CN218331507U - Aquaculture data acquisition equipment - Google Patents

Abstract

The utility model discloses an aquaculture data acquisition facility relates to data acquisition technical field, including the collection box, the middle part welding of collection box bottom has inside hollow inserted bar, hollow inserted bar's outside from top to bottom evenly pegs graft and has many inlet tubes, a plurality of detection sensors are installed with central symmetry's mode to the inside bottom surface of collection box, the inside upper end of collection box is provided with the support, the bottom of support is rotated and is connected with the carousel, the bottom of carousel bonds to have and is used for carrying out clear sponge piece to detecting the sensor, the singlechip is installed to the right-hand member at collection box top, wireless transceiver module is installed to the upper end of collection box right flank, the water pump is installed to the right-hand member of collection box bottom. The utility model discloses an every inlet tube is located the different degree of depth in the water, so the hydroenergy of the different degree of depth is discharged into hollow inserted bar and is taken away and detect to through this kind of mode, can detect the collection to the water data of the different degree of depth.

Description

Aquaculture data acquisition equipment

Technical Field

The utility model relates to a data acquisition technical field especially relates to an aquaculture data acquisition equipment.

Background

The aquaculture industry is a production industry for cultivating aquatic economic animals and plants by using a water area, the aquaculture comprises the cultivation of fishes, crustaceans, mollusks, aquatic plants, algae and other organisms, and in the aquaculture, data such as PH value, oxygen content, water temperature and the like in water need to be collected and monitored regularly.

The utility model discloses a new utility patent with publication number CN213149526U in the existing Chinese patent, which discloses a cultivation data acquisition device based on the Internet of things, comprising a shell, wherein a containing groove is arranged at the center of the bottom of the shell, an elevating platform is connected inside the containing groove in a sliding manner, a data acquisition cavity is arranged at the lower end inside the elevating platform, a plurality of data acquisition detection sensors are uniformly embedded into the top of the data acquisition cavity, a plurality of water inlets are arranged on the left side surface and the right side surface of the lower end outside the elevating platform, a water outlet is arranged at the center of the bottom surface outside the elevating platform, a support frame is fixedly connected with the lower end inside the water outlet, a spring is fixedly connected to the top of the support frame, a sealing ball is fixedly connected to the top of the spring, a stepping motor and an air pump are arranged in the middle of the lower end inside the shell, a lead screw is fixedly connected to the power output end of the stepping motor, a flexible hose is fixedly connected to the air outlet of the air pump, a single chip microcomputer is fixedly connected to the air inlet of the air pump, a circuit board is connected to the left end of the lower end inside of the shell through a screw, and a circuit board, a wireless transceiver module and a power module are welded to the front surface of the circuit board;

the utility model discloses a can float on the surface of water and can regularly detect the collection to each item data of water, but this utility model only can detect the water that is close to the surface of water when carrying out data acquisition to the water, is difficult to carry out data acquisition to the water of the different degree of depth, and the water data of the different degree of depth, if there is the difference such as temperature, oxygen content, so this utility model has a little not enough when data acquisition, for this reason we have proposed an aquaculture data acquisition facility to solve the above-mentioned technical problem who proposes.

SUMMERY OF THE UTILITY MODEL

The utility model provides aquaculture data acquisition equipment to solve current aquaculture data acquisition equipment and be difficult to carry out data acquisition's problem to the water of the different degree of depth.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides an aquaculture data acquisition equipment, includes the collection box, the middle part welding of collection box bottom has inside hollow inserted bar, the outside of hollow inserted bar from top to bottom evenly pegs graft and has many inlet tubes, a plurality of detection sensors are installed with central symmetry's mode to the inside bottom surface of collection box, the inside upper end of collection box is provided with the support, the bottom of support is rotated and is connected with the carousel, the bottom of carousel bonds and has and is used for carrying out clear sponge piece to detecting the sensor, the singlechip is installed to the right-hand member at collection box top, wireless transceiver module is installed to the upper end of collection box right flank.

