CN109349200B

CN109349200B - Pond culture auxiliary system and use control method thereof

Info

Publication number: CN109349200B
Application number: CN201811532871.2A
Authority: CN
Inventors: 麦冠军
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-14
Filing date: 2018-12-14
Publication date: 2023-08-29
Anticipated expiration: 2038-12-14
Also published as: CN109349200A

Abstract

The invention discloses a pond culture auxiliary system and a use control method thereof, wherein a first electric air valve of the system is used for controlling a corresponding blanking pipe to downwards blanking, so that a corresponding storage tower can be selected for blanking according to the type of feed required by an automatic feeder; the blanking after passing through the first electric air valve is sent to the main air pipe by the fan, so that the problem that the air blower reversely irrigates air to the blanking pipe through the main air pipe can be prevented, and the blanking machine has outstanding substantive characteristics and remarkable progress; the blower blows air into the main air pipe from one end, so that blanking sent to the main air pipe by the closing blower is conveniently blown to the rear end of the main air pipe; and a controlled air duct steering mechanism is arranged near the joint of the main air duct and each branch air duct, so that whether the branch air duct is connected with the main air duct or not and whether the front section and the rear section of the main air duct are connected or not are conveniently controlled, and blanking is finally blown to the corresponding branch air duct.

Description

Pond culture auxiliary system and use control method thereof

Technical Field

The invention relates to a pond culture auxiliary system and a use control method thereof.

Background

At present, the existing batch feeders for pond culture are all independently used, the placement positions of the batch feeders are not centralized, the placement range is wide, and each batch feeder needs to be fed manually, so that time and labor are wasted.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by the person skilled in the art.

Disclosure of Invention

The invention overcomes the defects of the technology and provides a pond culture auxiliary system and a use control method thereof.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the pond culture auxiliary system comprises a plurality of storage towers 1, blanking pipes 2 connected to the lower ends of the corresponding storage towers 1, first electric air valves 3 used for controlling the blanking pipes 2 to be blanked downwards, a fan closing 5 used for sending blanking passing through the first electric air valves 3 to a main air pipe 4, the main air pipe 4 connected with a plurality of branch air pipes 6, a blower 7 used for blowing air from one end to the main air pipe 4, and an automatic feeder 8 with a storage cavity communicated with the branch air pipes 6, wherein a controlled air duct steering mechanism 9 used for controlling whether the branch air pipes 6 are connected with the main air pipe 4 or not and controlling whether the front section and the rear section of the main air pipe 4 are connected or not is arranged near the joint of the main air pipe 4 and each branch air pipe 6, and the pond culture auxiliary system further comprises a main control module used for controlling the first electric air valves 3, the fan closing 5, the blower 7 and the controlled air duct steering mechanism 9.

The auxiliary system for pond culture as described above, the controlled air duct steering mechanism 9 includes a three-way joint 90 for connecting with the main air duct 4 of the front section and the main air duct 4 and the branch air duct 6 of the rear section, and the three-way joint 90 is provided with a second electric air valve 91 for controlling whether the main air duct 4 of the front section is connected with the branch air duct 6, and a third electric air valve 92 for controlling whether the main air duct 4 of the front section is connected with the main air duct 4 of the rear section; or the controlled air duct steering mechanism 9 is a three-way valve body 93, the three-way valve body 93 is provided with an input interface 931 for connecting with the main air duct 4 of the front section, a main output interface 932 for connecting with the main air duct 4 of the rear section, a branch connection interface 933 for connecting with the branch air duct 6, a valve core 935 for controlling whether the branch air duct 6 is connected with the main air duct 4 and controlling whether the front section and the rear section of the main air duct 4 are connected, and a motor 936 for driving the valve core 935 to rotate so as to seal the input interface 931 or seal the main output interface 932 or seal the branch connection interface 933 or not seal any interface, the three-way valve body 93 is provided with a motor base 937 for fixing the motor 936 thereon, a magnetic block 9351 is arranged on the valve core 935, a control circuit board 938 is arranged on the motor base 937, and a plurality of hall sensors 9381 for detecting the position of the magnetic block 9351 are arranged on the control circuit board 938, and the control circuit board is electrically connected with the main control module or wirelessly connected.

According to the pond culture auxiliary system, the air inlet end pipeline of the blower 7 is connected with the three-way pipeline 11, one branch pipe of the three-way pipeline 11 is connected with the air filter 13 after being provided with the fourth electric air valve 12, the other branch pipe is communicated with the atmosphere after being provided with the fifth electric air valve 14, the other end of the air filter 13 is communicated with the upper parts of the inner cavities of all the storage towers 1 through connecting pipes, the fourth electric air valve 12 and the fifth electric air valve 14 are controlled by the main control module, and the upper parts of the inner cavities of the storage towers 1 are further communicated with the suction pipes 15 outwards.

