CN219205581U - Industrial intelligent bait casting system - Google Patents

Abstract

The utility model discloses an industrial intelligent bait casting system, which relates to the technical field of bait casting systems and is used for solving the problem that an existing bait casting machine is difficult to accurately feed at a fixed position, and comprises an automatic feeding assembly, a first bin, a second bin and a third bin, wherein a discharging assembly is arranged between the first bin and the second bin, a first pneumatic valve is arranged between the second bin and the third bin, the third bin is connected with a main pipeline, a second pneumatic valve is arranged at the joint of the third bin and the main pipeline, the main pipeline is communicated with a plurality of branch pipelines, a third pneumatic valve is arranged between the main pipeline and each branch pipeline, and a blower is connected at the end part of the main pipeline close to the side of the third bin.

Description

Industrial intelligent bait casting system

Technical Field

The utility model relates to the technical field of bait casting systems, in particular to an industrial intelligent bait casting system.

Background

By knowing, most industrial cultivation workshops in China mainly depend on cultivation workers to feed baits manually, which is time-consuming, laborious and high in labor cost, and also has potential cultivation risks caused by human errors. Most of the existing bait casting machines on the market only control the timing start and stop and the bait casting time, the deviation of the feeding amount of each time is large, the precise feeding cannot be realized, the bait casting requirements of aquaculture workshops are not met, the intelligent control cannot be realized, and the intensive management cannot be realized.

Therefore, in view of the defects of the actual manufacturing and implementation of the scheme, the utility model is modified and improved, and the utility model is created by the assistance of professional knowledge and experience and after multi-party skillful and experimental, and the utility model provides a factory intelligent bait casting system which is used for solving the problem that the conventional bait casting machine is difficult to accurately feed in a fixed position.

Disclosure of Invention

The utility model aims to provide an industrial intelligent bait casting system which is used for solving the problem that an existing bait casting machine is difficult to accurately feed in a fixed position in a quantitative manner in the prior art.

The technical scheme of the utility model is realized as follows:

the utility model provides an industrial wisdom system of feeding, includes automatic feeding subassembly, first feed bin, second feed bin and third feed bin, automatic feeding subassembly is used for carrying out the material loading to first feed bin, be provided with the unloading subassembly between first feed bin and the second feed bin, the second feed bin is provided with the weighing ware, is used for the feed bin of accurate unloading of weighing, be provided with first pneumatic valve between second feed bin and the third feed bin, the third feed bin is connected with the trunk line, third feed bin and trunk line junction are provided with the second pneumatic valve, the trunk line intercommunication has many branch pipes, be provided with the third pneumatic valve between trunk line and each branch pipe, the end department that the trunk line is close to the third feed bin downside is connected with the air-blower, the end that the air-blower was kept away from to the trunk line is provided with the surplus material collecting vessel that is used for collecting unnecessary waste material.

As a preferred embodiment, the automatic feeding assembly comprises a CPU, a feeding mechanism, a first sensor and a second sensor, wherein the first sensor is located at the upper side of the first bin, the second sensor is located at the lower side of the first bin, the first sensor, the second sensor and the feeding mechanism are electrically connected with the CPU, and the feeding mechanism is used for feeding the first bin.

As a preferred embodiment, the first bin is located higher than the second bin in the vertical direction, a material conveying channel is arranged between the first bin and the second bin, and the first bin is used for conveying materials for the second bin.

As a preferred embodiment, the blanking assembly is arranged in the conveying channel and comprises a blanking motor and a blanking screw, the blanking motor is connected with the blanking screw, and the blanking motor is used for driving the blanking screw to rotate.

As a preferred implementation mode, the automatic feeding device comprises a main control box, wherein the CPU, the first pneumatic valve, the second pneumatic valve, the third pneumatic valve, the blanking motor and the blower are respectively connected with the main control box, and the main control box is connected with an alarm.

As a preferred embodiment, the tail end of each branch pipe is provided with a spraying nozzle for spraying materials.

As a preferred embodiment, each of the third pneumatic valves is a pneumatic three-way ball valve.

As a preferred implementation mode, an anemometer is arranged in the residual material collecting barrel, the anemometer is arranged on the end of the second pipeline, which is positioned in the residual material collecting barrel, and is used for measuring the air quantity at the tail end of the second pipeline in real time, and the anemometer is electrically connected with the master control box.

