CN116548370A - Tail water purification device is bred to little canopy of shrimp with water quality testing function - Google Patents

Abstract

The invention discloses a shrimp small shed cultivation tail water purifying device with a water quality detection function, which comprises a water tank; spray the subassembly, set up in on the pond, including slide rail, moving part, medical kit, mount, driving medium, follower, discharge and spray the piece, the slide rail is located the pond both sides, moving part set up in on the slide rail, the medical kit highly in the moving part top, the mount is fixed in on the pond, the driving medium set up in the mount top, the follower rotate connect in the medical kit, discharge be fixed in medical kit one side, spray the piece be fixed in the moving part bottom. The invention has the beneficial effects that: through the setting of spraying the subassembly, need not the manual work and get into the pond and can evenly spray the breed pond with the medicament in, ensure to breed pond water and can obtain the spraying of medicament comprehensively, reduce the breeding of harmful substance and germ.

Description

Tail water purification device is bred to little canopy of shrimp with water quality testing function

Technical Field

The invention relates to the technical field of small shed cultivation of prawns, in particular to a tail water purifying device for small shed cultivation of prawns with a water quality detection function.

Background

The method mainly utilizes the closed plastic greenhouse supported by the steel frame to culture the penaeus vannamei boone, the pond is generally 45-50 m long, 10 m wide and 80 cm deep, and the greenhouse has the advantages of high yield, low risk and good benefit because the facility greenhouse has good sealing property and is not easy to spread diseases, the penaeus vannamei boone culture develops very rapidly in recent years, and becomes the main stream mode of the current penaeus vannamei boone high-density culture, and the penaeus vannamei boone culture brings great profits to farmers.

Because the culture density of the young prawns is high, residual bait and excrement can not be self-purified, harmful substances and germs in water are bred, and the growth environment of the prawns is influenced, therefore, the water quality of the culture pond is required to be purified, when tail water in the culture pond is purified, a raiser generally needs to spray a medicament into the culture pond, so that the breeding of harmful substances and germs in water is reduced, the medicament is generally mixed in a container in the conventional medicament spraying manner, and then the medicament is manually sprayed into a water pond, so that the medicament can not be uniformly sprayed, and the water quality improvement effect of part of the water pond is poor.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the invention, which should not be used to limit the scope of the invention.

The invention has been made in view of the above-mentioned and/or problems occurring in the conventional tail water purifying apparatus for small shed cultivation of prawns having a water quality detecting function.

Therefore, the invention aims to solve the problems that the traditional mode of sprinkling the medicament generally mixes the medicament in a container, and then the medicament is manually put into a water tank to be sprinkled, the medicament cannot be uniformly sprinkled in a packaged mode, the water quality improvement effect of part of the water tank is poor, and the personnel can easily step on the prawn to increase the loss when entering the water tank.

In order to solve the technical problems, the invention provides the following technical scheme: a kind of prawn small shed breeds the tail water purifying plant with water quality detection function, it includes, the pond;

spray the subassembly, set up in on the pond, including slide rail, moving part, medical kit, mount, driving medium, follower, discharge and spray the piece, the slide rail is located the pond both sides, moving part set up in on the slide rail, the medical kit highly in the moving part top, the mount is fixed in on the pond, the driving medium set up in the mount top, the follower rotate connect in the medical kit, discharge be fixed in medical kit one side, spray the piece be fixed in the moving part bottom.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the movable part comprises a movable frame, a fixed seat and rollers, wherein the movable frame is positioned above the sliding rail, the fixed seat is fixed at the bottom of the movable frame, the rollers are rotatably connected in the fixed seat, and the rollers are movably connected with the sliding rail.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the medicine chest comprises a liquid inlet pipe, a hopper and a sealing plug, wherein the liquid inlet pipe is communicated with one side of the medicine chest, the hopper is communicated with the end part of the liquid inlet pipe, and the sealing plug is in threaded connection with the inside of the hopper.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the transmission piece comprises a rack, a fixed block, a transmission rod, a first gear and a worm, wherein the rack is fixed at the top of the fixed frame, the fixed block is fixed on the side face of the medicine box, the transmission rod is rotationally connected in the fixed block, the first gear is fixed at the end part of the transmission rod, and the worm is fixed at the outer side of the transmission rod.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the transmission piece further comprises a connecting column, a second gear, a first bevel gear and a second bevel gear, wherein the connecting column is rotationally connected in the discharging piece, the second gear is fixed on the outer side of the connecting column, the first bevel gear is fixed on the top end of the connecting column, and the second bevel gear is fixed on the outer side of the transmission rod.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the driven piece comprises a driven column, a worm wheel and stirring blades, the driven column is rotationally connected to the inner bottom wall of the medicine box, the worm wheel is fixed to the top end of the driven column, and the stirring blades are fixed to the outer side of the driven column.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the driven piece further comprises a threaded column, a threaded sleeve, a connecting plate, a positioning column and a sealing plate, wherein the threaded column is fixed to the top of the worm wheel, the threaded sleeve is in threaded connection with the outer side of the threaded column, the connecting plate is fixed to the outer side of the threaded sleeve, the positioning column is fixed to the connecting plate, the bottom end of the positioning column is fixed to the sealing plate, the sealing plate slides to the outer side of the driven column, and the side face of the sealing plate is attached to the inner wall of the medicine chest.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the discharging part comprises a discharging box, a first connecting pipe, a baffle, teeth and a second connecting pipe, wherein the discharging box is fixed on one side of the medicine box, one end of the first connecting pipe is positioned in the discharging box, the other end of the first connecting pipe is communicated with the medicine box, the baffle is movably connected in the discharging box, one end of the second connecting pipe is positioned in the discharging box, and the other end of the second connecting pipe is communicated with the spraying part.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the discharging part further comprises a positioning block, a limiting block, a stop block and a spring, wherein the positioning block is fixed on one side of the baffle, the limiting block is rotationally connected to the positioning block, one end of the spring is fixed with the limiting block, and the other end of the spring is fixed with the baffle.

