CN213663165U - Intelligent seawater adding and exchanging device - Google Patents

Abstract

The utility model discloses an intelligent seawater adding and exchanging device, which comprises a cavity for preparing seawater, a tank body arranged above the cavity and used for storing sea salt, a scale and a controller, wherein one end of the scale is connected with the tank body, the other end of the scale is connected with the cavity, the cavity is also provided with a first salinity inductor for detecting the salinity of the seawater, the cavity is provided with a pure water conveying device for conveying the pure water to the cavity, the cavity is also provided with a seawater conveying device for conveying the seawater or the pure water in the cavity into a seawater cylinder, the pure water conveying device and the seawater conveying device are both provided with a flowmeter for monitoring the flow, and the seawater cylinder is provided with a drainage device for discharging the seawater in the seawater cylinder; the controller is electrically connected with the first salinity inductor, the flowmeter, the weigher, the pure water conveying device, the seawater conveying device and the drainage device. The utility model discloses intelligence has realized that the automatic ration of sea water jar trades water, adds the water function, has solved the sea water jar and has added water and trade the problem that the water in-process wastes time and energy.

Description

Intelligent seawater adding and exchanging device

Technical Field

The utility model relates to a fish bowl technical field, more specifically relates to an intelligence adds trades sea water device.

Background

In the automatic water replenishing market of fish tanks, common fresh water replenishing devices have mature products, but the number of the replenishing devices for replenishing artificial seawater to the seawater tanks is small, and artificial seawater can be replenished to the seawater tanks only by manually adding sea salt for stirring and aerating in the market at present. Because manual operation is needed, the process is relatively complicated, personnel forget to change water, and the like, and cannot add water to the seawater vat to change water in time, the states of corals and fishes in the seawater vat are poor and even die, and hidden dangers are added to the normal operation of a seawater vat system; furthermore, in the face of a large number of seawater tanks, the aquatic lovers need to spend a long time pairing artificial seawater with different salinity and adding the artificial seawater into different seawater tanks, which undoubtedly increases the energy consumption of the lovers.

In addition, the salt supplementing process is inconvenient to use and generally carried out manually, the energy of aquatic animal enthusiasts is occupied in the salt supplementing process, the salt supplementing dosage has a direct relation with the experience and accuracy of operators, and a lot of inconvenience is brought to aquatic animal enthusiasts. The Chinese patent application, publication No. CN 208549699U, describes a multi-functional automatic water replenishing device of two fish tanks of running water, and this equipment can satisfy the daily work of adding water of sea water jar under normal operating, but when changing artifical sea water, needs artificial the preparation of carrying out artifical sea water, takes out the sea water that the sea water jar needs to be changed, carries out the interpolation of sea water jar ration sea water again artificially, has occupied aquatic animals fan's a large amount of energy undoubtedly like this.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome among the above-mentioned prior art sea water jar add water, trade the water in-process, artifical participation degree is high, the problem that wastes time and energy provides an intelligence and trades sea water device.

In order to solve the technical problem, the utility model discloses a technical scheme is: an intelligent seawater adding and exchanging device comprises a cavity, a tank, a scale and a controller, wherein the cavity is used for preparing seawater, the tank is arranged above the cavity and used for storing seawater salts, the scale is used for automatically weighing the seawater salts, one end of the scale is connected with the tank, the other end of the scale is connected with the cavity, a first salinity sensor used for detecting the salinity of the seawater is further arranged in the cavity, the cavity is provided with a pure water conveying device used for conveying pure water to the cavity, the cavity is further provided with a seawater conveying device used for conveying the seawater or the pure water in the cavity to a seawater cylinder, flow meters used for monitoring the flow are arranged on the pure water conveying device and the seawater conveying device, and a drainage device used for discharging the seawater in the seawater cylinder is arranged in the seawater cylinder; the input end of the controller is electrically connected with the first salinity inductor and the flowmeter, and the output end of the controller is electrically connected with the weighing device, the pure water conveying device, the seawater conveying device and the drainage device.

