CN204670130U - A kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount - Google Patents

Abstract

The utility model belongs to the technical field of aquaculture, specifically relates to the field of feed feeding according to the oxygen content of the water body, in particular to a breeding system for feeding feed according to the dissolved oxygen content of the water body, and is characterized in that it comprises: a display control module , logic control module, equipment module, data acquisition module and GPRS transmission platform, described display control module includes: transmission channel, transmission control switch, described logic control module includes: touch screen, programmable logic controller and DVR, all The data acquisition module described above includes: a water temperature detector and a dissolved oxygen detector.

Description

A breeding system for feeding feed according to the amount of dissolved oxygen in water

technical field

The utility model belongs to the technical field of aquaculture, specifically relates to the field of feed feeding according to the oxygen content of water body, in particular to a breeding system for feeding feed according to the dissolved oxygen content of water body.

Background technique

Dissolved oxygen is the lifeline for fish in water to survive. Dissolved oxygen is not only an essential substance to ensure the normal physiological function and healthy growth of prawns, but also an essential substance to improve water quality and bottom layer, and a key factor to maintain the smooth progress of nitrogen cycle. Aquatic animals live in water, and to carry out metabolism, the premise is that the dissolved oxygen in the water should be sufficient. Dissolved oxygen is closely related to the survival and growth of aquatic animals. High dissolved oxygen in pool water can promote the appetite of farmed animals, improve the utilization rate of feed, and accelerate growth and development. inhibited to varying degrees. If the dissolved oxygen content in water is high, the water quality will have the characteristics of fat, liveliness and refreshment, the appetite of fish will be strong, and the utilization rate of feed will be high.

According to relevant data, the feed coefficient of fish when dissolved oxygen is 3mg/L is double that of 4mg/L, and the growth rate of fish grown in dissolved oxygen 7mg/L is faster than that of fish grown in dissolved oxygen 4mg/L. The fish are 20%-30% faster and the feed factor is 30%-50% lower. When the dissolved oxygen in the water reaches above 4.5mg/L, the appetite of fish and shrimp will be greatly enhanced; when it reaches above 5mg/L, the feed coefficient will reach the optimum value. In the current aquaculture process, the dissolved oxygen level in water often fails to meet the due requirements, which affects the feed remuneration. Therefore, in order to ensure the optimal use of the feed for the farmed animals to achieve the purpose of full growth, the dissolved oxygen in the water should not be less than 5mg/L-7mg/L. Therefore, in the case of high-yield and high-density farming, it is necessary to measure the dissolved oxygen index frequently during the breeding process, and take measures such as adding water to change water, improving the bottom quality, and using an aerator to achieve sufficient dissolved oxygen, which is conducive to digestion and absorption, and reduces the feed coefficient. the goal of.

The level of dissolved oxygen in the water directly affects the fish's food intake and digestion and absorption capacity. The dissolved oxygen content in the water is high, the fish eat vigorously, the digestibility is high, the growth rate is fast, and the feed utilization rate is also high; more energy. As a result, growth is slow and feed rates are low. At present, most farmers feed regularly and quantitatively every day regardless of the dissolved oxygen in the water. If the water body is in a state of hypoxia, the food intake of fish will be significantly reduced, resulting in serious waste of feed, a significant increase in feed coefficient, resulting in an increase in breeding costs and low breeding benefits; and it will cause deterioration of the water environment. Excessive salt causes fish to die and brings economic losses.

At the same time, temperature, as a controlling factor, mainly controls the metabolic reaction rate of fish, thus affecting the growth and development of fish. In the suitable temperature range, the physiological metabolic intensity of fish is positively correlated with the temperature. When the temperature rises to the upper limit of the optimum temperature, the physiological metabolic rate often increases significantly. Temperature not only has a significant effect on metabolic intensity, but also has direct and indirect effects on fish feeding and its intensity, as well as feeding rate and digestibility. In the appropriate temperature range, the increase in temperature will promote the feeding, digestion and absorption of fish, otherwise it will inhibit the feeding, digestion and absorption of fish to a certain extent.

And the pH value has a great influence on the growth of fish. If the pH value of the fish farming water is low and there is no special external pollution, it can be judged that the water body may have low hardness, excessive humus, high carbon dioxide and insufficient dissolved oxygen. At the same time, it can also be judged that the photosynthesis of plants in this water body is not vigorous or the density of cultured organisms is too high or the metabolism of microorganisms is inhibited, and the metabolism of the entire material metabolism system is slow. If the pH value is too high, it may also be that the hardness is not enough, and the plant reproduction is too vigorous, the photosynthesis is too strong or the humus in the pond is insufficient.

It is also necessary to control the turbidity (transparency) of the water body during the breeding process, and the transparency of the water body mainly changes with the turbidity of the water. Turbidity is the degree to which water is mixed with various bacterial substances including plankton causing turbidity.

