CN112624252A

CN112624252A - Quality of water intelligence purifies aquatic products case

Info

Publication number: CN112624252A
Application number: CN202011517976.8A
Authority: CN
Inventors: 林炳荣
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-04-09

Abstract

The invention relates to an aquatic product box, in particular to an intelligent water purification box. The technical problem is as follows: the intelligent water purifying production box can make people relaxed and save time. The technical scheme is as follows: an intelligent water quality purification water production tank comprises a wall hanging block, an expansion screw, a bent frame, a culture tank, a control box, a power supply main switch, a first connecting block, a water body purification tank, a first sealing ring, a water pumping pipe and the like; the equal rigid coupling in upper portion left and right sides has the wall hanging piece in bent frame, has all opened the mounting hole on two wall hanging pieces, is equipped with the inflation screw in the mounting hole, and bent frame front side lower part bolt has breeds the case, breeds the incasement and including control module and power module. According to the invention, the control module can control the second piston to move up and down, so that water in the cultivation box is conveyed into the activated carbon box, and the activated carbon in the activated carbon box can purify the water, so that the water can be automatically purified, and people can feel easier.

Description

Quality of water intelligence purifies aquatic products case

Technical Field

The invention relates to an aquatic product box, in particular to an intelligent water purification box.

Background

Aquaculture means breed under artificial control, breed and the production activity of results aquatic thing, in the aquaculture trade, aquatic products are often need to be raised to the aquatic products case that uses, but the aquatic products case structure that uses now is fairly simple, and the function of purified water does not, consequently, need people to drag for the aquatic products in the aquatic products case, then pour the water in the aquatic products case into the container that is equipped with active carbon, make active carbon purify water, people are tired more like this, and need longer time.

Disclosure of Invention

In pouring the water of people in producing the case with the water into the container that is equipped with active carbon, make active carbon purify water, people are tired like this, need the shortcoming of longer time moreover, technical problem: the intelligent water purifying production box can make people relaxed and save time.

The technical scheme is as follows: an intelligent water purification and production tank comprises wall hanging blocks, expansion screws, a bent frame, a culture tank, a control box, a power supply main switch, a first connecting block, a water body purification tank, a first sealing ring, a water pumping pipe, a water pumping manifold, a water outlet pipe, a water outlet manifold, a second sealing ring, a third sealing ring, an activated carbon tank, a fourth sealing ring, a fifth sealing ring, a connecting pipe, a liquid separating manifold, a sixth sealing ring, an air outlet pipe, a first check valve, a piston cylinder, an air inlet pipe, a second check valve, a first piston, a second piston, a water inlet joint, a third check valve, a water outlet joint, a fourth check valve, a speed reducing motor, a rotary disc, a rotary shaft, a connecting rod and a connecting rod, wherein the left side and the right side of the upper portion in the bent frame are fixedly connected with the wall hanging blocks, mounting holes are formed in the two wall hanging blocks, the expansion screws are arranged in the mounting holes, the lower portion of the front side of the bent frame is bolted with, the control module is connected with the power module through a circuit, a main power switch is arranged on the upper portion of the front side of the control box, the main power switch is connected with the power module through a circuit, the bottom of the cultivation box is fixedly connected with a water purification box through a first connecting block, the left side and the right side of the lower portion of the cultivation box are connected with a first sealing ring in an embedded mode, a water pumping pipe is arranged in the first sealing ring on the left side and is connected with a water pumping manifold, the water pumping manifold is positioned in the cultivation box, a water outlet pipe is arranged in the first sealing ring on the right side and is connected with a water outlet manifold, the water outlet manifold is positioned in the cultivation box, the lower portion of the left side of the water purification box is connected with a second sealing ring in an embedded mode, the water pumping pipe penetrates through the second sealing ring, a third sealing ring is connected with the lower portion, the water outlet pipe penetrates through a third sealing ring and a fourth sealing ring, the lower part of the left side of the activated carbon box is connected with a fifth sealing ring in an embedded manner, a connecting pipe is arranged in the fifth sealing ring, the right end of the connecting pipe is fixedly connected with a liquid distribution manifold, the left side of the top of the activated carbon box is connected with a sixth sealing ring in an embedded manner, a piston cylinder is bolted to the left side in the water purification box, the right side of the top of the piston cylinder is connected with an air outlet pipe, the air outlet pipe penetrates through the sixth sealing ring, a first check valve used for enabling air to flow in a single direction is arranged in the air outlet pipe, the left side of the top of the piston cylinder is connected with an air inlet pipe used for enabling air to flow, the air inlet pipe penetrates through the upper part of the left side of the water purification box, a, the water outlet joint that the shape is L shape is connected on piston cylinder bottom right side, water outlet joint is connected with the connecting pipe, be equipped with the fourth check valve in the water outlet joint, gear motor bolt is in the middle part of the left side in the piston cylinder, gear motor is located between first piston and the second piston, install the carousel on gear motor's the output shaft, carousel right side upper portion is connected with the pivot, the rotation type is connected with connecting rod and connecting rod in the pivot, the connecting rod is located the connecting rod right side, the connecting rod bottom is connected with second piston top rotary type, the connecting rod top is connected with first piston bottom rotary type, gear motor and control module have line connection.