In the technical scheme, in the water changing process of the seawater cylinder, a drainage device discharges a certain amount of seawater in the seawater cylinder, then a controller instructs a pure water conveying device to input a certain amount of pure water into a cavity, sea salt in a tank body enters the cavity after being quantitatively weighed by a weighing device, the sea salt in the cavity is dissolved in the pure water to form seawater, and when salinity detected by a first salinity sensor reaches a set numerical value, the seawater conveying device conveys the seawater in the cavity to the seawater cylinder, so that the water changing process of the seawater cylinder is completed; when the salinity detected by the first salinity sensor is lower than a set value, salt is continuously added into the cavity through the weighing device to reach the preset salinity. In the process of adding water into the seawater vat, the controller instructs the pure water conveying device to input quantitative pure water into the cavity, and the seawater conveying device conveys the pure water in the cavity into the seawater vat, so that the process of adding water into seawater is completed. This technical scheme can intelligent realization sea water jar add the water function of trading, has solved the sea water jar and has added water and trade the problem that the water in-process wastes time and energy to can carry out accurate control to automatic water process of trading.

Preferably, the cavity is provided with a quick dissolving device for accelerating the dissolution of sea salt and an aeration device for increasing the oxygen content of the sea water.

Preferably, the instant dissolving device is one or more of a stirrer and a heating rod, and the stirrer, the aeration device and the heating rod are electrically connected with the controller.

Preferably, a temperature sensor is arranged in the cavity and electrically connected with the controller.

Preferably, the pure water delivery device comprises a first water pump electrically connected with the controller, a first water inlet pipe connected with a water inlet of the first water pump, and a first water outlet pipe connected with a water outlet of the first water pump, and the first water outlet pipe is connected with the cavity.

Preferably, the flowmeter is arranged on the first water outlet pipe, a first electromagnetic valve is further arranged on the first water inlet pipe, and the first electromagnetic valve is electrically connected with the controller.

Preferably, the seawater conveying device comprises a second water pump electrically connected with the controller, a second water inlet pipe connected with a water inlet of the second water pump, and a second water outlet pipe connected with a water outlet of the second water pump, and the second water inlet pipe is connected with the cavity.

Preferably, the flowmeter is further arranged on the second water inlet pipe, the second water outlet pipe is further provided with a second electromagnetic valve, and the second electromagnetic valve is electrically connected with the controller.

Preferably, the drainage device comprises a third water pump electrically connected with the controller, a water inlet of the third water pump is communicated with the seawater tank, a water outlet of the third water pump is connected with a third water outlet pipe, and a flowmeter is also arranged on the third water outlet pipe; the seawater tank is also internally provided with a second salinity sensor for monitoring the salinity in the seawater tank and a first water level sensor for monitoring the water level, and the first water level sensor is electrically connected with the controller.

Preferably, the water outlet end of the second water outlet pipe is connected with a plurality of water replenishing pipes, the plurality of water replenishing pipes are respectively provided with a third electromagnetic valve, and the third electromagnetic valves are electrically connected with the controller.

Compared with the prior art, the beneficial effects are: the utility model discloses intelligence has realized that the automation of sea water jar trades water, the function of adding water, has solved the sea water jar and has added water and trade the problem that the water in-process wastes time and energy to can trade the water process to carry out accurate control automatically.

Drawings

FIG. 1 is a schematic structural view of the intelligent seawater adding and exchanging device of the present invention;

FIG. 2 is a schematic structural view of a sea water tank of the present invention;

in the drawings: 1-cavity, 2-tank, 3-weighing device, 4-controller, 5-first salinity inductor, 6-pure water conveying device, 7-seawater conveying device, 8-flowmeter, 9-drainage device, 11-aeration device, 10-stirrer, 12-heating rod, 13-temperature inductor, 14-second water level sensor, 15-seawater cylinder, 16-display panel, 61-first water pump, 62-first water inlet pipe, 63-first water outlet pipe, 64-first electromagnetic valve, 71-second water pump, 72-second water inlet pipe, 73-second water outlet pipe, 74-second electromagnetic valve, 91-third water pump, 92-third water outlet pipe, 93-second salinity sensor and 94-first water level sensor.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", "long", "short", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limiting the present patent, and those skilled in the art will understand the specific meaning of the terms according to their specific circumstances.