Preferably, the right end of the bottom of the collection box is provided with a water pump, the water inlet end of the water pump is connected with a water pumping pipe in an inserting mode, and the water outlet end of the water pump is connected with a water delivery pipe in an inserting mode.

Preferably, the bottom of the water pumping pipe penetrates through the inside of the hollow inserted rod and extends downwards to the bottom, and the top of the water conveying pipe is inserted into the lower end of the right side of the collection box.

Preferably, the top of the collection box is embedded with an electric cylinder, the bottom of the electric cylinder penetrates into the collection box and is connected with the top of the support, and an annular groove is formed in the bottom surface of the sponge block and is located right above the detection sensors.

Preferably, the outer periphery welding of carousel has driven gear, the motor is installed to the right flank of support, the driving gear is installed to the power take off end of motor, the driving gear is located driven gear's right side and meshes with driven gear.

Preferably, the upper end of the left side surface of the collection box is provided with a heater and a fan, the heater is positioned right above the fan, the top of the heater is inserted with an air injection pipe, the right end of the air injection pipe penetrates into the interior of the collection box and is positioned on the left side of the sponge block, and the lower end of the left side surface of the collection box is inserted with a discharge pipe.

Has the beneficial effects that:

the hollow insertion rod can be inserted into the water bottom and fixed, each water inlet pipe on the hollow insertion rod can be independently opened and injects water into the hollow insertion rod, then the water pump extracts the water in the hollow insertion rod and discharges the water into the collection box for detection and collection, and each water inlet pipe is positioned at different depths in the water body, so that the water at different depths can be independently discharged into the hollow insertion rod and pumped away for detection, and thus, the water data at different depths can be detected and collected by the mode;

the bracket is arranged in the collection box, and the rotatable sponge block is arranged on the bracket, so that the bracket can move downwards after the water transmission data is detected and water is drained away, and meanwhile, the sponge block can be sleeved outside the detection sensor and rotates, so that the detection sensor can be cleaned and residual water can be removed;

through set up jet-propelled pipe in the collection box, after the sponge piece is clean and move up to detecting the sensor, jet-propelled pipe can be toward spouting steam on the sponge piece to dry the sponge piece, make the sponge piece can have the ability of absorbing water always.

Drawings

Fig. 1 is a schematic diagram of the internal structure of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a of fig. 1 according to the present invention.

Fig. 3 is a partially enlarged schematic view of the point B of fig. 1 according to the present invention.

In FIGS. 1-3: 1-collection box, 2-hollow inserted rod, 3-detection sensor, 4-bracket, 5-rotary table, 6-sponge block, 601-annular groove, 7-driven gear, 8-motor, 9-driving gear, 10-single chip microcomputer, 11-wireless transceiver module, 12-water inlet pipe, 13-electric cylinder, 14-water pumping pipe, 15-water conveying pipe, 16-heater, 17-air injection pipe, 18-fan, 19-water pump and 20-discharge pipe.

Detailed Description

Please refer to fig. 1 to 3:

the utility model provides an aquaculture data acquisition equipment, including collection box 1, the middle part welding of collection box 1 bottom has inside hollow inserted bar 2, the outside of hollow inserted bar 2 from top to bottom evenly pegs graft and has many inlet tubes 12, a plurality of detection sensor 3 are installed to the bottom surface of collection box 1 inside with central symmetry's mode, the upper end of collection box 1 inside is provided with support 4, the bottom of support 4 rotates and is connected with carousel 5, the bottom of carousel 5 bonds there is sponge piece 6 that is used for cleaning detection sensor 3, the right-hand member at collection box 1 top is installed singlechip 10, wireless transceiver module 11 is installed to the upper end of collection box 1 right flank;

