CN215224059U - Bluetooth networking control box for aquarium - Google Patents

Abstract

The utility model discloses a Bluetooth networking control box for an aquarium, which comprises an aquarium, wherein a track groove is arranged at the top end of the aquarium, a rolling wheel is connected with a driving motor and is connected with a control box positioned in the aquarium, a power module, a control module, a WIFI module and a Bluetooth gateway module are arranged in the control box, the control module is connected with a cloud server, and the cloud server is connected with a remote client; the control box is also provided with a collecting camera; the control box is connected with a connecting rod, the connecting rod is connected with the sensor box, and the sensor box is provided with a limiting wheel connected with a limiting track; the sensor box comprises a sensing Bluetooth module, and the sensing Bluetooth module is connected with a temperature sensor, a water level sensor and a PH sensor; the aquarium is also provided with a water exchange part and a dripping part. Through the setting, the setting of this control box can carry out real-time monitoring to each parameter of aquarium to can gather the photo in the aquarium and carry out AI analysis through the server, thereby optimize the living state of aquatic animals.

Description

Bluetooth networking control box for aquarium

Technical Field

The utility model relates to an shui nationality field specifically is a bluetooth network deployment control box for aquarium.

Background

An aquarium is also called an ecological fish tank or an aquarium, is a container for ornamental and special aquatic animals and plants, is an animal breeding device, and is generally made of transparent glass and high-strength plastic on at least one side. Plants and fishes living in water are artificially raised in the aquarium. Aquarium breeding is one of the prevailing hobbies all over the world, and about 6 million people in love are around the world. With the increase of living demands of people, the aquarium has been developed into a complex ecological simulation device, and the traditional feeding and heating modes can not meet the demands. At present, a complete control system is urgently needed, so that the hands of a raiser can be liberated, the quality of the culture water can be better monitored, and operations such as water changing, nutrient solution adding and the like can be automatically completed.

If the Chinese utility model with the publication number of CN101427662B mentions a multifunctional aquarium, which comprises a box body and a power supply conversion unit, the power supply conversion unit converts commercial power into low-voltage direct current, the box body is connected with a water inlet valve and a water pump, the water pump is connected with a water outlet valve, the water inlet valve, the box body, the water pump and the water outlet valve form a water flow channel of the aquarium, an oxygen generation unit, a heating unit, a landscape lighting unit and a water body signal acquisition module are arranged in the box body, and the multifunctional aquarium is also provided with a control center connected with the power supply conversion unit; the control center is electrically connected with the water inlet valve, the water pump, the water outlet valve, the oxygen generation unit, the heating unit, the landscape lighting unit and the water body signal acquisition module; the water signal acquisition module comprises a water temperature sensor, a water level sensor and a salinity sensor, and the control center and the water signal acquisition module are both powered by low-voltage direct current output by the power conversion unit. The utility model discloses control is concentrated, accurate unified, but real time monitoring water characteristic especially can detect the water salinity.

Although the multifunctional aquarium has improved functions, it is not combined with the concept of internet of things, and needs further improvement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bluetooth network deployment control box for aquarium, it can carry out real-time monitoring to each parameter of aquarium to can gather the photo in the aquarium and carry out the AI analysis through the server, thereby optimize the living state of aquatic animals.

In order to achieve the above object, the utility model provides a following technical scheme: a Bluetooth networking control box for an aquarium comprises the aquarium, wherein a track groove is formed in the edge of the top end of the aquarium, rolling wheels are in rolling contact with the track groove and connected with a driving motor, the driving motor is connected with a control box located on the outer side of the aquarium, a power module, a control module, a WIFI module and a Bluetooth gateway module are arranged in the control box, the control module is connected with the Internet through the WIFI module and connected with a cloud server, the cloud server is connected with a remote client, and the remote client comprises a mobile phone client and a WEB client;

the control box is also provided with a collecting camera for collecting the biological images in the aquarium and an intelligent socket controlled by the control module;

the control box is connected with a connecting rod, an electric heating wire is arranged in the part of the connecting rod positioned in water, the connecting rod is connected with a sensor box positioned in the aquarium and close to the lower end, a limiting wheel is arranged on the sensor box, and a limiting track connected with the limiting wheel is arranged on the aquarium;

the sensor box comprises a sensing Bluetooth module which is wirelessly connected with the Bluetooth gateway, and the sensing Bluetooth module is connected with a temperature sensor, a water level sensor, a PH sensor and a dissolved oxygen sensor which are arranged on the sensor box;

still be provided with the portion of changing water and titrate the portion on the aquarium, the portion of changing water includes moisturizing pipe and drain pipe, the moisturizing pipe with still be provided with moisturizing solenoid valve and drainage solenoid valve on the drain pipe, titrate the portion including titrating the pump, moisturizing solenoid valve and drainage solenoid valve, titrate the pump and be connected with respectively and change water bluetooth module and titrate bluetooth module.