In the pond culture auxiliary system, the number of the shut-off fans 5 is one, the feeding end of each shut-off fan 5 is connected with the inclined collecting pipe 16, and the rear ends of the first electric air valves 3 are communicated with the inclined collecting pipes 16.

In the pond culture auxiliary system, the sensors for detecting the amount of feed are respectively arranged in the storage tower 1 and the storage cavity of the automatic feeder 8.

As described above, the scheme also protects a use control method of the pond culture auxiliary system, which comprises a control setting step and a specific feeding step, wherein,

and a control setting step: setting the type of feed stored by each storage tower 1 on a main control module, setting the type of feed required by each automatic feeder 8 or the type of feed required by each movable feeder 8 in each period, setting the corresponding relation between each storage tower 1 and each first electric air valve 3, setting the front-back position relation of each controlled air duct steering mechanism 9 on a main air duct 4, and setting the corresponding relation between each branch air duct 6, each movable feeder 8 and the controlled air duct steering mechanism 9;

the specific feeding steps are as follows: when a certain storage tower 1 is to feed to a certain automatic feeder 8 or feed to a certain automatic feeder 8 at the same time, the main control module controls the first electric air valve 3 corresponding to the storage tower 1 to be opened, controls the air blower 7 to be opened and controls the air closing machine 5 to be opened, and controls each controlled air duct steering mechanism 9 to act so that the branch air pipes 6 corresponding to the corresponding automatic feeder 8 are communicated with the channels between the air blower 7 and the branch air pipes 6 corresponding to the rest automatic feeders 8 are not communicated with the main air pipe 4 until the feeding is finished.

The use control method of the pond culture auxiliary system further comprises the following steps of: before or after feeding, the main control module controls the first electric air valves 3 and the air closing machines 5 to be closed, then controls the air blowers 7 and the controlled air duct steering mechanisms 9 to be opened, and controls the above components to be closed after waiting for the air blowers 7 to run for a period of time.

Compared with the prior art, the invention has the beneficial effects that:

1. the first electric air valve of the pond culture auxiliary system is used for controlling the corresponding blanking pipe to drop downwards, so that the corresponding storage tower can be selected for blanking according to the type of feed required by the automatic feeder, and the pond culture auxiliary system has outstanding substantive characteristics and remarkable progress; the blanking after passing through the first electric air valve is sent to the main air pipe by the fan, so that the problem that the air blower reversely irrigates air to the blanking pipe through the main air pipe can be prevented, and the blanking machine has outstanding substantive characteristics and remarkable progress; the blower blows air into the main air pipe from one end, so that blanking sent to the main air pipe by the closing blower is conveniently blown to the rear end of the main air pipe; and a controlled air duct steering mechanism is arranged near the joint of the main air duct and each branch air duct, so that whether the branch air duct is connected with the main air duct or not and whether the front section and the rear section of the main air duct are connected or not are conveniently controlled, and blanking is finally blown to the corresponding branch air duct.

2. The controlled air duct steering mechanism is realized by adopting the three-way connector and the two electric air valves, so that whether the branch air duct is connected with the main air duct or not is conveniently controlled by controlling the action of the second electric air valve, and whether the branch air duct is connected with the front section and the rear section of the main air duct or not is conveniently controlled by controlling the action of the third electric air valve; when the three-way valve body is adopted on the controlled air duct steering mechanism, the motor drives the valve core to rotate to seal the input interface or the main output interface or the branch connection interface or the motor without sealing any interface, so that the control of whether the branch air duct is connected with the main air duct or not and whether the connection between the front section and the rear section of the main air duct is controlled by different positions of the same valve core is facilitated, and the controlled air duct steering mechanism is compact in structure and convenient to implement.

3. When the storage towers are larger and higher and are not easy to supplement feed to the storage towers manually, the negative pressure is generated in the storage towers by controlling the opening of the blower and the fourth electric air valve and the closing of the fifth electric air valve, so that each storage tower sucks purchased bagged or bulk feed into the storage tower through the corresponding suction pipe, and the electric feed supplementing to the storage towers is facilitated.

4. This scheme is through setting up the blanking after each first electronic blast gate and is sent to the feed end of a close fan through setting up the slope collecting tube, so, is favorable to reducing to set up a plurality of close fans and increase the problem emergence of setting up the cost to system control is simpler.