a water pump 19 is installed at the right end of the bottom of the collection box 1, a water pumping pipe 14 is inserted at the water inlet end of the water pump 19, a water delivery pipe 15 is inserted at the water outlet end of the water pump 19, the bottom of the water pumping pipe 14 penetrates into the hollow insertion rod 2 and extends downwards to the bottom, the top of the water delivery pipe 15 is inserted with the lower end of the right side of the collection box 1, and a discharge pipe 20 is inserted at the lower end of the left side of the collection box 1;

the hollow inserted bar 2 can be inserted into the water bottom for fixing, so that each water inlet pipe 12 can be positioned at different depths in the aquaculture water body, each water inlet pipe 12 is connected with an internal box body of the hollow inserted bar 2, each water inlet pipe 12 is provided with an electric valve, each electric valve is connected with the single chip microcomputer 10 through a wire, the single chip microcomputer 10 can perform independent timing switch control on the electric valve on each water inlet pipe 12, when the electric valve on a certain water inlet pipe 12 is opened for a period of time, the water body corresponding to the depth can automatically flow into the hollow inserted bar 2, and when the electric valve on the water inlet pipe 12 is closed, the water pump 19 can pump all water in the hollow inserted bar 2 through the water pumping pipe 14, the pumped water is discharged into the collection box 1 through the water conveying pipe 15, and the detection sensor 3 is immersed by the water in the collection box 1 and is positioned below the sponge block 6;

one side of the upper end of the hollow inserted bar 2 is provided with a through hole, and the through hole is positioned above the aquaculture water body, so that external air can enter the hollow inserted bar 2, and the water pump 19 can smoothly pump water in the hollow inserted bar 2 away;

according to the above, the detection sensors 3 are temperature sensors, pH value sensors, water oxygen content sensors, turbidity sensors and other sensors for water quality detection, so that after the water body is discharged into the collection box 1, the detection sensors 3 can detect various data in the water body, all the detection sensors 3 are connected with the single chip microcomputer 10 through wires, so that the data detected by the detection sensors 3 can be converted into electric signals to be sent to the single chip microcomputer 10, the single chip microcomputer 10 is connected with the wireless transceiver module 11 through wires, so that the single chip microcomputer 10 can send the collected water body data to the data receiving terminal through the wireless transceiver module 11, and water body data collection can be realized;

the water inlet pipes 12 with different depths can be independently opened, so that the water body data with different depths can be detected and collected;

the electric valve is also arranged on the discharge pipe 20, and the electric valve on the discharge pipe 20 is also connected with the single chip microcomputer 10, so that after the water body data in the collection box 1 is collected, the electric valve on the discharge pipe 20 can be automatically opened by the single chip microcomputer 10, and then the water in the collection box 1 can be drained by the discharge pipe 20;

according to the above, the top of the collecting box 1 is embedded with the electric cylinder 13, the bottom of the electric cylinder 13 penetrates into the collecting box 1 and is connected with the top of the support 4, the annular groove 601 is formed in the bottom surface of the sponge block 6, the annular groove 601 is located right above the plurality of detection sensors 3, the driven gear 7 is welded on the outer circumferential surface of the turntable 5, the motor 8 is installed on the right side surface of the support 4, the driving gear 9 is installed at the power output end of the motor 8, and the driving gear 9 is located on the right side of the driven gear 7 and is meshed with the driven gear 7;

the electric cylinder 13 can push the support 4, the rotary disc 5 and the sponge block 6 to ascend and descend, the motor 8 can drive the rotary disc 5 and the sponge block 6 to rotate through the meshing of the driving gear 9 and the driven gear 7, so that after water in the collecting box 1 is drained, the support 4 and the sponge block 6 move downwards, the sponge block 6 can be sleeved outside all the detection sensors 3, all the detection sensors 3 are located in the annular groove 601, and then the motor 8 drives the rotary disc 5 and the sponge block 6 to rotate, so that all the detection sensors 3 can be cleaned and residual moisture is removed, the detection sensors 3 are prevented from being corroded due to pollution, and the service life of the detection sensors 3 is prolonged;