Optionally, still including the installation pole, the feedbox, the filling tube, a slide rail, the slider, the carriage release lever, the mount pad, electric putter and baffle, the installation pole rigid coupling is in breeding case right side lower part, installation pole top rigid coupling has the feedbox, feed box top intermediate junction has the filling tube, open in the left side of feedbox bottom has a plurality of first unloading holes, feedbox bottom right side rigid coupling has mount pad and the slide rail that plays the guide effect, the mount pad is located the slide rail right side, the gliding style is equipped with the slider on the slide rail, the carriage release lever rigid coupling is in the slider bottom, the carriage release lever left end rigid coupling has the baffle, it has a plurality of second unloading holes to open on the baffle, mount pad left side bolt has electric putter, electric putter left end and carriage release lever right-hand member fixed connection, electric putter and control module have the line connection.

Optionally, still including laser correlation transmitting head, laser correlation receiving head, glass cover and first pilot lamp, the mounting groove has all been opened to the lower part left and right sides in the feedbox, the laser correlation transmitting head is installed on the right side in the mounting groove on right side, the laser correlation receiving head is installed in left mounting groove left side, all install glass cover in two mounting grooves, first pilot lamp is installed in control box front side middle part, laser correlation transmitting head, laser correlation receiving head and first pilot lamp all have line connection with the control module.

Optionally, the water-saving culture device further comprises an external water pipe, a water valve, a communicating pipe, a second connecting block, a liquid sensor and a second indicating lamp, wherein the lower portion of the rear side of the bent frame is connected with the external water pipe used for enabling water to flow, the upper portion of the external water pipe is located in the culture box, the water valve is arranged on the external water pipe, the upper portion of the left side of the culture box is connected with the communicating pipe and the second connecting block, the second connecting block is located above the communicating pipe, the liquid sensor is installed at the bottom of the second connecting block and penetrates through the communicating pipe, the second indicating lamp is arranged on the lower portion of the front side of the control box, and.

The invention has the beneficial effects that: according to the invention, the control module can control the second piston to move up and down, so that water in the cultivation box is conveyed into the activated carbon box, and the activated carbon in the activated carbon box can purify the water, so that the water can be automatically purified, and people can feel easier; the control module can also control the baffle to move leftwards, so that the first blanking hole corresponds to the second blanking hole, and the feed in the feed box falls into the breeding box to feed, so that the feed can be automatically fed, and the time can be saved; the first indicator lamp can prompt people that the feed in the feed box is insufficient and needs to be added in time; through the effect of external water pipe, can make things convenient for people to add water toward breeding the incasement.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic cross-sectional view of a front view of the present invention.

Fig. 3 is a first partially enlarged schematic view of the present invention.

Fig. 4 is a second partially enlarged view of the present invention.

Fig. 5 is an enlarged view of a third portion of the present invention.

Fig. 6 is an enlarged view of a fourth portion of the present invention.

Fig. 7 is a circuit diagram of the present invention.

Fig. 8 is a schematic circuit diagram of the present invention.