5. The control method is used for controlling the first electric air valve, the air closing machine, the air blower and the controlled air duct steering mechanism, so that the aim of electric feeding to the corresponding automatic feeder according to the required feed type is fulfilled, the branch air pipes and the automatic feeder are conveniently connected in an expanded mode, large-scale pond culture assistance is facilitated, and the automatic feeder has outstanding substantive characteristics and remarkable progress.

6. The pipeline cleaning step is convenient to ensure the smoothness of the main air pipe and the branch air pipes before or after feeding, and avoids the influence on normal feeding use caused by accumulation of residual materials due to long-term retention in the air pipes.

Drawings

Fig. 1 is a structural view of the present case.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a three-way valve body of the present case.

Fig. 4 is an internal structure diagram of the three-way valve body of the present case.

Detailed Description

The following examples are provided to illustrate the features of the present invention and other related features in further detail to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 4, a pond culture auxiliary system comprises a plurality of storage towers 1, blanking pipes 2 connected to the lower ends of the corresponding storage towers 1, first electric air valves 3 for controlling the blanking pipes 2 to blanking downwards, a fan closing 5 for sending blanking passing through the first electric air valves 3 to a main air pipe 4, the main air pipe 4 connected with a plurality of branch air pipes 6, an air blower 7 for blowing air from one end into the main air pipe 4, and an automatic feeder 8 with a storage cavity communicated with the branch air pipes 6, wherein a controlled air duct steering mechanism 9 for controlling whether the branch air pipes 6 are connected with the main air pipe 4 or not and controlling whether the front section and the rear section of the main air pipe 4 are connected is arranged near the joint of the main air pipe 4 and each branch air pipe 6, and the pond culture auxiliary system further comprises a main control module for controlling the first electric air valves 3, the fan closing 5, the air blower 7 and the controlled air duct steering mechanism 9.

As described above, the first electric air valve 3 of the pond culture auxiliary system is used for controlling the corresponding blanking pipe 2 to blanking downwards, so that the corresponding storage tower 1 can be selected for blanking according to the type of feed required by the automatic feeder 8, and the pond culture auxiliary system has outstanding substantive characteristics and remarkable progress; the fan 5 is used for sending the blanking after passing through the first electric air valve 3 to the main air pipe 4, so that the problem that the blower 7 reversely irrigates air to the blanking pipe 2 through the main air pipe 4 is prevented, and the main air pipe has outstanding substantive characteristics and remarkable progress; the blower 7 blows air into the main air pipe 4 from one end, so that blanking sent to the main air pipe 4 by the closing blower 5 can be conveniently blown to the rear end of the main air pipe 4; and the controlled air duct steering mechanism 9 is arranged near the joint of the main air duct 4 and each branch air duct 6, so as to conveniently control whether the branch air duct 6 is communicated with the main air duct 4 and control whether the front section and the rear section of the main air duct 4 are communicated, and finally blow the blanking to the corresponding branch air duct 6.

As described above, in the implementation, the pond culture auxiliary system can centralize all the storage towers 1 in the same place, so as to facilitate centralized management of the storage towers 1.

As described above, in the specific implementation, the main air pipe 4 can be connected with the branch air pipe 6 through another air duct steering mechanism, so as to be convenient for connecting with other cultivation auxiliary equipment such as connecting with a micropore oxygenation pipe group to control oxygenation of a pond.

As mentioned above, in practice, for safety reasons, a pressure relief device for relieving the pressure outwards during overpressure may be provided in the main air duct 4 between the blower 7 and the first controlled air duct turning mechanism 9.

As described above, in the embodiment, the controlled air duct steering mechanism 9 includes a three-way joint 90 for connecting with the main air duct 4 of the front section and the main air duct 4 and the branch air duct 6 of the rear section, and the three-way joint 90 is provided with a second electric air valve 91 for controlling whether the main air duct 4 of the front section is connected with the branch air duct 6, and a third electric air valve 92 for controlling whether the main air duct 4 of the front section is connected with the main air duct 4 of the rear section; or the controlled air duct steering mechanism 9 is a three-way valve body 93, the three-way valve body 93 is provided with an input interface 931 for connecting with the main air duct 4 of the front section, a main output interface 932 for connecting with the main air duct 4 of the rear section, a branch connection interface 933 for connecting with the branch air duct 6, a valve core 935 for controlling whether the branch air duct 6 is connected with the main air duct 4 and controlling whether the front section and the rear section of the main air duct 4 are connected, and a motor 936 for driving the valve core 935 to rotate so as to seal the input interface 931 or seal the main output interface 932 or seal the branch connection interface 933 or not seal any interface, the three-way valve body 93 is provided with a motor base 937 for fixing the motor 936 thereon, a magnetic block 9351 is arranged on the valve core 935, a control circuit board 938 is arranged on the motor base 937, and a plurality of hall sensors 9381 for detecting the position of the magnetic block 9351 are arranged on the control circuit board 938, and the control circuit board is electrically connected with the main control module or wirelessly connected.