As a preferable scheme of the shrimp small shed cultivation tail water purifying device with the water quality detection function, the invention comprises the following steps: the spray piece comprises a conveying pipe, a fixing pipe and a spray head, wherein the conveying pipe is positioned in the movable frame, the top end of the conveying pipe is communicated with the second connecting pipe, the fixing pipe is fixed on the inner top wall of the movable frame, the bottom end of the conveying pipe is communicated with the fixing pipe, and the spray head is communicated with the bottom of the fixing pipe.

The invention has the beneficial effects that: through the setting of spraying the subassembly, need not the manual work and get into the pond and can evenly spray the breed pond with the medicament in, ensure to breed pond water and can obtain the spraying of medicament comprehensively, reduce the breeding of harmful substance and germ.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a block diagram of a tail water purifying device for prawn shed cultivation with water quality detection function.

Fig. 2 is an enlarged view of a position A in fig. 1 of a tail water purifying device for the small shed cultivation of the prawns with a water quality detecting function.

FIG. 3 is a cross-sectional view of the medicine box and the movable frame of the tail water purifying device for the small shed cultivation of the prawns with the water quality detection function.

FIG. 4 is a connecting structure diagram of a threaded column, a threaded sleeve and a positioning column of the tail water purifying device for the small shed cultivation with the water quality detection function.

FIG. 5 is a diagram showing the connection structure of a transmission rod, a worm and a worm wheel of the tail water purifying device for the small shed cultivation of the prawns with the water quality detection function.

FIG. 6 is a cross-sectional view of the structure of the discharge box of the tail water purifying device for the small shed cultivation of prawns with water quality detection function.

Fig. 7 is a block, tooth and second gear connection structure diagram of the tail water purifying device for the small shed cultivation of prawns with water quality detection function.

Fig. 8 is another view of teeth, a positioning block and a limiting block of the tail water purifying device for the small shed cultivation of the prawns with the water quality detection function.

FIG. 9 is an enlarged view of the tail water purifying device with water quality detection function for the small shed cultivation of prawns in FIG. 8 at B.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

Referring to fig. 1 to 6, in a first embodiment of the present invention, the present invention provides a device for purifying tail water of culturing in a small shed for prawns, which has a water quality detection function, and the device for purifying tail water of culturing in a small shed for prawns, which includes a water tank 100 and a spraying assembly 200, wherein the water tank 100 is an open soil tank, and the spraying assembly 200 is erected above the water tank 100, so as to facilitate spraying of a chemical.

The water quality detection operation logic in the application is as follows:

and (3) data acquisition: firstly, a water sample of a shrimp culture pond is required to be collected.

Processing and analyzing the data: and sending the collected water sample to a laboratory for chemical analysis.

Formulating an evaluation standard: according to relevant standards and regulations of different regions or countries, an evaluation standard of the water quality of the prawn culture water is formulated.

Model construction: and establishing a water quality model according to the treatment result.

And (3) outputting results: and finally, comparing the data output by the model with an evaluation standard, and judging whether the prawn culture water meets the requirement.

Wherein:

and (3) data acquisition: firstly, a water sample of the shrimp culture pond needs to be collected, and a professional water sample collector can be used for collecting the water sample, so that the representativeness of the water sample is ensured.

Processing and analyzing the data: and (3) sending the collected water sample to a laboratory for chemical analysis, and analyzing common pollutants such as ammonia nitrogen, nitrite, nitrate, phosphate and the like in the prawn culture water to obtain the numerical values of various indexes.

Formulating an evaluation standard: according to relevant standards and regulations of different regions or countries, an evaluation standard of the water quality of the prawn culture water is formulated, for example, the water quality monitoring of the prawn culture water is regulated by 'fishery waste and utilization management method' in China and comprises indexes such as dissolved oxygen, ammonia nitrogen, nitrate, total phosphorus and the like.