For example, the application number in the prior art is: CN201210404145.9, and the abstract is: the invention discloses a feeding system for aquaculture, which aims to provide a feeder that can effectively solve the problem of feed waste and feed waste during the feeding process of the feeder. When it is damp, the feeding system of the problem that the feeder cannot work. It includes a material box, a partition is provided under the top surface of the cavity of the material box, a first vertical guide rod is provided on the lower surface of the partition, a baffle plate that can move along the first vertical guide rod is provided below the partition, and The buoyancy of the baffle is greater than gravity; the interlayer is provided with several upper discharge holes, and the baffle is provided with several lower discharge holes, and the upper discharge holes and the lower discharge holes are distributed alternately; the middle part of the upper surface of the interlayer A motor is provided, and a vertical screw is provided in the box cavity, and the vertical screw passes through the baffle and the interlayer to connect with the rotor of the motor, and a nut is provided in the middle of the baffle and the nut is sleeved on the vertical screw; the vertical screw A coaxial polished rod is provided at the lower end of the polished rod, and an impeller is provided at the lower part of the polished rod; a number of discharge holes are provided on the side of the box opposite to the impeller.

Utility model content

In order to solve the deficiencies in the prior art, the invention provides a breeding system for feeding feed according to the amount of dissolved oxygen in water.

A breeding system for feeding feed according to the amount of dissolved oxygen in water, characterized in that it includes: a display control module, a logic control module, an equipment module, a data acquisition module and a GPRS transmission platform, and the display control module includes: a transmission channel, Transmission control switch, the logic control module includes: a touch screen, a programmable logic controller and a DVR, the data acquisition module includes: a water temperature detector, a dissolved oxygen detector, and the equipment module includes: a feeder, a supply Oxygenator and camera, the display control module is connected with the logic control module, the GPRS transmission platform is connected with the logic module, the GPRS transmission platform and the logic control module are connected with the DVR at the same time, the data The acquisition module is connected with the logic control module, the feeder is connected with the programmable logic controller in the logic control module, and the oxygen supplier is connected with the programmable logic controller in the logic control module , the camera is connected with the programmable logic controller in the logic control module, and the aquaculture system for feeding feed according to the amount of dissolved oxygen in the water body also includes: an alarm and an alarm light.

The DVR is an ultra-long and stable hard disk video recorder.

The feeder is a miniature quantitative automatic bait feeder.

The feeding specification of the miniature quantitative automatic bait feeding machine is: 11-100g of fish breeding feeding requirements of less than 50 per unit.

The measurement range of the water temperature detector is minus 15 degrees Celsius to 50 degrees Celsius.

The alarm is a common buzzer, and the alarm light is a fire safety light.

The beneficial effects of the utility model:

1. Use online monitoring equipment to monitor the dynamic dissolved oxygen in the water body in real time to determine the amount of feed to be fed. Feed or feed more when the dynamic dissolved oxygen in the water body is higher than the minimum dissolved oxygen feeding requirement, and feed when the dynamic dissolved oxygen in the water body is lower than the minimum dissolved oxygen dosage Feed less or do not throw when feeding requirements, so the dynamic dissolved oxygen of the whole water body is at a higher level. High dissolved oxygen in the water means that the water quality will be fat, alive and refreshing, and the fish will have a strong appetite, which can promote the appetite of farmed fish. The fish will eat vigorously, have high digestibility, accelerate growth and development, and have a high feed utilization rate. Bring good economic benefits to farmers.

2. By installing online monitoring equipment in the pond, and measuring the dissolved oxygen in the water in real time through the online monitoring equipment, instruct farmers to determine the amount of feed to be fed according to different dissolved oxygen conditions, which can reduce feed waste, effectively improve water quality, and greatly increase feed utilization. , bringing good economic benefits. The purpose of the invention is to scientifically and rationally determine the amount of feed to be fed, so as to maximize the breeding benefits.

Description of drawings

Fig. 1 is the flow chart of overall layout diagram of the present invention;

Reference signs:

1. Display control module, 2. Logic control module, 3. Equipment module, 4. Data acquisition module, 5. GPRS transmission platform, 6. Touch screen, 7. Programmable logic controller, 8. DVR, 9. Feeding machine, 10. Oxygen supply, 11. Camera, 12. Water temperature detector, 13. Turbidity detector, 14. Dissolved oxygen detector, 15. PH value detector, 16. Alarm, 17. Alarm light.