As a preferred embodiment, the bottom end of the anemometer is provided with a filter screen, and the filter screen is arranged at the top position of the residual material collecting barrel.

The industrial intelligent bait feeding system is characterized in that a first bin stores a large amount of materials, when the materials in the first bin are lower than those in a second sensor, a feeding mechanism performs feeding, when the materials reach the height of the first sensor, the feeding mechanism stops feeding, signals are transmitted to a CPU (central processing unit) by the sensors, and the CPU sends out operation or operation stopping instructions to the feeding mechanism. The fodder in the first feed bin relies on gravity to fall to the defeated material passageway to drive the unloading screw rod according to the unloading motor and rotate and get into the second feed bin, the second feed bin is from taking the function of weighing, and the accurate accuse volume of material can be realized to the reinforced bottom valve of first pneumatic valve of cooperation unloading subassembly. The weighed material enters a third bin under the neutral effect, the process is controlled by a first pneumatic valve, and the second pneumatic valve controls the discharging of the third bin. When the second pneumatic valve is opened, the second bin enters the main pipeline under the action of gravity, the main pipeline is provided with a blower, and the blowing force of the blower is matched with the opening and closing arrangement of each pneumatic three-way ball valve, so that the blower respectively blows the feed amount required by each pond to the corresponding culture pond requiring feed, and the waste collection barrel at the tail end can collect the residual feed for reuse; the anemometer provides air volume data for the main control box, so that the system is ensured to normally operate.

In order to further achieve the purpose of the utility model, the system adopts a pneumatic feeding and feeding mode, and the system respectively feeds the precise feed to each culture pond through a main material pipe and a plurality of branch material pipes, wherein the main material pipe is an important feeding pipeline, and the branch pipeline is a pipeline responsible for the distribution.

In order to further achieve the purpose of the utility model, each culture pond is provided with a pneumatic three-way ball valve, the pneumatic three-way ball valve is in a straight-through mode when in standby, the pneumatic three-way ball valve is changed into a right-angle mode when in operation, the feed is only provided for the culture pond, and the feeding amount of each culture pond can be accurately controlled by matching with the second feed bin for quantitatively weighing the feed in the front.

In order to further realize the aim of the utility model, the blanking motor can change speed, and different types of feeds have different feeding amounts at the same rotating speed due to different particle sizes, so that the rotating speed of the blanking motor can be flexibly regulated according to actual conditions so as to ensure the accuracy of the feeding amount.

In order to further achieve the purpose of the utility model, when the anemometer senses the air quantity, an air quantity signal is transmitted to the main control box, and the control box judges whether the feeding system, particularly the blower, operates normally or not, so that the normal operation of the feeding system is ensured.

In order to further achieve the purpose of the utility model, the feed enters the branch pipeline of each pond from the second pipeline and enters the culture pond from the spraying nozzles, and a plurality of spraying nozzles can be arranged in each culture pond, and the spraying nozzles adopt duckbill nozzles, so that the feeding is more uniform.

To further achieve the objects of the utility model, the master control box may be networked, downloading instructions from a web server. If the network signal is not good, the mobile phone can be used for connecting and uploading the instruction to the master control box through Bluetooth.

In order to further achieve the purpose of the utility model, after the main control box starts the blower, the anemometer detects the air quantity and uploads a signal to the main control box, then the main control box controls the blanking motor to operate, if the air quantity does not reach the standard, the automatic alarm is given, and the feeding is stopped.

The beneficial effects of the utility model are as follows: the utility model realizes accurate feeding in timing, positioning and quantification by intelligently controlling the blanking motor, the blower and each pneumatic three-way ball valve through the control box.

Compared with the existing manual feeding, the scheme is utilized to feed the bait, so that the manual labor intensity is greatly reduced, the labor cost is reduced, and the breeding risks such as human errors and the like caused by personnel operation are reduced.

Compared with the existing bait casting machine, the bait casting machine is more accurate and intelligent, can flexibly set bait casting time, bait casting areas and bait casting quantity, is higher in mechanization degree, is simpler and more convenient to feed, is better in effect, is lower in hardware cost, and is more suitable for the current industrial aquaculture requirement.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of an embodiment of the present utility model.