Description of reference numerals: 1 wall hanging block, 2 mounting holes, 3 expansion screws, 4 curved frames, 5 culture boxes, 51 control boxes, 52 power supply main switches, 6 first connecting blocks, 7 water body purifying boxes, 8 first sealing rings, 9 water pumping pipes, 10 water pumping manifolds, 11 water outlet pipes, 12 water outlet manifolds, 13 second sealing rings, 14 third sealing rings, 15 activated carbon boxes, 16 fourth sealing rings, 17 fifth sealing rings, 18 connecting pipes, 19 liquid dividing manifolds, 20 sixth sealing rings, 21 air outlet pipes, 22 first check valves, 23 piston cylinders, 24 air inlet pipes, 25 second check valves, 26 first pistons, 27 second pistons, 28 water inlet connectors, 29 third check valves, 291 water outlet connectors, 292 fourth check valves, 293 speed reducing motors, 294 rotary discs, 295 rotary shafts, 296 connecting rods, 297 connecting rods, 301 mounting rods, 302 feed boxes, 303 feed pipes, 304 first feed holes, slide rails, 306 slide blocks, 307 moving rods, 308 mounting seats, 309 electric push rods, 3010 baffle plates, 3011 second blanking holes, 311 mounting grooves, 312 laser correlation transmitting heads, 313 laser correlation receiving heads, 314 glass covers, 315 first indicator lamps, 321 external water pipes, 322 water valves, 323 communicating pipes, 324 second connecting blocks, 325 liquid sensors and 326 second indicator lamps.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

An intelligent water purification production tank comprises wall hanging blocks 1, expansion screws 3, a curved frame 4, a culture tank 5, a control tank 51, a power supply main switch 52, a first connecting block 6, a water body purification tank 7, a first sealing ring 8, a water pumping pipe 9, a water pumping manifold 10, a water outlet pipe 11, a water outlet manifold 12, a second sealing ring 13, a third sealing ring 14, an activated carbon tank 15, a fourth sealing ring 16, a fifth sealing ring 17, a connecting pipe 18, a liquid separating manifold 19, a sixth sealing ring 20, an air outlet pipe 21, a first check valve 22, a piston cylinder 23, an air inlet pipe 24, a second check valve 25, a first piston 26, a second piston 27, a water inlet connector 28, a third check valve 29, a water outlet connector 291, a fourth check valve 292, a speed reducing motor 293, a rotary table 294, a rotary shaft 295, a connecting rod 296 and a connecting rod 297, wherein the left side and the right side of the upper part in the curved frame 4 are fixedly connected with the wall hanging blocks 1, the bent frame 4 is connected with the wall hanging blocks 1 in a welding connection mode, mounting holes 2 are formed in the two wall hanging blocks 1, expansion screws 3 are arranged in the mounting holes 2, a culture box 5 is bolted to the lower portion of the front side of the bent frame 4, a control module and a power module are arranged in the culture box 5 and are connected with each other through a circuit, a main power switch 52 is arranged on the upper portion of the front side of a control box 51 and is connected with the power module through a circuit, a water purification box 7 is fixedly connected to the bottom of the culture box 5 through a first connecting block 6, first sealing rings 8 are connected to the left and right sides of the lower portion of the culture box 5 in an embedded mode, a water pumping pipe 9 is arranged in the first sealing ring 8 on the left side, a water pumping manifold 10 is connected to the water pumping pipe 9, the water pumping manifold 10 is located in the culture box 5, a water outlet pipe 11 is arranged in the first sealing ring 8 on the right side, the lower part of the left side of the water body purifying box 7 is connected with a second sealing ring 13 in an embedded manner, the water pumping pipe 9 penetrates through the second sealing ring 13, the lower part of the right side of the water body purifying box 7 is connected with a third sealing ring 14 in an embedded manner, an activated carbon box 15 is installed at the bottom in the water body purifying box 7, the water body purifying box 7 is connected with the activated carbon box 15 in a welded manner, activated carbon is installed in the activated carbon box 15, the lower part of the right side of the activated carbon box 15 is connected with a fourth sealing ring 16 in an embedded manner, a water outlet pipe 11 penetrates through the third sealing ring 14 and the fourth sealing ring 16, the lower part of the left side of the activated carbon box 15 is connected with a fifth sealing ring 17 in an embedded manner, a connecting pipe 18 is arranged in the fifth sealing ring 17, the right end of the connecting pipe 18 is fixedly connected with a, an air outlet pipe 21 penetrates through the sixth sealing ring 20, a first check valve 22 for enabling air to flow in a single direction is arranged in the air outlet pipe 21, an air inlet pipe 24 for enabling air to flow is connected to the left side of the top of the piston cylinder 23, the air inlet pipe 24 penetrates through the upper portion of the left side of the water body purification box 7, a second check valve 25 is arranged in the air inlet pipe 24, a first piston 26 and a second piston 27 are arranged in the piston cylinder 23, the first piston 26 is located above the second piston 27, a water inlet connector 28 is connected to the left side of the bottom of the piston cylinder 23, the water inlet connector 28 is connected with a water pumping pipe 9, a third check valve 29 is arranged in the water inlet connector 28, an L-shaped water outlet connector 291 is connected to the right side of the bottom of the piston cylinder 23, the water outlet 291 is connected with a connecting pipe 18, a fourth check valve 292 is arranged in the, the output shaft of the gear motor 293 is provided with a rotary disc 294, the upper part of the right side of the rotary disc 294 is connected with a rotary shaft 295, the rotary disc 294 is connected with the rotary shaft 295 in a welding connection mode, the rotary shaft 295 is rotatably connected with a connecting rod 296 and a connecting rod 297, the connecting rod 296 is located on the right side of the connecting rod 297, the bottom end of the connecting rod 296 is rotatably connected with the top of the second piston 27, the top end of the connecting rod 297 is rotatably connected with the bottom of the first piston 26, and the gear motor 293 is.