As described above, the controlled air duct steering mechanism 9 in this case is implemented by adopting the three-way joint 90 and two electric air valves, so that it is convenient to control whether the branch air duct 6 is connected to the main air duct 4 by controlling the action of the second electric air valve 91 and whether the branch air duct 6 is connected between the front and rear sections of the main air duct 4 by controlling the action of the third electric air valve 92, and the control is convenient and the implementation is convenient; when the three-way valve body 93 is adopted on the controlled air duct steering mechanism 9, the motor 936 drives the valve core 935 to rotate so as to seal the input interface 931 or seal the main output interface 932 or seal the branch connection interface 933 or not seal the motors 936 of any interfaces, which is convenient for controlling whether the branch air duct 6 is connected with the main air duct 4 or not and controlling whether the connection between the front section and the rear section of the main air duct 4 or not through different positions of the same valve core 935, and has compact structure and convenient implementation.

As described above, in the implementation, the air inlet end pipe of the blower 7 is connected with the three-way pipe 11, one branch pipe of the three-way pipe 11 is connected with the air filter 13 after being provided with the fourth electric air valve 12, and the other branch pipe is communicated with the atmosphere after being provided with the fifth electric air valve 14, the other end of the air filter 13 is communicated with the upper parts of the inner cavities of all the storage towers 1 through connecting pipes, the fourth electric air valve 12 and the fifth electric air valve 14 are controlled by the main control module, and the upper parts of the inner cavities of the storage towers 1 are further communicated with the suction pipe 15.

As described above, when the storage towers 1 are large and high and are not easy to manually supplement feed thereto, the present case can generate negative pressure in the storage towers 1 by controlling the blower 7 and the fourth electric air valve 12 to be opened and controlling the fifth electric air valve 14 to be closed, so that each storage tower 1 sucks purchased bagged or bulk feed into the storage tower 1 through the corresponding suction pipe 15, which is convenient for electrically supplementing feed to the storage tower 1.

As described above, in the embodiment, 1 shut-off fan 5 may be disposed behind each first electric air valve 3 to send the blanking after passing through the first electric air valve 3 to the main air duct 4, but preferably, in this case, the shut-off fan 5 is one, the feeding end of the shut-off fan 5 is connected with an inclined collecting pipe 16, and the rear end of each first electric air valve 3 is connected to the inclined collecting pipe 16.

As described above, the present case delivers the blanking after passing through each of the first electric air valves 3 to the feed end of one of the shut-off fans 5 by providing the inclined collecting pipe 16, and thus, the problem of increasing the installation cost by reducing the number of shut-off fans 5 to be provided occurs, and the system control is simpler.

As described above, in the concrete implementation, the storage chambers of the automatic feeder 8 and the storage tower 1 are respectively provided with a sensor for detecting the amount of the feed, so that the amount of the feed in the storage chambers of the automatic feeder 8 and the storage tower 1 can be known conveniently, so that better control can be realized.

As described above, the scheme also discloses a use control method of the pond culture auxiliary system, which comprises a control setting step and a specific feeding step, wherein,

As described above, the present application control method achieves the purpose of electrically feeding the corresponding automatic feeder 8 according to the required feed type by controlling the first electric air valve 3, the air closing machine 5, the air blower 7 and the controlled air duct steering mechanism 9, and the present application control method is convenient for expanding and connecting the branch air duct 6 and the automatic feeder 8, is beneficial to large-scale pond culture assistance, and has outstanding substantial characteristics and remarkable progress.

As described above, in a specific implementation, the application control method of the pond culture auxiliary system further comprises the following steps: before or after feeding, the main control module controls the first electric air valves 3 and the air closing machines 5 to be closed, then controls the air blowers 7 and the controlled air duct steering mechanisms 9 to be opened, and controls the above components to be closed after waiting for the air blowers 7 to run for a period of time.

As described above, the pipeline cleaning step is convenient to ensure the smoothness of the main air pipe 4 and the branch air pipes 6 before or after feeding, and avoids the influence of the accumulation of residual materials in the air pipes to normal feeding use.

As described above, the scheme protects a pond culture auxiliary system and a use control method thereof, and all technical schemes which are the same as or similar to the scheme are shown to fall into the protection scope of the scheme.