In the figure, a 1-automatic feeding component; 2-a feeding mechanism; 3-a first sensor; 4-a first bin; 5-a second sensor; 6-blanking motor; 7-blanking components; 8-a material conveying channel; 9-blanking screw rods; 10-a second bin; 11-a first pneumatic valve; 12-a weighing device; 13-a third bin; 14-a second pneumatic valve; 15-a main pipeline; 16-blower; 17-branch pipe; 18-a third pneumatic valve; 19-a spraying nozzle; 20-an aquaculture pond; 21-anemometer; 22-a filter screen; 23-a residue collecting barrel.

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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is 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 at least one such feature.

In the description of the embodiments, the terms "disposed," "connected," and the like are to be construed broadly unless otherwise specifically indicated and defined. For example, the connection can be fixed connection, detachable connection or integral connection; can be mechanically or electrically connected; can be directly connected, can be connected through an intermediary medium, and can also be communicated with the inside of two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The utility model provides an industrial wisdom system of throwing bait, including automatic feeding subassembly 1, first feed bin 4, second feed bin 10 and third feed bin 13, automatic feeding subassembly 1 is used for carrying out the material loading to first feed bin 4, be provided with unloading subassembly 7 between first feed bin 4 and the second feed bin 10, second feed bin 10 is provided with weighing ware 12, be used for the feed bin of accurate weighing unloading, be provided with first pneumatic valve 11 between second feed bin 10 and the third feed bin 13, third feed bin 13 is connected with trunk line 15, third feed bin 13 and trunk line 15 junction is provided with second pneumatic valve 14, the trunk line 15 intercommunication has many branch pipelines 17, be provided with third pneumatic valve 18 between trunk line 15 and each branch pipeline 17, the end department that trunk line 15 is close to the third feed bin 13 this side is connected with air-blower 16, the end that trunk line 15 kept away from air-blower 16 is provided with the surplus material collecting vessel 23 that is used for collecting unnecessary waste material.

The automatic feeding assembly 1 comprises a CPU, a feeding mechanism 2, a first sensor 3 and a second sensor 5, wherein the first sensor 3 is located at the upper side of the first storage bin 4, the second sensor 5 is located at the lower side of the first storage bin 4, the first sensor 3, the second sensor 5 and the feeding mechanism 2 are electrically connected with the CPU, and the feeding mechanism 2 is used for feeding the first storage bin 4.

The position of the first storage bin 4 in the vertical direction is higher than that of the second storage bin 10, a material conveying channel 8 is arranged between the first storage bin 4 and the second storage bin 10, and the first storage bin 4 is used for conveying materials for the second storage bin 10.

The blanking assembly 7 is arranged in the conveying channel 8, the blanking assembly 7 comprises a blanking motor 6 and a blanking screw 9, the blanking motor 6 is connected with the blanking screw 9, and the blanking motor 6 is used for driving the blanking screw to rotate.

The automatic feeding device comprises a main control box, a CPU, a first pneumatic valve 11, a second pneumatic valve 14, a third pneumatic valve 18, a feeding motor 6 and a blower 16, wherein the main control box is respectively connected with an alarm.

The tail end of each branch pipe 17 is provided with a spraying nozzle 19 for spraying materials.

Each third pneumatic valve 18 is a pneumatic three-way ball valve.

The inside of the residual material collecting barrel 23 is provided with an anemometer 21, the anemometer 21 is arranged on the end of the second pipeline, which is positioned in the residual material collecting barrel 23, the anemometer 21 is used for measuring the air quantity at the tail end of the second pipeline in real time, and the anemometer 21 is electrically connected with the master control box.

The air gauge 21 bottom is provided with filter screen 22, and filter screen 22 sets up the top position at surplus material collecting vessel 23.

The industrial intelligent bait casting system is characterized in that a first bin 4 stores a large amount of materials, when the materials of the first bin 4 are lower than a second sensor 5, a feeding mechanism 2 carries out feeding, when the materials reach the height of the first sensor 3, the feeding mechanism 2 stops feeding, signals are transmitted to a CPU (central processing unit) by the sensors, and the CPU sends out an operation or stop operation instruction to the feeding mechanism 2. The fodder in the first feed bin 4 relies on gravity to fall into the material conveying passageway 8 to drive unloading screw rod 9 according to unloading motor 6 and rotate and get into second feed bin 10, second feed bin 10 is from taking the function of weighing, and the accurate accuse volume of material can be realized in the feeding of cooperation unloading subassembly 7 and the bottom valve closure of first pneumatic valve 11. The weighed material enters a third bin 13 under the neutral action, the process is controlled by a first pneumatic valve 11, and the discharging of the third bin 13 is controlled by a second pneumatic valve 14. When the second pneumatic valve 14 is opened, the second stock bin 10 enters the main pipeline 15 under the action of gravity, the main pipeline 15 is provided with the air blower 16, and the blowing power of the air blower 16 is matched with the opening and closing arrangement of each pneumatic three-way ball valve, so that the air blower 16 respectively blows the feed amount required by each pond to the corresponding culture pond requiring feed, and the waste collection barrel at the tail end can collect the residual feed for reuse; the anemometer 21 provides air volume data for the main control box, so that the system is ensured to normally operate.

