits.

It is emphasized here that the rice frog can only grasp dynamic food, so that the application firstly attracts and concentrates the rice frog, and then carries out a large amount of throwing of the frog baits, so that the rice frog can grasp the frog baits in throwing, and the rice frog baits can not be caused to stand after being thrown into a rice field, so that the rice frog cannot eat.

In addition, as a preferred embodiment, the hopper 2 includes a bottom bin 22 and a cover plate 23, the bottom bin 22 is disposed in communication with the hopper 2, the cover plate 23 is rotatably mounted on the top of the bottom bin 22, and the cover plate 23 is used for sealing the top opening of the bottom bin 22.

The hopper 2 is provided in a fully sealed manner, the bait is stored in the hopper 2, and when feeding is required, the hopper 2 performs feeding work, and after the stored bait is completely fed, the cover plate 23 is lifted to supplement the bait.

The working process comprises the following steps:

the vehicle body 1 drives the hopper 2 to circularly move along a preset track, in the moving process, humidity in the air can be detected through the humidity sensor 55, whether the fan 54 is started or not is determined, meanwhile, the opening amplitude of the feeding end of the feeding pipe 3 by the material control device 4 is determined, for example, in rainy days, the humidity in the air can be detected through the humidity sensor 55, in rainy days or in relatively humid days, the fan 54 is started firstly, so that the air extracted from the air hopper 51 is vertically discharged downwards into a paddy field from the air outlet 53, a region needing to be fed with frog baits is cleaned, the accumulated rainwater is blown out of the region, then a small quantity of frog baits are fed into the region of the paddy field through the small discharging hole 411 formed by swinging of the material control plate 41, the rice is led out from the paddy field, and then the discharging hole 411 is enlarged, so that the frog baits are fed in a large quantity, the concentrated rice baits are fed immediately, and in the fine days, the fan 54 is not started, and a large discharging hole formed by swinging the material control plate 41 is fed into the region of the paddy field.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. A frog feeding flow control system, comprising:

a vehicle body (1), a hopper (2), a feeding pipe (3) and a material control device (4);

the vehicle body (1) is circularly arranged around the rice field along a preset track;

the hopper (2) is arranged on the vehicle body (1) and is arranged along with the vehicle body (1) in a moving way, and a storage bin (21) for storing the frog baits is arranged in the hopper (2);

the feeding pipe (3) extends to one side of the rice field from the bottom of the hopper (2), the feeding pipe (3) is communicated with the hopper (2), and the frog baits in the hopper (2) are fed into the rice field;

the material control device (4) is arranged at the discharge end part of the feeding pipe (3), the material control device (4) controls the opening of the feeding pipe (3), the material control device (4) comprises two groups of symmetrically arranged material control plates (41), gears (42) and motors (43), and the material control plates (41) are synchronously turned and arranged by the motors (43) through the gears (42).

2. A frog feeding flow control system as claimed in claim 1, wherein:

the material control plate (41) swings to form a frog bait discharge hole (411) which is perpendicular to the moving direction of the vehicle body (1).

3. A frog feeding flow control system as claimed in claim 2, wherein:

an exhaust cleaning mechanism (5) is arranged on the outer side of the hopper (2), the exhaust cleaning mechanism (5) is positioned in front of the feeding pipe (3), and the exhaust cleaning mechanism (5) discharges airflow towards the rice field.

4. A frog feeding flow control system as claimed in claim 3, wherein:

the exhaust cleaning mechanism (5) comprises a wind scoop (51), a connecting pipe (52), an exhaust nozzle (53) and a fan (54);

the wind scoop (51) is arranged at the front end part of the hopper (2), and the wind scoop (51) absorbs air in the moving process of the wind scoop along with the vehicle body (1);

the connecting pipe (52) is used for connecting the wind scoop (51) with the exhaust nozzle (53), and air absorbed by the wind scoop (51) is vertically discharged downwards from the exhaust nozzle (53);

the fan (54) is arranged in the connecting pipe (52), and the fan (54) drives air at the wind bucket (51) to flow to the exhaust nozzle (53).

5. A frog feeding flow control system as claimed in claim 4, wherein:

the exhaust nozzle (53) is arranged in a straight line, and the exhaust nozzle (53) is arranged perpendicular to the moving direction of the vehicle body (1).

6. A frog feeding flow control system as claimed in claim 4, wherein:

the width of the exhaust nozzle (53) is larger than that of the discharge hole (411).

7. A frog feeding flow control system as claimed in claim 4, wherein:

the novel automatic material control device is characterized in that a humidity sensor (55) is arranged in the wind hopper (51), the humidity sensor (55) is respectively connected with the motor (43) and the fan (54) through a controller, signals are transmitted from the humidity sensor (55), the motor (43) operates to drive the material control plate (41) to swing and control the opening width of the material outlet (411).

8. A frog feeding flow control system as claimed in claim 1, wherein:

hopper (2) include end storehouse (22) and apron (23), end storehouse (22) with hopper (2) intercommunication sets up, apron (23) rotary mounting in the top of end storehouse (22), this apron (23) are used for sealing the open-top of end storehouse (22).

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