Example 2

An intelligent water purification production tank comprises wall hanging blocks 1, expansion screws 3, a curved frame 4, a culture tank 5, a control tank 51, a power supply main switch 52, a first connecting block 6, a water body purification tank 7, a first sealing ring 8, a water pumping pipe 9, a water pumping manifold 10, a water outlet pipe 11, a water outlet manifold 12, a second sealing ring 13, a third sealing ring 14, an activated carbon tank 15, a fourth sealing ring 16, a fifth sealing ring 17, a connecting pipe 18, a liquid separating manifold 19, a sixth sealing ring 20, an air outlet pipe 21, a first check valve 22, a piston cylinder 23, an air inlet pipe 24, a second check valve 25, a first piston 26, a second piston 27, a water inlet connector 28, a third check valve 29, a water outlet connector 291, a fourth check valve 292, a speed reducing motor 293, a rotary table 294, a rotary shaft 295, a connecting rod 296 and a connecting rod 297, wherein the left side and the right side of the upper part in the curved frame 4 are fixedly connected with the wall hanging blocks 1, mounting holes 2 are respectively formed in the two wall hanging blocks 1, expansion screws 3 are arranged in the mounting holes 2, a culture box 5 is bolted on the lower portion of the front side of the bent frame 4, a control module and a power module are arranged in the culture box 5 and are connected with each other through a circuit, a power main switch 52 is arranged on the upper portion of the front side of the control box 51 and is connected with the power module through a circuit, a water body purification box 7 is fixedly connected to the bottom of the culture box 5 through a first connecting block 6, first sealing rings 8 are respectively connected to the left side and the right side of the lower portion of the culture box 5 in an embedded manner, a water pumping pipe 9 is arranged in the first sealing ring 8 on the left side, a water pumping manifold 10 is connected to the water pumping pipe 9, the water pumping manifold 10 is positioned in the culture box 5, a water outlet pipe 11 is arranged in the first sealing ring 8 on the right side, a water outlet pipe 11 is connected with a water outlet manifold, the water pumping pipe 9 penetrates through the second sealing ring 13, the lower part of the right side of the water purification box 7 is connected with a third sealing ring 14 in an embedded manner, the bottom in the water purification box 7 is provided with an activated carbon box 15, activated carbon is filled in the activated carbon box 15, the lower part of the right side of the activated carbon box 15 is connected with a fourth sealing ring 16 in an embedded manner, the water outlet pipe 11 penetrates through the third sealing ring 14 and the fourth sealing ring 16, the lower part of the left side of the activated carbon box 15 is connected with a fifth sealing ring 17 in an embedded manner, a connecting pipe 18 is arranged in the fifth sealing ring 17, the right end of the connecting pipe 18 is fixedly connected with a liquid separating manifold 19, the left side of the top of the activated carbon box 15 is connected with a sixth sealing ring 20 in an embedded manner, the piston cylinder 23 is bolted to the left side in the water purification box 7, the right side of the top of the, an air inlet pipe 24 penetrates through the upper part of the left side of the water body purification box 7, a second check valve 25 is arranged in the air inlet pipe 24, a first piston 26 and a second piston 27 are arranged in a piston cylinder 23, the first piston 26 is positioned above the second piston 27, the left side of the bottom of the piston cylinder 23 is connected with a water inlet connector 28, the water inlet connector 28 is connected with a water pumping pipe 9, a third check valve 29 is arranged in the water inlet connector 28, an L-shaped water outlet connector 291 is connected to the right side of the bottom of the piston cylinder 23, the water outlet connector 291 is connected with a connecting pipe 18, a fourth check valve 292 is arranged in the water outlet connector 291, a speed reducing motor 293 is bolted in the middle of the left side of the piston cylinder 23, the speed reducing motor 293 is positioned between the first piston 26 and the second piston 27, a rotary table 294 is installed on an output shaft of the speed reducing motor 293, the bottom end of the connecting rod 296 is rotatably connected with the top of the second piston 27, the top end of the connecting rod 297 is rotatably connected with the bottom of the first piston 26, and the speed reducing motor 293 is connected with the control module through a line.

