CN203909539U - Oxygen aeration control device - Google Patents

Abstract

The utility model relates to an oxygen aeration control device, which comprises a control switch and a controller, wherein the controller contains a microprocessor, the control switch comprises an air switch. The oxygen aeration control device further comprises a solid-state relay and a current detector, wherein the current detector is electrically connected with the microprocessor and the solid-state relay, the air switch is electrically connected with the solid-state relay, the controller comprises a timing module and an outer shell, the timing module comprises buttons, the buttons are arranged on the outer shell, and the buttons are connected with the timing module. By arranging the air switch and the solid-state relay, the oxygen aeration control device is not prone to poor contact and sparking phenomenon, and realizes the short circuit and overload protection function; meanwhile, by arranging the timing module and the buttons, the operation is simper without selecting complicated menu, the time delay control can be realized, the user can set the delay time according to feeding regulation of fish and shrimp, and do not need to wait for operation all day long.

Description

Oxygenation control device

Technical field

The utility model relates to oxygenation control device, particularly a kind of oxygenation opertaing device for shrimp pond culture.

Background technology

During aquatic, oxygen increasing equipment is absolutely necessary, and it provides sufficient oxygen for aquatic products such as fishes and shrimps.The controller for oxygen increasing equipment that there is no specialty in existing market, conventionally only relies on raiser to adopt the switch of outdoor suspension to operate a switch and controls the motor start-stop of oxygen increasing equipment, therefore easily occurs the danger such as electric leakage, phase shortage, short circuit and maloperation.And in breeding process if there is unexpected power failure, and raiser not time, oxygen increasing equipment quits work and may make raiser sustain a loss.

Summary of the invention

The utility model is in order to solve the problem of prior art, a kind of control device of oxygenation is safely and efficiently provided, it comprises gauge tap and controller, in described controller, be provided with microprocessor, described gauge tap comprises air switch, described oxygenation control device also comprises solid-state relay and current detector, described current detector and microprocessor and solid-state relay are electrically connected, described air switch and solid-state relay are electrically connected, described controller comprises time block and shell, described time block comprises button, button is arranged on described shell, described button is connected with time block.

Attached technical scheme of the present utility model below:

Preferably, described time block also comprises pilot lamp, and it is arranged on described shell.

Preferably, described button comprises start-stop button, delayed startup button and operation time delay button.

Preferably, described oxygenation control device also comprises alarm, and itself and controller are electrically connected.

Preferably, described oxygenation control device also comprises uninterrupted power source, and itself and alarm and controller are electrically connected.

Preferably, described time block comprises display screen, and it is arranged on shell.

Preferably, described oxygenation control device is also provided with gsm module, and itself and controller are electrically connected.

Useful technique effect of the present utility model: by air switch box solid-state relay is set, make oxygenation control device not be prone to loose contact, the phenomenon of sparking realizes the function of short circuit and overload protection simultaneously.By alarm, make when oxygen increasing equipment breaks down or during power-off, remind in time raiser, avoiding suffering a loss.Meanwhile, by time block and button are set, make operation simpler, select, and can realize time delay and control without complex menu, user can set delay time according to the feeding rule of fishes and shrimps, without user's whole day watch operation.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model embodiment oxygenation control device.

Fig. 2 is the connection diagram of each module in the utility model embodiment oxygenation control device.

Fig. 3 is the controller schematic diagram that the utility model embodiment is provided with display screen.

In figure: gauge tap 1, solid-state relay 2, output terminal 21, controller 3, shell 31, button 32, pilot lamp 33, current detector 4, transformer 5, alarm 6, uninterrupted power source 7, oxygenation motor 8, display screen 9.