The technical solution of the present invention is further described in detail by the following specific embodiments in combination with the accompanying drawings:

example 1

As shown in fig. 1 to 2, an intelligent seawater adding and exchanging device comprises a cavity 1 for preparing seawater, a tank 2 arranged above the cavity 1 for storing seawater, a scale 3 for automatically weighing seawater, and a controller 4, wherein one end of the scale 3 can be connected with the tank 2 through a pipeline, the other end of the scale 3 can be connected with the cavity 1 through a pipeline, a first salinity sensor 5 for detecting the salinity of the seawater is further arranged in the cavity 1, the cavity 1 is provided with a pure water conveying device 6 for conveying pure water thereto, the cavity 1 is further provided with a seawater conveying device 7 for conveying the seawater or the pure water in the cavity 1 to a seawater tank 15, the pure water conveying device 6 and the seawater conveying device 7 are both provided with a flow meter 8 for monitoring the flow, and the seawater tank 15 is provided with a drainage device 9 for draining the seawater in the seawater tank 15; the input end of the controller 4 is electrically connected with the first salinity sensor 5 and the flowmeter 8, and the output end of the controller 4 is electrically connected with the weighing device 3, the pure water conveying device 6, the seawater conveying device 7 and the drainage device 9. It should be noted that a second water level sensor 14 is disposed in the chamber 1 for detecting the water level in the chamber 1. The controller 4 is connected with a display panel 16, and the display panel 16 can be used for carrying out human setting of relevant data, such as preset seawater salinity, volume, temperature and water change interval time of seawater in the seawater cylinder. In this embodiment, during the water exchange process of the seawater vat 15, the water discharging device 9 discharges the water in the seawater vat 15, the controller 4 instructs the pure water conveying device 6 to input a certain amount of pure water into the cavity 1, the sea salt in the tank body 2 is weighed by the weighing device 3 and enters the cavity 1, the sea salt in the cavity 1 is stirred by the stirrer 10, heated and dissolved by the heating rod 12, and the aeration device 11 forms the required sea water in the pure water, and when the salinity detected by the first salinity sensor 5 reaches a set value, the sea water conveying device 7 conveys the sea water in the cavity 1 to the seawater vat 15, thereby completing the water exchange process of the seawater vat. When the salinity detected by the first salinity sensor 5 is lower than the set value, salt is continuously added into the cavity 1 through the scale 3, so that the salinity reaches the preset value. In the water replenishing process of the seawater vat 15, the controller 4 instructs the pure water conveying device 6 to input quantitative pure water into the cavity 1, and the seawater conveying device 7 conveys the pure water in the cavity 1 into the seawater vat 15, so that the seawater replenishing process is completed. The intelligence in this embodiment adds the sea water device can realize the automation of sea water jar 15 and add the water function of trading intelligently, has solved the sea water jar 15 and has added water and trade the problem that the water in-process wastes time and energy to can add the water process of trading automatically and carry out accurate control.

Wherein, the cavity 1 is provided with an instant device for accelerating the dissolution of sea salt and an aeration device 11 for increasing the oxygen content of the sea water.

In addition, the instant dissolving device is one or more of a stirrer 10 and a heating rod 12, and the stirrer 10, the aeration device 11 and the heating rod 12 are electrically connected with the controller 4. In the present embodiment, in order to make the sea salt in the chamber 1 better dissolved in the pure water, the controller 4 instructs the stirrer 10 and the heating rod 12 to be activated, so that the sea salt is quickly dissolved in the pure water. The controller instructs the aeration device 11 to start up to increase the oxygen content in the seawater.

Wherein, be provided with temperature-sensing ware 13 in the cavity 1, temperature-sensing ware 13 is connected with controller 4 electricity. In this embodiment, temperature-sensing ware 13 can respond to the temperature of water in the cavity 1, and at the in-process that sea salt dissolved, when the temperature of water was low, be unfavorable for dissolving of sea salt, controller 4 instruction heating rod 12 work, rising water temperature for sea salt dissolves in the pure water fast. When the temperature of the water monitored by the temperature sensor 13 is a preset value, the controller 4 instructs the heating rod 12 to stop heating.

In addition, the pure water delivery device 6 comprises a first water pump 61 electrically connected with the controller 4, a first water inlet pipe 62 connected with a water inlet of the first water pump 61, and a first water outlet pipe 63 connected with a water outlet of the first water pump 61, wherein the first water outlet pipe 63 is connected with the cavity 1. In this embodiment, when pure water needs to be input into the cavity 1, the controller 4 instructs the first water pump 61 to start, and the first water pump 61 delivers water in the reservoir communicated with the first water inlet pipe 62 to the cavity 1 through the first water outlet pipe 63.