The feed box comprises a mounting rod 301, a feed box 302, a feeding pipe 303, a sliding rail 305, a sliding block 306, a moving rod 307, a mounting seat 308, an electric push rod 309 and a baffle 3010, wherein the mounting rod 301 is fixedly connected to the lower portion of the right side of the breeding box 5, the feed box 302 is fixedly connected to the top end of the mounting rod 301, the mounting rod 301 is connected with the feed box 302 in a welding connection mode, the feeding pipe 303 is connected to the middle of the top of the feed box 302, a plurality of first feed holes 304 are formed in the left side of the bottom of the feed box 302, the mounting seat 308 and the sliding rail 305 playing a guiding role are fixedly connected to the right side of the bottom of the feed box 302, the feed box 302 is connected with the mounting seat 308 in a welding connection mode, the mounting seat 308 is located on the right side of the sliding rail 305, the sliding block 306 is slidably arranged on the sliding rail 305, the moving rod 307 is fixedly connected to the bottom of the sliding block 306, the baffle 3010 is fixedly connected to the, an electric push rod 309 is bolted to the left side of the mounting seat 308, the left end of the electric push rod 309 is fixedly connected with the right end of the moving rod 307, and the electric push rod 309 is in line connection with the control module.

Example 3

The feeding device is characterized by further comprising an installation rod 301, a feed box 302, a feeding pipe 303, a sliding rail 305, a sliding block 306, a moving rod 307, an installation seat 308, an electric pushing rod 309 and a baffle 3010, wherein the installation rod 301 is fixedly connected to the lower portion of the right side of the breeding box 5, the feed box 302 is fixedly connected to the top end of the installation rod 301, the feeding pipe 303 is connected to the middle of the top of the feed box 302, a plurality of first blanking holes 304 are formed in the left side of the bottom of the feed box 302, the installation seat 308 and the sliding rail 305 playing a guiding role are fixedly connected to the right side of the bottom of the feed box 302, the installation seat 308 is located on the right side of the sliding rail 305, the sliding block 306 is slidably arranged on the sliding rail 305, the moving rod 307 is fixedly connected to the bottom of the sliding block 306, the left end of the moving rod 307 is fixedly connected with the baffle 3010, a plurality of second blanking holes 3011 are formed in the baffle 301.

Still including laser correlation emitter 312, laser correlation receiver 313, glass covers 314 and first pilot lamp 315, mounting groove 311 has all been opened to the lower part left and right sides in feedbox 302, laser correlation emitter 312 is installed on the right side in the mounting groove 311 on right side, laser correlation receiver 313 is installed in left mounting groove 311 on left side, glass covers 314 all is installed in two mounting grooves 311, first pilot lamp 315 is installed in control box 51 front side middle part, first pilot lamp 315 is connected with control box 51 through bolted connection's mode, laser correlation emitter 312, laser correlation receiver 313 and first pilot lamp 315 all have line connection with the control module.