In order to further achieve the purpose of the utility model, the system adopts a pneumatic feeding and feeding mode, and the system respectively feeds the precise feed to each culture pond through a main material pipe and a plurality of branch material pipes, wherein the main material pipe is an important feeding pipeline, the branch pipeline 17 is a pipeline responsible for the distribution, and the main material pipe and the branch material pipes are both made of pvc materials.

In order to further achieve the purpose of the utility model, each culture pond is provided with a pneumatic three-way ball valve, the pneumatic three-way ball valve is in a straight-through mode when in standby, the pneumatic three-way ball valve is changed into a right-angle mode when in operation, the feed is only provided for the culture pond, and the feeding quantity of each culture pond can be accurately controlled by matching with the second feed bin 10 for quantitatively weighing the feed in the front.

In order to further realize the purpose of the utility model, the blanking motor 6 can change speed, and the feeding amounts of different types of feeds at the same rotating speed are different due to different particle sizes, so that the rotating speed of the blanking motor 6 can be flexibly regulated according to actual conditions so as to ensure the accuracy of the feeding amount.

To further achieve the object of the present utility model, when the anemometer 21 senses the air volume, an air volume signal is transmitted to the main control box, and the control box determines whether the feeding system, particularly the blower 16, is operating normally, thereby ensuring the normal operation of the feeding system.

In order to further achieve the purpose of the utility model, the feed enters the branch pipeline 17 of each pond from the second pipeline and enters the culture pond from the spray nozzles 19, and a plurality of spray nozzles 19 can be arranged in each culture pond, and the spray nozzles 19 adopt duckbill nozzles, so that the feeding is more uniform.

To further achieve the objects of the utility model, the master control box may be networked, downloading instructions from a web server. If the network signal is not good, the mobile phone can be used for connecting and uploading the instruction to the master control box through Bluetooth.

To further achieve the object of the present utility model, after the main control box turns on the blower 16, the anemometer 21 detects the air quantity and uploads a signal to the main control box, and then the main control box controls the blanking motor 6 to operate, and if the air quantity does not reach the standard, the automatic alarm is given, and the feeding is stopped.

Referring to fig. 1, a factory intelligent bait casting system is provided, a main control box is arranged outside a cultivation workshop, and a plurality of intelligent controllers and related electric equipment are connected and controlled through cables.

A first bin 4 is further arranged outside a workshop, the bottom of the first bin 4 is connected with a feed inlet of a feed conveying channel 8 at the top of a blanking screw 9, when a blanking motor 6 runs, feed of the first bin 4 enters a second bin 10 (namely a weighing bin) through the blanking screw 9, a weighing device 12 transmits all weight values of the weighing bin to an intelligent control box, and when the intelligent control box judges that the weight values accord with a set value, the rotation of the blanking motor 6 and the blanking screw 9 can be stopped to control the feeding amount.

When the blower 16 blows feed by using high-pressure air, the first pneumatic valve 11 and the second pneumatic valve 14 are opened, the feed enters the third storage bin 13 (namely the storage bin) and the main pipeline 15, and is fed into the first aquaculture pond (namely the leftmost aquaculture pond in the figure), the pneumatic valve above the aquaculture pond 20 changes the straight-through mode into the right-angle mode, the feed can enter the branch pipeline 17 from the main pipeline 15, is sprayed out by using the spraying nozzle 19, and is finally blown into the aquaculture pond 20 by wind, and the feeding process can be completed. Similarly, when feeding the second culture pond (namely the left-side aquaculture pond), the pneumatic valve above the aquaculture pond 20 changes the right-angle mode into the straight-through mode, so that the feeding of the second culture pond can be completed, the steps are repeated, the feeding operation of the rest culture ponds is completed, and the feeding of the aquaculture pond 20 can be realized as required.

