JPS589631A - Monitor apparatus of breeding tank - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a monitoring device for aquaculture in aquaculture farms, especially when aquaculture is carried out in aquariums installed on land. Conventionally, monitoring and management of aquariums in this type of aquaculture farms have been difficult. all,
It relies on human hands and requires 24-hour monitoring, which is inefficient and inefficient.In recent years, aquaculture in land-based aquariums has been on the rise, and it is not only necessary to carry out monitoring work. As the number of tasks such as feeding and counting increases, it is no longer possible to solve the problem by hand alone.

The present invention eliminates the drawbacks of seeds, automatically maintains the water quality, water temperature, etc. in the aquaculture tank at a predetermined state, and makes it possible to remotely monitor various data in the aquarium. This device was developed for the purpose of providing a monitoring device for aquariums, and it uses a system that selects signals from the dissolved oxygen amount measurement sensor, water temperature measurement sensor, water level measurement sensor, and PM measurement sensor installed in the aquarium. In addition to connecting the set value to the comviator, it also connects other solenoid valves installed in the air supply pipe for pressure-feeding the Vc nitrogen in the water tank, a heating board facing into the water tank, and an aeration device. Each of these is connected to the computer, and this computer has a keyboard for operating this combination machine and calling up various types of data, and an OR system for projecting data. A display device is connected to the device, and when the signals from each of the sensors deviate from a predetermined range, the solenoid valves control the power supply of the heating board and the aeration device. In the figure, (1) is a plurality of aquariums for storing cultured fish, and at appropriate positions in the aquarium (1), the amount of dissolved oxygen in the water in the aquarium (1) is A senna (2) to measure, a senna (8) to measure water temperature, a sensor (4) 1 to measure the water level in the tank (1), and a sensor (6) to measure the PR of the water in the tank (1). These sensors (2) are not arranged properly.
*(81m) The cable (6) that sends the signals from (4) and (5) has a scanner that sequentially selects these signals (t).
7) is connected, and this scanner (γn) is connected to a computer (t) via a cable (9) through which an amplifier (8) that amplifies the signal from this scanner (7) is connected. )
On the other hand, a pump (
River water (p) and seawater (i) are supplied through the water pipe (2) installed in (b), and this water pipe (2)
(to) is interposed with a solenoid valve (2) that is operated by a command from the computer cLQ. In addition, the water tank (
1) An air supply pipe (91) connected to the air compressor 041 is opened inside the air supply pipe (B), and a solenoid valve 041, which is operated by a command from the computer, is interposed in the air supply pipe (B). has been done. Furthermore, there is a heating board (I') in the water tank (1).
I) is arranged, and this heating board (B) is connected to the computer ring t*nru0 through a cable interposed with a switch. A group of warning lamps that light up or flash when the six values exceed the set range.
An alarm device consisting of a buzzer that emits a sound or an electric corrosion (21) is connected. In addition, a recorder is connected to the computer (7), which outputs various data processed and processed by the computer oQ on recording paper at any time. 0 Furthermore, the computer (g) is equipped with a keyboard for operating the combination wheel, a keyboard for reading various data, and a computer (g).
A memory for storing data processed by the above is connected.

Depending on the configuration described above, signals from various sensors (2) # (81, (4), (6)) installed in multiple water tanks (1) are sequentially selected by the scanner (7). Then, at regular intervals, the computer sends various preset tolerance ranges to the keyboard) and stores the values for the various sensors (2).

The data from (8), (4), and (5) and the set value are calculated and compared using a computer, and if the set value is exceeded, the warning lamp ■ lights up or flashes, and at the same time, the P, L&&4. For example, if the water level in the water tank (1) falls below the set value, the solenoid valve of water pipe 4 is fully opened to reduce the amount of water being sent. Increase the water level, and when the water level becomes normal, turn off the solenoid valve (2).
◎In addition, when the amount of dissolved oxygen in the water in the water tank (1) is below the threshold *ti, open the -magnetic valve α6)t in the air pipe ( 1) At the same time as blowing air from the 9-air compressor D4j into the tank, open the solenoid valve o@ of the water pipe (2) to increase the water supply amount.

In this way, various types of senna (
2) , (8) e (4J # (Constantly select the signal from the phrase with the scanner (η) and send it to the computer (9), calculate the data on the computer (α), perform geographical memory, and set it. If the value exceeds the set value, a warning is output and countermeasure equipment is activated at the same time, making it possible to perform unattended management without any human intervention6. It is also possible to store other data such as daily feed amount, fish weight, etc. in the computer and print it out on the I¥PE record paper, making it suitable for various aquaculture industries. 0 As explained above, the aquaculture tank monitoring device according to the present invention monitors the dissolved oxygen amount measuring sensor, water temperature measuring sensor, water level measuring sensor, and PH measuring sensor arranged in the aquarium through a scanner that selects signals. A 7'CTi IiB valve is connected to the built-in computer and installed in the water pipe for sending water into the water tank. Other solenoid valves, a heating board facing into the aquarium, and an aeration device are connected to the computer, and the computer is equipped with a computer that can be used to program each computer's operation and read various data. A keyboard for displaying data and an OR display device for displaying data are connected, and the power to each of the solenoid valves, heating board, and aeration device is controlled when the signals from each of the sensors are out of the predetermined range. The water quality, water temperature, water level, PR, etc. in the aquaculture tank can be maintained in a predetermined state fully automatically, which not only contributes to labor savings, but also allows the data to be monitored remotely, which can be useful for business management.

[Brief explanation of the drawing]

The figure is an electric circuit diagram showing an embodiment of the aquaculture tank monitoring device according to the present invention. (1)...Aquarium (2) @Dissolved oxygen amount measurement unit (8)...Water temperature measurement sensor (4)...Water level measurement sensor (5)...PH measurement sensor (・l)...Scanner scream・
Fist computer (b), 9 water pipes (11, solenoid valve a@轡, heating board for solenoid valve αη), CRT display device (to), keyboard agent Shin Kuzuno -

Claims (1)

[Claims] The dissolved oxygen amount measuring sensor, water temperature measuring sensor, water level measuring sensor, and pH measuring sensor placed in the aquarium are connected to a computer with a built-in readout via a scanner that selects signals. A solenoid valve installed in a water pipe for sending water into the aquarium, another solenoid valve installed in an air pipe for pneumatically feeding water into the aquarium, a heating board facing into the aquarium, and aerator pipes respectively connected to the combiator, and furthermore, a computer Ka, a keyboard for operating the simulator and for reading or calling up various data, and a computer for simulating data.
A monitoring device for an aquaculture tank, characterized in that an RT display device is connected to the device, and when the signals from the senners are out of a predetermined range, the power supplies of the solenoid valves, the heating board, and the aeration device are controlled. 0