Example 4

Still including laser correlation emission head 312, laser correlation reception head 313, glass covers 314 and first pilot lamp 315, mounting groove 311 has all been opened to the lower part left and right sides in feedbox 302, laser correlation emission head 312 is installed on the right side in the mounting groove 311 on right side, laser correlation reception head 313 is installed in left mounting groove 311 left side, glass covers 314 all is installed in two mounting grooves 311, first pilot lamp 315 is installed in control box 51 front side middle part, laser correlation emission head 312, laser correlation reception head 313 and first pilot lamp 315 all have line connection with the control module.

The water-saving culture device is characterized by further comprising an external water pipe 321, a water valve 322, a communicating pipe 323, a second connecting block 324, a liquid sensor 325 and a second indicator lamp 326, the lower portion of the rear side of the bent frame 4 is connected with the external water pipe 321 used for enabling water to flow, the upper portion of the external water pipe 321 is located in the culture box 5, the water valve 322 is arranged on the external water pipe 321, the upper portion of the left side of the culture box 5 is connected with the communicating pipe 323 and the second connecting block 324, the culture box 5 is connected with the second connecting block 324 in a welding connection mode, the second connecting block 324 is located above the communicating pipe 323, the liquid sensor 325 is installed at the bottom of the second connecting block 324, the liquid sensor 325 penetrates through the communicating pipe 323, the lower portion of the front side of the control box 51 is provided with the.

The wall hanging block 1 is installed on the wall through an expansion screw 3, people press a power supply main switch 52 to electrify the device, then a program is programmed to set water purification once every hour, then the program is input into a control module, when the time reaches the time point set in the control module, the control module controls a speed reducing motor 293 to work for 10 minutes, the speed reducing motor 293 works to drive a rotary disc 294 to rotate, thereby driving a rotary shaft 295 to rotate, a connecting rod 296 drives a second piston 27 to move up and down, when the second piston 27 moves upwards, water in the culture box 5 is sucked into a water suction pipe 9 through a water suction manifold 10 and then flows into a piston cylinder 23 through a water inlet connector 28, when the second piston 27 moves downwards, the second piston 27 pushes the water in the piston cylinder 23, so that the water in the piston cylinder 23 flows into a liquid distribution manifold 19 through a water outlet connector 291 and a connecting pipe 18 and then is discharged from the liquid distribution manifold 19, the water is discharged into the activated carbon box 15, the activated carbon in the activated carbon box 15 can purify the water, and thus the water can be automatically purified, so that people can feel easier, the speed reducing motor 293 works continuously, so that the water in the cultivation box 5 can be continuously conveyed into the activated carbon box 15, when the purified water in the activated carbon box 15 reaches a certain amount, the purified water flows out of the water outlet manifold 12 through the water outlet pipe 11 and flows back into the cultivation box 5, the rotating shaft 295 rotates to drive the first piston 26 to move up and down through the connecting rod 297, when the first piston 26 moves down, the external air is sucked into the piston cylinder 23 through the air inlet pipe 24, when the first piston 26 moves up, the first piston 26 pushes the air in the piston cylinder 23, so that the air in the piston cylinder 23 is discharged into the activated carbon box 15 through the air outlet pipe 21, the oxygen is supplied to the water in the activated carbon box 15, and because the speed reducing motor 293 works continuously, therefore, oxygen can be continuously supplied to the water in the activated carbon box 15, after 10 minutes, the speed reducing motor 293 stops working, and when the device is not needed, people press the power main switch 52 again to electrify the device.

People pour the feed into the feedbox 302 through the feed tube 303, then program the time of the blanking, input the program into the control module, when the time reaches the time point set in the control module, the control module controls the electric push rod 309 to extend for 2 seconds, drives the moving rod 307 to move leftwards, thereby driving the baffle 3010 to move leftwards, after 2 seconds, the electric push rod 309 stops extending, then stay for 10 seconds, at the moment, the first blanking hole 304 corresponds to the second blanking hole 3011, the feed in the feed box 302 falls through the first blanking hole 304 and the second blanking hole 3011 and falls into the breeding box 5 for feeding, thus, the feeding can be automatically carried out, therefore, time can be saved, after 10 seconds, the electric push rod 309 is shortened by 2 seconds to drive the baffle 3010 to move rightwards, after 2 seconds, the electric push rod 309 stops shortening, and at the moment, the baffle 3010 moves rightwards to the initial position.