The residual feed in the main pipe 15 is wind-fed into the residual feed collecting tub 23 to be collected for reuse. Wind of the blower 16 passes through the filter screen 22 and enters the anemometer 21, the anemometer 21 transmits real-time wind speed data to the master control box, when the wind speed data meets the requirement, the feeding system can perform the next operation, and if abnormality exists, the running is stopped and an alarm is given.

The beneficial effects of the utility model are as follows: the utility model realizes accurate feeding in timing, positioning and quantification by intelligent control of the blanking motor 6, the blower 16 and the pneumatic three-way ball valves by the control box.

Compared with the existing manual feeding, the scheme is utilized to feed the bait, so that the manual labor intensity is greatly reduced, the labor cost is reduced, and the breeding risks such as human errors and the like caused by personnel operation are reduced.

Compared with the existing bait casting machine, the bait casting machine is more accurate and intelligent, can flexibly set bait casting time, bait casting areas and bait casting quantity, is higher in mechanization degree, is simpler and more convenient to feed, is better in effect, is lower in hardware cost, and is more suitable for the current industrial aquaculture requirement.

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, alternatives, and improvements that fall within the spirit and scope of the utility model. In addition, the technical solutions between the embodiments may be combined with each other, but must be based on the implementation by those of ordinary skill in the art; when the combination of the technical solutions is contradictory or impossible to realize, it should be considered that the combination of the technical solutions does not exist and is not within the scope of protection claimed by the present utility model.

Claims (9)

1. The utility model provides an industrial wisdom system of feeding, its characterized in that, including automatic feeding subassembly, first feed bin, second feed bin and third feed bin, automatic feeding subassembly is used for carrying out the material loading to first feed bin, be provided with the unloading subassembly between first feed bin and the second feed bin, the second feed bin is provided with the weighing ware, is used for the feed bin of accurate unloading of weighing, be provided with first pneumatic valve between second feed bin and the third feed bin, the third feed bin is connected with the trunk line, third feed bin and trunk line junction are provided with the second pneumatic valve, the trunk line intercommunication has many branch pipes, be provided with the third pneumatic valve between trunk line and the each branch pipe, the end department that the trunk line is close to the third feed bin upside is connected with the air-blower, the end that the trunk line kept away from the air-blower is provided with the surplus material collecting vessel that is used for collecting unnecessary waste material.

2. The industrial intelligent bait casting system according to claim 1, wherein the automatic feeding assembly comprises a CPU, a feeding mechanism, a first sensor and a second sensor, the first sensor is located at the upper side of the first bin, the second sensor is located at the lower side of the first bin, the first sensor, the second sensor and the feeding mechanism are electrically connected with the CPU, and the feeding mechanism is used for feeding the first bin.

3. The industrial intelligent bait casting system according to claim 2, wherein the first bin is higher than the second bin in the vertical direction, a material conveying channel is arranged between the first bin and the second bin, and the first bin is used for conveying materials for the second bin.

4. The industrial intelligent bait casting system according to claim 3, wherein the blanking assembly is arranged in the material conveying channel and comprises a blanking motor and a blanking screw, the blanking motor is connected with the blanking screw, and the blanking motor is used for driving the blanking screw to rotate.

5. The industrial intelligent bait casting system according to claim 4, comprising a main control box, wherein the CPU, the first pneumatic valve, the second pneumatic valve, the third pneumatic valve, the blanking motor and the blower are respectively connected with the main control box, and the main control box is connected with an alarm.

6. The industrial intelligent bait casting system according to claim 1, wherein the tail end of each branch pipeline is provided with a spraying nozzle for spraying materials.

7. The industrial intelligent bait casting system of claim 1, wherein each third pneumatic valve is a pneumatic three-way ball valve.

8. The industrial intelligent bait casting system according to claim 5, wherein an anemometer is arranged in the residual material collecting barrel, the anemometer is arranged on the end of the second pipeline, which is positioned in the residual material collecting barrel, and is used for measuring the air quantity of the tail end of the second pipeline in real time, and the anemometer is electrically connected with the master control box.

9. The industrial intelligent bait casting system according to claim 8, wherein a filter screen is arranged at the bottom end of the anemometer and is arranged at the top position of the residue collecting barrel.

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