The flowmeter 8 is arranged on the first water outlet pipe 63, the first water inlet pipe 62 is also provided with a first electromagnetic valve 64, and the first electromagnetic valve 64 is electrically connected with the controller 4. In this embodiment, the flow meter 8 may monitor the flow rate of the pure water input into the chamber 1 by the first water pump 61, and a certain amount of sea salt is dissolved in the pure water, so that the salinity of the sea water can be accurately controlled. When the flow meter 8 detects that the first water pump 61 has input a certain amount of pure water into the chamber 1, the controller 4 instructs the first electromagnetic valve 64 to close, so as to prevent excessive pure water from being input into the chamber 1.

In addition, the seawater transportation device 7 comprises a second water pump 71 electrically connected with the controller 4, a second water inlet pipe 72 connected with a water inlet of the second water pump 71, and a second water outlet pipe 73 connected with a water outlet of the second water pump 71, wherein the second water inlet pipe 72 is connected with the cavity 1. In this embodiment, when seawater or pure water needs to be supplied to the seawater tank 15, the controller 4 instructs the second water pump 71 to start, and the second water pump 71 delivers the pure water or seawater in the cavity 1 communicated with the second water inlet pipe 72 to the seawater tank 15 through the second water outlet pipe 73.

The flowmeter 8 is further disposed on the second water inlet pipe 72, the second water outlet pipe 73 is further disposed with a second electromagnetic valve 74, and the second electromagnetic valve 74 is electrically connected with the controller 4. In the present embodiment, the flow meter 8 monitors the flow rate of pure water or seawater that the second water pump 71 inputs into the seawater tank 15. After the flow meter 8 detects that the second water pump 71 has input a fixed amount of pure water or seawater into the seawater vat 15, the controller 4 instructs the second solenoid valve 74 to close, preventing excess pure water or seawater from being delivered into the seawater vat 15.

In addition, the drainage device 9 comprises a third water pump 91 electrically connected with the controller 4, a water inlet of the third water pump 91 is communicated with the seawater tank 15, a water outlet of the third water pump 91 is connected with a third water outlet pipe 92, and the third water outlet pipe 92 is also provided with a flowmeter 8; a second salinity sensor 93 for monitoring the salinity in the seawater tank 15 and a first water level sensor 94 for monitoring the water level are also provided in the seawater tank 15, the first water level sensor 94 being electrically connected with the controller 4. In this embodiment, when the water level detected by the first water level sensor 94 is lower than the preset water level of the seawater tank 15, the controller 4 receives the data of the first water level sensor 94, the controller 4 instructs the first water pump 61 to input a certain amount of pure water into the cavity 1, and the second water pump 71 delivers the pure water in the cavity 1 to the seawater tank 15. When the water level detected by the first water level sensor 94 is higher than the preset water level of the seawater tank 15, the controller 4 receives the data of the first water level sensor 94, and the controller 4 instructs the third water pump 91 to discharge the excessive seawater in the seawater tank 15. When the second salinity sensor 93 monitors that the salinity in the seawater vat 15 is higher than the preset value, quantitative pure water can be supplemented into the seawater vat 15; when the second salinity sensor 93 detects that the salinity in the seawater tank 15 is lower than the preset value, a certain amount of seawater may be supplemented into the seawater tank 15. After the seawater in the seawater vat 15 is used for a period of time and needs to be replaced, the controller 4 starts the third water pump 91 to discharge the seawater in the seawater vat 15, simultaneously starts the first water pump 61 to supplement pure water to the cavity 1, the scale 3 supplements sea salt to the cavity 1, and the prepared seawater is conveyed into the seawater vat 15 through the second water pump 71. It should be noted that the water changing time of the seawater in the seawater tank 15 can be manually set through the display panel, or the interval time can be preset according to the controller 4.