When the device is powered on, the laser correlation transmitting head 312 and the laser correlation receiving head 313 start to work, the laser correlation transmitting head 312 transmits laser, the feed can block the laser, the laser cannot irradiate the laser correlation receiving head 313, the feed in the feed box 302 is gradually reduced along with the time, when the laser transmitted by the laser correlation transmitting head 312 irradiates the laser correlation receiving head 313, the laser correlation receiving head 313 sends out a signal, the control module controls the first indicator lamp 315 to light for 5 seconds after receiving the signal, and prompts people that the feed in the feed box 302 is insufficient and needs to be added in time, and after 5 seconds, the first indicator lamp 315 goes out.

When this device circular telegram, liquid sensor 325 begins work, when needs are toward breeding the incasement and adding water, people will connect the external water source of external water pipe 321, then open water valve 322, water flows into breeding the incasement 5 through external water pipe 321, thereby can make things convenient for people to add water toward breeding the incasement 5, the past of time thereupon, the water level in breeding the incasement 5 risees gradually, when rivers flow into the communicating pipe 323 in, liquid sensor 325 detects liquid, liquid sensor 325 signals, control module received signal back control second indicator 326 lights for 5 seconds, suggestion people breed and have been equipped with sufficient water in the case 5, people can close water valve 322, after 5 seconds, second indicator 326 extinguishes.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An intelligent water purification production box comprises wall hanging blocks (1), expansion screws (3), a bent frame (4), a culture box (5), a control box (51), a power supply master switch (52), a first connecting block (6), a water body purification box (7), a first sealing ring (8), a water pumping pipe (9), a water pumping manifold (10), a water outlet pipe (11), a water outlet manifold (12), a second sealing ring (13) and a third sealing ring (14), wherein the left side and the right side of the upper part in the bent frame (4) are fixedly connected with the wall hanging blocks (1), mounting holes (2) are respectively formed in the two wall hanging blocks (1), the expansion screws (3) are arranged in the mounting holes (2), the culture box (5) is bolted to the lower part of the front side of the bent frame (4), a control module and a power supply module are arranged in the culture box (5), the control module and the power supply module are connected through a circuit, the power supply master switch (52) is arranged on the upper part of the front side of, the power supply main switch (52) is connected with the power supply module through a circuit, the bottom of the cultivation box (5) is fixedly connected with a water purification box (7) through a first connecting block (6), the left side and the right side of the lower part of the cultivation box (5) are both connected with a first sealing ring (8) in an embedded manner, a water pumping pipe (9) is arranged in the first sealing ring (8) on the left side, a water pumping manifold (10) is connected onto the water pumping pipe (9), the water pumping manifold (10) is positioned in the cultivation box (5), a water outlet pipe (11) is arranged in the first sealing ring (8) on the right side, a water outlet manifold (12) is connected onto the water outlet pipe (11), the water outlet manifold (12) is positioned in the cultivation box (5), a second sealing ring (13) is connected onto the lower part on the left side of the water purification box (7) in an embedded manner, the water, the water purification device is characterized by further comprising an activated carbon box (15), a fourth sealing ring (16), a fifth sealing ring (17), a connecting pipe (18), a liquid distribution manifold (19), a sixth sealing ring (20), an air outlet pipe (21), a first check valve (22), a piston cylinder (23), an air inlet pipe (24), a second check valve (25), a first piston (26), a second piston (27), a water inlet joint (28), a third check valve (29), a water outlet joint (291), a fourth check valve (292), a speed reduction motor (293), a turntable (294), a rotating shaft (295), a connecting rod (296) and a connecting rod (297), wherein the activated carbon box (15) is installed at the inner bottom of the water purification box (7), activated carbon is installed in the activated carbon box (15), the fourth sealing ring (16) is connected to the lower portion of the right side of the activated carbon box (15) in an embedded manner, and a water outlet pipe (11) penetrates through the third sealing ring (14, the lower part of the left side of the activated carbon box (15) is connected with a fifth sealing ring (17) in an embedded manner, a connecting pipe (18) is arranged in the fifth sealing ring (17), a liquid distribution manifold (19) is fixedly connected to the right end of the connecting pipe (18), the left side of the top of the activated carbon box (15) is connected with a sixth sealing ring (20) in an embedded manner, a piston cylinder (23) is bolted to the left side in the water body purification box (7), an air outlet pipe (21) is connected to the right side of the top of the piston cylinder (23), the air outlet pipe (21) penetrates through the sixth sealing ring (20), a first check valve (22) for enabling air to flow in a one-way manner is arranged in the air outlet pipe (21), an air inlet pipe (24) for enabling air to flow in a one-way manner is connected to the left side of the top of the piston cylinder (23), the air inlet pipe, first piston (26) is located second piston (27) top, piston cylinder (23) bottom left side is connected with water supply connector (28), water supply connector (28) and drinking-water pipe (9) are connected, be equipped with third check valve (29) in water supply connector (28), water connectors (291) that the shape is L shape are connected in piston cylinder (23) bottom right side, water connectors (291) are connected with connecting pipe (18), be equipped with fourth check valve (292) in water connectors (291), gear motor (293) bolt connects in piston cylinder (23) left side middle part, gear motor (293) is located between first piston (26) and second piston (27), install carousel (294) on the output shaft of gear motor (293), carousel (294) right side upper portion is connected with pivot (295), the pivot (295) go up the commentaries on classics formula and be connected with connecting rod (296) and connecting rod (297), connecting rod (296) is located connecting rod (297) right side, the bottom end of the connecting rod (296) is rotatably connected with the top of the second piston (27), the top end of the connecting rod (297) is rotatably connected with the bottom of the first piston (26), and the speed reducing motor (293) is connected with the control module through a circuit.