according to the above, the upper end of the left side surface of the collection box 1 is provided with the heater 16 and the fan 18, the heater 16 is positioned right above the fan 18, the top of the heater 16 is inserted with the air injection pipe 17, and the right end of the air injection pipe 17 penetrates into the collection box 1 and is positioned at the left side of the sponge block 6;

a pipeline is inserted between the fan 18 and the heater 16, heating wires are arranged in the heater 16, so that the fan 18 can draw external air and discharge the air into the heater 16, then the heating wires in the heater 16 can heat the discharged air, and the heated air is discharged into the collection box 1 through the air injection pipe 17;

after the sponge block 6 cleans the detection sensor 3, moves upwards and resets, the air injection pipe 17 can spray hot air onto the sponge block 6, so that the sponge block 6 is dried, meanwhile, the sponge block 6 can rotate, so that the drying effect of the sponge block 6 is improved, and the exhaust pipe 20 is in an open state when the sponge block 6 is dried, so that the hot air and the moisture in the collection box 1 can be exhausted;

the motor 8, the water pump 19, the heater 16 and the fan 18 are all connected with the single chip microcomputer 10 through conducting wires, and therefore the single chip microcomputer 10 can conduct automatic on-off control on the motor 8, the water pump 19, the heater 16 and the fan 18.

Claims (6)

1. An aquaculture data acquisition equipment, includes collection box (1), its characterized in that:

the middle welding of collection box (1) bottom has inside hollow inserted bar (2), the outside of hollow inserted bar (2) from top to bottom evenly pegs graft and has many inlet tubes (12), a plurality of detection sensor (3) are installed with central symmetry's mode to the inside bottom surface of collection box (1), the inside upper end of collection box (1) is provided with support (4), the bottom of support (4) is rotated and is connected with carousel (5), the bottom of carousel (5) bonds and has and is used for carrying out clear sponge piece (6) to detection sensor (3), singlechip (10) are installed to the right-hand member at collection box (1) top, wireless transceiver module (11) are installed to the upper end of collection box (1) right flank.

2. An aquaculture data collection apparatus according to claim 1 wherein: the water collection box is characterized in that a water pump (19) is installed at the right end of the bottom of the collection box (1), a water pumping pipe (14) is connected to the water inlet end of the water pump (19) in an inserted mode, and a water delivery pipe (15) is connected to the water outlet end of the water pump (19) in an inserted mode.

3. An aquaculture data collection apparatus according to claim 2 wherein: the bottom of the water pumping pipe (14) penetrates into the hollow insertion rod (2) and extends downwards to the bottom, and the top of the water conveying pipe (15) is inserted into the lower end of the right side of the collection box (1).

4. An aquaculture data collection apparatus according to claim 1 wherein: the top of the collection box (1) is embedded with an electric cylinder (13), the bottom of the electric cylinder (13) penetrates into the collection box (1) and is connected with the top of the support (4), an annular groove (601) is formed in the bottom surface of the sponge block (6), and the annular groove (601) is located right above the detection sensors (3).

5. An aquaculture data collection apparatus according to claim 1 wherein: the outer periphery welding of carousel (5) has driven gear (7), motor (8) are installed to the right flank of support (4), driving gear (9) are installed to the power take off end of motor (8), driving gear (9) are located the right side of driven gear (7) and mesh with driven gear (7).

6. An aquaculture data collection apparatus according to claim 1 wherein: the collection box is characterized in that a heater (16) and a fan (18) are installed at the upper end of the left side face of the collection box (1), the heater (16) is located right above the fan (18), an air injection pipe (17) is inserted into the top of the heater (16), the right end of the air injection pipe (17) penetrates into the collection box (1) and is located on the left side of the sponge block (6), and a discharge pipe (20) is inserted into the lower end of the left side face of the collection box (1).

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