Through the technical scheme, the control box and the sensor box are connected together through the track groove and the limiting track and the connecting rod, so that the control box and the sensor box can move along the two tracks, and the sensor in the sensor box can measure parameters of all parts of the aquarium, thereby ensuring the accuracy of measurement; the corresponding heating, water changing and nutrient solution dripping work can be finished by arranging the electric heating wires, the water changing part and the titration part through the arrangement of each sensor in the sensor box, and in addition, the content of the dissolved oxygen can be indirectly controlled by inserting an intelligent socket into equipment such as an oxygen generator and the like; this networking relies on bluetooth gateway to accomplish, has reduced the use amount of pencil, can realize quick and low-cost networking.

Preferably, a cleaning part for cleaning the aquarium is arranged at one side of the connecting rod close to the aquarium.

Through above-mentioned technical scheme, through clean portion, at the removal in-process of control box and sensor box, can scrape the washing to the internal face of aquarium to reduce the residue of foreign matter, be favorable to the cleanness of aquarium.

Preferably, the connecting rod is also connected with a feeder.

Through above-mentioned technical scheme, can realize automatic feeding through throwing the edible ware.

Preferably, the feeder comprises a ship body and a cabin, a connecting part which slides up and down with the connecting rod is arranged outside the ship body, water-driven impellers are symmetrically arranged at the tail part of the ship body and connected with a rotating shaft, a rotating disc which rotates synchronously with the water-driven impellers is connected to the center of the rotating shaft, a food outlet groove which enables the rotating disc to be inserted into is formed in the ship body, and a containing groove is formed in the circumferential surface of the rotating disc.

Through above-mentioned technical scheme, when the connecting rod drives the hull and removes, the hosepipe rotated drive water wheels and axis of rotation, and consequently the rotating disc also begins to rotate, because it can be equipped with the fish and eat to hold the recess rotating the cabin, thereby consequently rotating the in-process rotating disc and can having realized feeding's effect with fish and eating the rotation of taking out.

Preferably, the cabin is smoothly transited to the feeding trough.

Through above-mentioned technical scheme, smooth transition can be favorable to the fish to eat more fast entering into the rotation recess of rotating disc to be favorable to throwing the food.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the control box and the sensor box are connected together through the connecting rod through the track groove and the limiting track, so that the control box and the sensor box can move along the two tracks, and the sensor in the sensor box can measure parameters of all parts of the aquarium, thereby ensuring the accuracy of measurement;

(2) the corresponding heating, water changing and nutrient solution dripping work can be finished by arranging the electric heating wires, the water changing part and the titration part through the arrangement of each sensor in the sensor box, and in addition, the content of the dissolved oxygen can be indirectly controlled by inserting an intelligent socket into equipment such as an oxygen generator and the like;

(3) the method can obtain target survival conditions through analysis of big data, so that the most suitable living environment for the current living creatures can be adjusted by taking the target survival conditions as a reference, and meanwhile, the method can diagnose the health state of the aquatic creatures through a neural network, carry out corresponding adjustment in time, give out corresponding health reports and remind the breeder;

(4) this networking relies on bluetooth gateway to accomplish, has reduced the use amount of pencil, can realize quick and low-cost networking.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a partial process configuration A of FIG. 1;

fig. 3 is a schematic cross-sectional structure view of the feeding device of the present invention;

fig. 4 is the connection structure diagram of the middle bluetooth gateway of the present invention.