2. The water quality intelligent purification water production tank as claimed in claim 1, further comprising a mounting rod (301), a feedbox (302), a feeding pipe (303), a sliding rail (305), a sliding block (306), a moving rod (307), a mounting seat (308), an electric push rod (309) and a baffle (3010), wherein the mounting rod (301) is fixedly connected to the lower portion of the right side of the breeding tank (5), the feedbox (302) is fixedly connected to the top end of the mounting rod (301), the feeding pipe (303) is connected to the middle of the top of the feedbox (302), a plurality of first blanking holes (304) are formed in the left side of the bottom of the feedbox (302), the mounting seat (308) and the sliding rail (305) playing a role in guiding are fixedly connected to the right side of the bottom of the feedbox (302), the mounting seat (308) is located on the right side of the sliding rail (305), the sliding block (306) is slidably arranged on the sliding rail (305), the moving, the left end of the moving rod (307) is fixedly connected with a baffle (3010), a plurality of second blanking holes (3011) are formed in the baffle (3010), the left side of the mounting seat (308) is connected with the electric push rod (309) in a bolted mode, the left end of the electric push rod (309) is fixedly connected with the right end of the moving rod (307), and the electric push rod (309) is connected with the control module through a circuit.

3. The intelligent water purification production tank for water quality according to claim 2, further comprising a laser correlation emission head (312), a laser correlation reception head (313), a glass cover (314) and a first indicator lamp (315), wherein mounting grooves (311) are formed in the left side and the right side of the inner lower portion of the feedbox (302), the laser correlation emission head (312) is mounted on the right side in the mounting groove (311) on the right side, the laser correlation reception head (313) is mounted on the left side in the mounting groove (311) on the left side, the glass cover (314) is mounted in each of the two mounting grooves (311), the first indicator lamp (315) is mounted in the middle of the front side of the control box (51), and the laser correlation emission head (312), the laser correlation reception head (313) and the first indicator lamp (315) are in line connection with the control module.

4. The water quality intelligent purified water production tank according to claim 3, further comprising an external water pipe (321), a water valve (322) and a communicating pipe (323), second connecting block (324), liquid sensor (325) and second pilot lamp (326), bent frame (4) rear side sub-unit connection has external water pipe (321) that is used for making water flow, external water pipe (321) upper portion is located breeds case (5), be equipped with water valve (322) on external water pipe (321), breed case (5) left side upper portion and be connected with communicating pipe (323) and second connecting block (324), second connecting block (324) are located communicating pipe (323) top, liquid sensor (325) are installed to second connecting block (324) bottom, liquid sensor (325) pass communicating pipe (323), control box (51) front side lower part is equipped with second pilot lamp (326), liquid sensor (325) and second pilot lamp (326) all have line connection with the control module.