The water outlet end of the second water outlet pipe 73 is connected with a plurality of water replenishing pipes, the plurality of water replenishing pipes are respectively provided with a third electromagnetic valve, and the third electromagnetic valves are electrically connected with the controller 4. In this embodiment, the water replenishing pipes may be connected to a plurality of seawater tanks 15, and the controller 4 controls a plurality of third electromagnetic valves to realize the connection and disconnection of different water replenishing pipes, so that pure water or seawater flowing out of the second water outlet pipe 73 may be replenished to different seawater tanks 15. The third water pumps 91, the second salinity sensor 93, and the first water level sensor 94 in the plurality of seawater tanks 15 are all electrically connected to the controller 4.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides an intelligence trades sea water device which characterized in that: comprises a cavity (1) for preparing seawater, a tank body (2) arranged above the cavity (1) for storing sea salt, a weighing device (3) for automatically weighing the sea salt and a controller (4), one end of the scale (3) is connected with the tank body (2), the other end of the scale (3) is connected with the cavity (1), the cavity (1) is also provided with a first salinity inductor (5) for detecting the salinity of the seawater, the cavity (1) is provided with a pure water conveying device (6) for conveying pure water to the cavity, the cavity (1) is also provided with a seawater conveying device (7) for conveying seawater or pure water in the cavity (1) to a seawater cylinder (15), flow meters (8) for monitoring flow are arranged on the pure water conveying device (6) and the seawater conveying device (7), a drainage device (9) for discharging seawater in the seawater vat (15) is arranged in the seawater vat (15); the input end of the controller (4) is electrically connected with the first salinity inductor (5) and the flowmeter (8), and the output end of the controller (4) is electrically connected with the weighing device (3), the pure water conveying device (6), the seawater conveying device (7) and the drainage device (9).

2. The intelligent seawater exchanging device of claim 1, wherein: an instant dissolving device for accelerating the dissolution of sea salt and an aeration device (11) for increasing the oxygen content of the sea water are arranged in the cavity (1).

3. The intelligent seawater exchanging device of claim 2, wherein: the quick dissolving device is one or more of a stirrer (10) and a heating rod (12), and the stirrer (10), the aeration device (11) and the heating rod (12) are electrically connected with the controller (4).

4. The intelligent seawater exchanging device of claim 3, wherein: a temperature sensor (13) is arranged in the cavity (1), and the temperature sensor (13) is electrically connected with the controller (4).

5. The intelligent seawater exchanging device of claim 1, wherein: the pure water conveying device (6) comprises a first water pump (61) electrically connected with the controller (4), a first water inlet pipe (62) connected with a water inlet of the first water pump and a first water outlet pipe (63) connected with a water outlet of the first water pump, and the first water outlet pipe (63) is connected with the cavity (1).

6. The intelligent seawater exchanging device of claim 5, wherein: the flowmeter (8) is arranged on the first water outlet pipe (63), a first electromagnetic valve (64) is further arranged on the first water inlet pipe (62), and the first electromagnetic valve (64) is electrically connected with the controller (4).

7. The intelligent seawater exchanging device of claim 1, wherein: the seawater conveying device (7) comprises a second water pump (71) electrically connected with the controller (4), a second water inlet pipe (72) connected with a water inlet of the second water pump, and a second water outlet pipe (73) connected with a water outlet of the second water pump, wherein the second water inlet pipe (72) is connected with the cavity (1).

8. The intelligent seawater exchanging device of claim 7, wherein: the flowmeter (8) is further arranged on the second water inlet pipe (72), the second water outlet pipe (73) is further provided with a second electromagnetic valve (74), and the second electromagnetic valve (74) is electrically connected with the controller (4).

9. The intelligent seawater exchanging device of claim 1, wherein: the drainage device (9) comprises a third water pump (91) electrically connected with the controller (4), a water inlet of the third water pump is communicated with the seawater cylinder (15), a water outlet of the third water pump is connected with a third water outlet pipe (92), and a flowmeter (8) is also arranged on the third water outlet pipe (92); the seawater tank (15) is also internally provided with a second salinity sensor (93) for monitoring salinity in the seawater tank (15) and a first water level sensor (94) for monitoring water level, and the second salinity sensor (93) and the first water level sensor (94) are electrically connected with the controller (4).

10. The intelligent seawater exchanging device of claim 7, wherein: the water outlet end of the second water outlet pipe (73) is connected with a plurality of water replenishing pipes, third electromagnetic valves are arranged on the water replenishing pipes respectively, and the third electromagnetic valves are electrically connected with the controller (4).

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