In the figure: 1. an aquarium; 2. a track groove; 3. a rolling wheel; 4. a drive motor; 5. a control box; 6. a connecting rod; 7. an electric heating wire; 8. a sensor cartridge; 9. a limiting wheel; 10. a limiting track; 1101. a water replenishing pipe; 1102. a drain pipe; 1103. a water replenishing electromagnetic valve; 1104. a water discharge electromagnetic valve; 12. a dropping section; 1201. a titration pump; 13. a cleaning section; 14. a feeder; 1401. a hull; 1402. a cabin; 1403. a connecting portion; 1404. water-driven impellers; 1405. a rotating shaft; 1406. rotating the disc; 1407. discharging from the feed trough; 1408. an accommodating recess; 15. an intelligent socket.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the following embodiments are provided:

example 1: the utility model provides a bluetooth network deployment control box 5 for aquarium 1, including aquarium 1, the edge on 1 top of aquarium is provided with track groove 2, the rolling contact has roll wheel 3 in track groove 2, roll wheel 3 and be connected with driving motor 4, driving motor 4 is connected with the control box 5 that is located the 1 outside of aquarium, be provided with power module in the control box 5, control module, WIFI module and bluetooth gateway module, control module passes through the WIFI module and is connected with the internet, control module is connected with cloud ware, cloud ware is connected with remote client, remote client includes mobile client and WEB client.

The control box 5 is also provided with a collection camera for collecting the biological images in the aquarium 1 and an intelligent socket 15 controlled by the control module.

The control box 5 is connected with a connecting rod 6, an electric heating wire 7 is arranged in the part of the connecting rod 6 located in water, the connecting rod 6 is connected with a sensor box 8 which is located inside the aquarium 1 and close to the lower end, a limiting wheel 9 is arranged on the sensor box 8, and a limiting track 10 which is connected with the limiting wheel 9 later is arranged on the aquarium 1.

The sensor box 8 comprises a sensing Bluetooth module which is in wireless connection with a Bluetooth gateway, and the sensing Bluetooth module is connected with a temperature sensor, a water level sensor, a PH sensor and a dissolved oxygen sensor which are arranged on the sensor box 8.

Still be provided with on aquarium 1 and trade water portion and titrate portion 12, trade the water portion including moisturizing pipe 1101 and drain pipe 1102, still be provided with moisturizing solenoid valve 1103 and drainage solenoid valve 1104 on moisturizing pipe 1101 and the drain pipe 1102, titrate portion 12 including titrating pump 1201, moisturizing solenoid valve 1103 and drainage solenoid valve 1104, titrating pump 1201 are connected with respectively and trade water bluetooth module and titrate bluetooth module.

The working principle of the control box 5 is as follows: through the track groove 2 and the limit track 10, and the control box 5 and the sensor box 8 are connected together through the connecting rod 6, so that the control box 5 and the sensor box 8 can move along the two tracks, and the sensors in the sensor box 8 can measure parameters of all parts of the aquarium 1, thereby ensuring the accuracy of measurement; through the arrangement of each sensor in the sensor box 8, the corresponding heating, water changing and nutrient solution dripping work can be finished through the arrangement of the electric heating wire 7, the water changing part and the titration part 12, and in addition, the content of dissolved oxygen can be indirectly controlled through the insertion of an intelligent socket 15 into equipment such as an oxygen generator and the like; this networking relies on bluetooth gateway to accomplish, has reduced the use amount of pencil, can realize quick and low-cost networking.

In addition, the embodiment also makes the following improvements:

the side of the connecting rod 6 adjacent to the aquarium 1 is provided with a cleaning part 13 for cleaning the aquarium 1. Through the cleaning part 13, in the moving process of the control box 5 and the sensor box 8, the inner wall surface of the aquarium 1 can be scraped, so that the residue of foreign matters is reduced, and the cleaning of the aquarium 1 is facilitated.

The connecting rod 6 is also connected with a feeder 14. Automatic feeding can be achieved by the feeder 14. The feeder 14 comprises a hull 1401 and a cabin 1402, wherein a connecting part 1403 which slides up and down with a connecting rod 6 is arranged outside the hull 1401, a water-driven impeller 1404 is symmetrically arranged at the tail part of the hull 1401, a rotating shaft 1405 is connected with the water-driven impeller 1404, a rotating disc 1406 which rotates synchronously with the water-driven impeller 1404 is connected to the center of the rotating shaft 1405, a food outlet groove 1407 for inserting the rotating disc 1406 is arranged on the hull 1401, and a containing groove 1408 is arranged on the circumferential surface of the rotating disc 1406.

When the connecting rod 6 drives the hull 1401 to move, the water is carried to the driving water wheel and the rotating shaft 1405 rotates, so that the rotating disc 1406 also starts to rotate, and the accommodating groove 1408 can contain fish food when rotating into the cabin 1402, so that the rotating disc 1406 can rotate and carry the fish food out during the rotation process, thereby realizing the feeding effect.