Embodiment

Be the oxygenation control device of the utility model embodiment as shown in Figure 1, oxygenation control device is connected with oxygenation motor 8 (as shown in Figure 2), for controlling oxygenation electricity, and 8 running, oxygenation motor is for driving the power source of oxygen increasing equipment.Described oxygenation control device comprises gauge tap 1, solid-state relay 2 and controller 3, and described gauge tap 1 is electrically connected with solid-state relay 2, and solid-state relay 2 is electrically connected with controller 3.Described gauge tap 1 is for controlling the break-make of oxygenation control device circuit, and gauge tap 1 also comprises air switch, and when overload or short circuit occur circuit, it can disconnecting circuit.Described solid-state relay is equally for preventing that the situations such as overload from appearring in circuit, makes whole circuit safer.Meanwhile, solid-state relay inside is contactless, can be not tight because of the supply voltage closing of contact causing on the low side, so electric motor starting operation is without interrupted.Described oxygenation control device also comprises current detector 4 and transformer 5, for detection of the electric current that flows through oxygenation motor, current detector 4 is electrically connected with controller 3, current detector 4 feeds back to controller 3 by the sampled signal detecting, and the microcontroller in controller 3 judges that according to the sampled signal of receiving whether the electric current of oxygenation motor 8 is normal.Described transformer 5 is connected with controller 3, alternating current can be converted to direct current and supply with controller 3.Described controller 3 has shell 31, and shell 31 is closed the components and parts of controller 3.Controller 3 also comprises time block, and time block can make controller 3 can control opening time and the working time of oxygenation motor, does not need user's manual operation to control, and uses more convenient.Described time block comprises button 32 and pilot lamp 33, and button 32 and pilot lamp 33 are arranged on shell 31.Button 32 has four, is respectively start-stop button, learn button, and delayed startup button and operation time delay button, pilot lamp 33 arranges eight, is divided into two rows, four of every rows.After oxygenation control device and oxygenation motor connect, press start-stop button and can start oxygenation machine operation, in operational process, press start-stop button, can stop motor operation.Start first after oxygenation control device, can press learn button, this Time Controller 3 can for example, enter between the learning period in certain hour (10 seconds), monitoring control devices also records the running state parameter of oxygenation motor, comprise electric current and voltage etc., surpass after 10 seconds, the microcontroller in controller 3 compares by the motor operating parameter that samples and the parameter under learning period interocclusal record, thereby judges whether oxygenation motor has overcurrent, the situation such as under-voltage.If user needs delayed startup oxygenation motor, can pass through operation delay start button.During operation delay start button, four pilot lamp of upper row provide indicative function, if user clicks delayed startup button, first pilot lamp is bright, represent that time delay 1 hour starts, then click that second pilot lamp is bright, represent that time delay starts for 1.5 hours, same the 3rd, the 4th pilot lamp represents different delay times, and user can pass through the setting of the clear and definite delay time of pilot lamp.Four pilot lamp of lower row are used to indicate operation time delay, i.e. auto stop after oxygenation motor continuous service certain hour.Same each lamp represents a time period, and bright different lamp can be arranged to the different time periods.User also can use the function of delayed startup and operation time delay simultaneously, for example, starts after arranging 1 hour, moves and automatically closes oxygenation motor after 1.5 hours.As a kind of improvement, above-mentioned pilot lamp 33 can replace with display screen 9 (as shown in Figure 3), makes the content of demonstration abundanter more directly perceived.

As shown in Figure 2, described oxygenation control device also comprises uninterrupted power source (UPS) 7 and alarm 6, and when oxygenation control device runs into unexpected power-off, UPS can provide certain electric power to maintain its running.UPS is connected with controller 3 with alarm, and after the power-off of oxygenation motor, alarm 6 can send chimes of doom, and reminding user is taken the necessary measures, and prevents that the fishes and shrimps of cultivation from incurring loss.Described oxygenation motor can be 380V three phase alternating current motor, and user can be by 380V alternating current Access Control switch 1, and oxygenation motor is connected with output terminal 21 (as shown in Figure 1), can complete installation.Described oxygenation control device also comprises panel box, its be can switch seal box, above-mentioned gauge tap 1, controller 3, the modules such as solid-state relay 2 are all arranged in panel box, thereby can be sun-proof, anti-rain extends serviceable life of oxygenation control device.As a kind of improvement, described oxygenation control device also can comprise GSM communication module, and it is connected with controller 3, and when installing after phonecard in gsm module, abnormal if oxygenation motor occurs, gsm module can remote notification user.

The utility model, by air switch box solid-state relay is set, makes oxygenation control device not be prone to loose contact, and the phenomenon of sparking realizes the function of short circuit and overload protection simultaneously.Meanwhile, by time block and button are set, make operation simpler, select, and can realize time delay and control without complex menu, user can set delay time according to the feeding rule of fishes and shrimps, without user's whole day watch operation.Above-described is only elaboration to embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art, do not departing under the prerequisite of creation design of the present utility model; can also make other distortion and improvement, these all belong to protection domain of the present utility model.

Claims (7)

1. an oxygenation control device, comprise gauge tap and controller, in described controller, be provided with microprocessor, it is characterized in that: described gauge tap comprises air switch, described oxygenation control device also comprises solid-state relay and current detector, described current detector and microprocessor and solid-state relay are electrically connected, described air switch and solid-state relay are electrically connected, described controller comprises time block and shell, described time block comprises button, button is arranged on described shell, and described button is connected with time block.

2. oxygenation control device as claimed in claim 1, is characterized in that: described time block also comprises pilot lamp, and it is arranged on described shell.

3. oxygenation control device as claimed in claim 2, is characterized in that: described button comprises start-stop button, delayed startup button and operation time delay button.

4. oxygenation control device as claimed in claim 1, is characterized in that: described oxygenation control device also comprises alarm, and itself and controller are electrically connected.

5. oxygenation control device as claimed in claim 4, is characterized in that: described oxygenation control device also comprises uninterrupted power source, and itself and alarm and controller are electrically connected.

6. oxygenation control device as claimed in claim 1, is characterized in that: described time block comprises display screen, and it is arranged on shell.

7. oxygenation control device as claimed in claim 1, is characterized in that: described oxygenation control device is also provided with gsm module, and itself and controller are electrically connected.