Detailed ways:

Example 1:

A breeding system for feeding feed according to the amount of dissolved oxygen in water, characterized in that it comprises: a display control module 1, a logic control module 2, an equipment module 3, a data acquisition module 4 and a GPRS transmission platform 5, the display control module 1 includes: a transmission channel 501, a transmission control switch 502, the logic control module 2 includes: a touch screen 6, a programmable logic controller 7 and a DVR 8, and the data acquisition module includes: a water temperature detector 12, a dissolved oxygen detector 14. The equipment module 3 includes: a feeder 9, an oxygen supplier 10 and a camera 11, the display control module 1 is connected to the logic control module 2, and the GPRS transmission platform 5 is connected to the logic module 2 , the GPRS transmission platform 5 is connected with the DVR8 with the logic control module 2 at the same time, the data collection module 4 is connected with the logic control module 2, and the feeder 9 is connected with the logic control module 2 The programmable logic controller 7 is connected, the oxygen supply 10 is connected with the programmable logic controller 7 in the logic control module 2, and the described camera 11 is connected with the programmable logic controller 7 in the logic control module 2 In connection, the aquaculture system for feeding feed according to the amount of dissolved oxygen in the water further includes: an alarm 16 and an alarm light 17 .

Example 2:

A breeding system for feeding feed according to the amount of dissolved oxygen in water, characterized in that it comprises: a display control module 1, a logic control module 2, an equipment module 3, a data acquisition module 4 and a GPRS transmission platform 5, the display control module 1 includes: a transmission channel 501, a transmission control switch 502, the logic control module 2 includes: a touch screen 6, a programmable logic controller 7 and a DVR 8, and the data acquisition module includes: a water temperature detector 12, a dissolved oxygen detector 14. The equipment module 3 includes: a feeder 9, an oxygen supplier 10 and a camera 11, the display control module 1 is connected to the logic control module 2, and the GPRS transmission platform 5 is connected to the logic module 2 , the GPRS transmission platform 5 is connected with the DVR8 with the logic control module 2 at the same time, the data collection module 4 is connected with the logic control module 2, and the feeder 9 is connected with the logic control module 2 The programmable logic controller 7 is connected, the oxygen supply 10 is connected with the programmable logic controller 7 in the logic control module 2, and the described camera 11 is connected with the programmable logic controller 7 in the logic control module 2 In connection, the aquaculture system for feeding feed according to the amount of dissolved oxygen in the water further includes: an alarm 16 and an alarm light 17 .

The DVR8 is an ultra-long and stable hard disk video recorder.

Described feeding machine 9 is miniature quantitative automatic bait feeding machine.

The feeding specification of the miniature quantitative automatic bait feeding machine is: 11-100g of fish breeding feeding requirements of less than 50 per unit.

The measurement range of the water temperature detector is minus 15 degrees Celsius to 50 degrees Celsius.

Described alarm 16 is a common buzzer alarm, and described alarm lamp 17 is a fire safety lamp.

Claims (6)

1. one kind is carried out the cultivating system of feedstuff feeding according to water body dissolved oxygen amount, it is characterized in that comprising: display control module (1), Logic control module (2), EM equipment module (3), data acquisition module (4) and GPRS transmission platform (5), described display control module (1) comprising: transmission channel (501), transmission gauge tap (502), described Logic control module (2) comprising: touch-screen (6), programmable logic controller (PLC) (7) and DVR(8), described data acquisition module comprises: water temperature detector (12), dissolved oxygen detector (14), described EM equipment module (3) comprising: feed throw-in machine (9), oxygen supply (10) and video camera (11), described display control module (1) andlogic control module (2) is connected, described GPRS transmission platform (5) is connected with logic module (2), described GPRS transmission platform (5) andlogic control module (2) simultaneously with DVR(8) be connected, described data acquisition module (4) is connected with described Logic control module (2), programmable logic controller (PLC) (7) in described feed throw-in machine (9) andlogic control module (2) is connected, programmable logic controller (PLC) (7) in described oxygen supply (10) andlogic control module (2) is connected, programmable logic controller (PLC) (7) in described video camera (11) andlogic control module (2) is connected, described a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount also comprises: alarm (16) and alarm lamp (17).

2. a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount according to claim 1, is characterized in that comprising: described DVR(8) be the stable DVR of super long type.

3. a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount according to claim 1, is characterized in that comprising: described feed throw-in machine (9) is miniature quantitative Autoamtic bait putting machine.

4. a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount according to claim 3, is characterized in that comprising: the specification that feeds intake of described miniature quantitative Autoamtic bait putting machine is: the fish culture bait throwing in requirement of every unit less than 50 11 ~ 100g.

5. a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount according to claim 1, is characterized in that comprising: the measurement category of described water temperature detector (12) is subzero 15 degrees Celsius to 50 degrees Celsius.

6. a kind of cultivating system carrying out feedstuff feeding according to water body dissolved oxygen amount according to claim 1, is characterized in that comprising: described alarm (16) is common buzzer siren, and described alarm lamp (17) is security against fire lamp.