The cabin 1402 transitions smoothly to the outlet groove 1407. The smooth transition can facilitate faster entry of the fish food into the rotating grooves of the rotating disk 1406, thereby facilitating ingestion.

To sum up, the beneficial effects of the utility model are that: (1) through the track groove 2 and the limit track 10, and the control box 5 and the sensor box 8 are connected together through the connecting rod 6, so that the control box 5 and the sensor box 8 can move along the two tracks, and the sensors in the sensor box 8 can measure parameters of all parts of the aquarium 1, thereby ensuring the accuracy of measurement; (2) through the arrangement of each sensor in the sensor box 8, the corresponding heating, water changing and nutrient solution dripping work can be finished through the arrangement of the electric heating wire 7, the water changing part and the titration part 12, and in addition, the content of dissolved oxygen can be indirectly controlled through the insertion of an intelligent socket 15 into equipment such as an oxygen generator and the like; (3) the method can obtain target survival conditions through analysis of big data, so that the most suitable living environment for the current living creatures can be adjusted by taking the target survival conditions as a reference, and meanwhile, the method can diagnose the health state of the aquatic creatures through a neural network, carry out corresponding adjustment in time, give out corresponding health reports and remind the breeder; (4) this networking relies on bluetooth gateway to accomplish, has reduced the use amount of pencil, can realize quick and low-cost networking.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides a bluetooth network deployment control box for aquarium which characterized in that: the aquarium comprises an aquarium (1), wherein a track groove (2) is formed in the edge of the top end of the aquarium (1), rolling wheels (3) are in rolling contact in the track groove (2), the rolling wheels (3) are connected with a driving motor (4), the driving motor (4) is connected with a control box (5) located on the outer side of the aquarium (1), a power module, a control module, a WIFI module and a Bluetooth gateway module are arranged in the control box (5), the control module is connected with the internet through the WIFI module, the control module is connected with a cloud server, the cloud server is connected with a remote client, and the remote client comprises a mobile phone client and a WEB client;

the control box (5) is also provided with a collecting camera for collecting the biological images in the aquarium (1) and an intelligent socket (15) controlled by the control module;

the control box (5) is connected with a connecting rod (6), an electric heating wire (7) is arranged in a part of the connecting rod (6) which is positioned in water, the connecting rod (6) is connected with a sensor box (8) which is positioned in the aquarium (1) and is close to the lower end, a limiting wheel (9) is arranged on the sensor box (8), and a limiting track (10) which is connected with the limiting wheel (9) later is arranged on the aquarium (1);

the sensor box (8) comprises a sensing Bluetooth module which is wirelessly connected with the Bluetooth gateway, and the sensing Bluetooth module is connected with a temperature sensor, a water level sensor, a PH sensor and a dissolved oxygen sensor which are positioned on the sensor box (8);

still be provided with the portion of changing water and titrate portion (12) on aquarium (1), the portion of changing water includes moisturizing pipe (1101) and drain pipe (1102), moisturizing pipe (1101) with still be provided with moisturizing solenoid valve (1103) and drainage solenoid valve (1104) on drain pipe (1102), it includes titration pump (1201) to drip portion (12), moisturizing solenoid valve (1103) and drainage solenoid valve (1104), titration pump (1201) are connected with the bluetooth module of changing water respectively and titrate bluetooth module.

2. A bluetooth networking control box for aquariums according to claim 1, wherein: one side of the connecting rod (6) close to the aquarium (1) is provided with a cleaning part (13) for cleaning the aquarium (1).

3. A bluetooth networking control box for aquariums according to claim 1, wherein: the connecting rod (6) is also connected with a feeder (14).

4. A Bluetooth networking control box for aquariums according to claim 3, wherein: the feeder (14) comprises a ship body (1401) and a cabin (1402), wherein a connecting part (1403) which slides up and down with the connecting rod (6) is arranged outside the ship body (1401), water driving impellers (1404) are symmetrically arranged at the tail part of the ship body (1401), a rotating shaft (1405) is connected with the water driving impellers (1404), a rotating disc (1406) which rotates synchronously with the water driving impellers (1404) and (3) is connected to the center of the rotating shaft (1405), a food outlet groove (1407) which enables the rotating disc (1406) to be inserted into is formed in the ship body (1401), and an accommodating groove (1408) is formed in the circumferential surface of the rotating disc (1406).

5. A Bluetooth networking control box for aquariums according to claim 4, wherein: the cabin (1402) is smoothly transited to the food outlet groove (1407).

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