Claims

1. The pond culture auxiliary system is characterized by comprising a plurality of storage towers (1), a blanking pipe (2) connected to the lower end of the corresponding storage tower (1), a first electric air valve (3) for controlling the blanking pipe (2) to blanking downwards, a fan (5) for sending blanking passing through the first electric air valve (3) to a main air pipe (4), the main air pipe (4) connected with a plurality of branch air pipes (6), a blower (7) for blowing air into the main air pipe (4) from one end, and an automatic feeder (8) with a storage cavity communicated with the branch air pipes (6), wherein a main air pipe steering mechanism (9) for controlling whether the branch air pipes (6) are connected with the main air pipe (4) or not and controlling whether the main air pipes (4) are connected between the front section and the rear section of the main air pipe (4) or not is arranged near the joint of each branch air pipe (6), and the pond culture auxiliary system further comprises a main air pipe steering mechanism (9) for controlling the first electric air valve (3), the blower (5), the blower (7) and the main air pipe (9);

the controlled air duct steering mechanism (9) is a three-way valve body (93), the three-way valve body (93) is provided with an input interface (931) for being connected with a main air duct (4) of a front section, a main output interface (932) for being connected with the main air duct (4) of a rear section, a branch connection interface (933) for being connected with a branch air duct (6), a valve core (938) for controlling whether the branch air duct (6) is connected with the main air duct (4) and whether the main air duct (4) is connected between the front section and the rear section, and a motor (936) for driving the valve core (935) to rotate so as to seal the input interface (931) or seal the main output interface (932) or seal the branch connection interface (933) or not seal any interface, the three-way valve body (93) is provided with a motor seat (937) for fixing the motor (936), the valve core (935) is provided with a magnetic block (9351), the motor seat (937) is provided with a control circuit board (938), the control circuit board (938) for detecting the position of the magnetic block (938), and the wireless communication module (81) is connected with the wireless communication module;

the air inlet end pipeline of the blower (7) is connected with a three-way pipeline (11), an air filter (13) is connected to one branch pipe of the three-way pipeline (11) through a fourth electric air valve (12) and then is communicated with the atmosphere through a fifth electric air valve (14), the other end of the air filter (13) is communicated with the upper parts of the inner cavities of all the storage towers (1) through connecting pipes, the fourth electric air valve (12) and the fifth electric air valve (14) are controlled by the main control module, and a suction pipe (15) is further communicated with the upper parts of the inner cavities of the storage towers (1) outwards.

2. A pond culture auxiliary system according to claim 1, wherein the shut-off fan (5) is one, the feed end of the shut-off fan (5) is connected with an inclined collecting pipe (16), and the rear end of each first electric air valve (3) is communicated with the inclined collecting pipe (16).

3. A pond culture auxiliary system according to claim 1, characterized in that the storage chambers of the automatic feeder (8) in the storage tower (1) are respectively provided with a sensor for detecting the amount of feed.

4. A method for controlling the use of a pond culture auxiliary system is characterized in that the pond culture auxiliary system as claimed in claim 1 is applied and comprises a control setting step and a specific feeding step, wherein,

and a control setting step: setting the type of feed stored by each storage tower (1) on a main control module, setting the type of feed required by each automatic feeder (8) or the type of feed required by each movable feeder (8) in each time period, setting the corresponding relation between each storage tower (1) and each first electric air valve (3), setting the front-back position relation of each controlled air duct steering mechanism (9) on a main air duct (4), and setting the corresponding relation between each branch air duct (6), each movable feeder (8) and the controlled air duct steering mechanism (9);

the specific feeding steps are as follows: when a certain storage tower (1) is to feed materials to a certain automatic feeder (8) or feed materials to a certain automatic feeder (8) at the same time, the main control module controls the first electric air valve (3) corresponding to the storage tower (1) to be opened, the air blower (7) to be opened and the air closing machine (5) to be opened, and controls the controlled air duct steering mechanisms (9) to act so that the channels between the branch air pipes (6) corresponding to the corresponding automatic feeder (8) and the air blower (7) are communicated, and the branch air pipes (6) corresponding to the rest automatic feeders (8) are not communicated with the main air pipe (4), so that all parts are closed until the feeding is finished.

5. The method of claim 4, further comprising the step of cleaning the pipe: before or after feeding, the main control module controls the first electric air valves (3) and the air closing machines (5) to be closed, then controls the air blowers (7) and the controlled air duct steering mechanisms (9) to be opened, and the main control module controls the above components to be closed after the air blowers (7) operate for a period of time.