Model construction: according to the processing result, a water quality model is established, and machine learning and artificial intelligence technology is used for optimization, and the model can rapidly judge whether the current water quality meets the requirements or not through learning and analysis of historical data.

And (3) outputting results: and finally, comparing the data output by the model with an evaluation standard, judging whether the prawn culture water meets the requirement, and generating a detection report, wherein the report can comprise the numerical value of each index, the comparison result with the evaluation standard, the corresponding processing suggestion and the like.

It should be noted that in the algorithm design process, the aspects of data collection frequency, data transmission and storage safety and the like need to be considered, and meanwhile, the model needs to be continuously updated to adapt to environmental changes and new pollutant types.

Specifically, the pool 100.

Pool 100 is a prior art aquaculture pool.

Specifically, the spraying assembly 200 is disposed on the water tank 100, and comprises a sliding rail 201, a moving member 202, a medicine box 203, a fixing frame 204, a transmission member 205, a driven member 206, a discharge member 207 and a spraying member 208, wherein the sliding rail 201 is disposed on two sides of the water tank 100, the moving member 202 is disposed on the sliding rail 201, the medicine box 203 is higher than the top of the moving member 202, the fixing frame 204 is fixed on the water tank 100, the transmission member 205 is disposed on the top of the fixing frame 204, the driven member 206 is rotatably connected in the medicine box 203, the discharge member 207 is fixed on one side of the medicine box 203, and the spraying member 208 is fixed on the bottom of the moving member 202.

The slide rail 201 is provided with two, and two slide rails 201 are located pond 100 both sides, be used for supporting spacing to moving part 202 through slide rail 201, and make moving part 202 keep stable in the removal, when moving part 202 is moving and drive medical kit 203 and spray piece 208 removal, medical kit 203 drives driving part 205 and make driving part 205 take place to rotate, drive follower 206 through driving part 205 and rotate, and make discharge piece 207 open, stir the medicament in medical kit 203 through follower 206, prevent that the medicament from taking place to precipitate, follower 206 moves down simultaneously, make the pressure in medical kit 203 increase, at this moment the medicament in medical kit 203 then can get into discharge piece 207, carry the medicament to spray piece 208 through discharge piece 207 in, thereby evenly spray the medicament in pond 100 through spray piece 208, thereby improve the convenience of spraying the medicament.

Example 2

Referring to fig. 2 to 9, a second embodiment of the present invention is based on the previous embodiment.

Specifically, the moving member 202 includes a moving frame 202a, a fixed seat 202b and a roller 202c, the moving frame 202a is located above the sliding rail 201, the fixed seat 202b is fixed at the bottom of the moving frame 202a, the roller 202c is rotatably connected in the fixed seat 202b, and the roller 202c is movably connected with the sliding rail 201.

The movable frame 202a is U-shaped and is used for installing and fixing the medicine box 203 and the spraying piece 208, when the movable frame 202a is pulled, the movable frame 202a drives the fixed seat 202b to move, and the fixed seat 202b drives the roller 202c to roll on the sliding rail 201, so that the movable frame 202a is limited by the sliding rail 201, and the movable frame 202a is kept stable during movement.

Specifically, the medicine box 203 includes a liquid inlet tube 203-1, a hopper 203-2 and a sealing plug 203-3, the liquid inlet tube 203-1 is connected to one side of the medicine box 203, the hopper 203-2 is connected to the end of the liquid inlet tube 203-1, and the sealing plug 203-3 is in threaded connection with the inside of the hopper 203-2.

Through the setting of feed liquor pipe 203-1 and hopper 203-2, be convenient for breed and pour the medicament that will mix into medical kit 203, sealing plug 203-3 outside and hopper 203-2 inner wall threaded connection for through the setting of sealing plug 203-3, be used for sealing hopper 203-2, avoid the medicament to spill over from hopper 203-2.

Specifically, the transmission member 205 includes a rack 205a, a fixed block 205b, a transmission rod 205c, a first gear 205d, and a worm 205e, wherein the rack 205a is fixed on the top of the fixed frame 204, the fixed block 205b is fixed on the side surface of the medicine box 203, the transmission rod 205c is rotatably connected in the fixed block 205b, the first gear 205d is fixed on the end of the transmission rod 205c, and the worm 205e is fixed on the outer side of the transmission rod 205 c.

The rack 205a is meshed with the first gear 205d, two fixing blocks 205b are arranged, the two fixing blocks 205b are fixed on two sides of the medicine box 203, the fixing blocks 205b are used for fixing the transmission rod 205c, when the medicine box 203 moves along with the moving frame 202a, the medicine box 203 drives the fixing blocks 205b to move at the same time, the fixing blocks 205b drive the transmission rod 205c to move, the transmission rod 205c drives the first gear 205d to move, the first gear 205d is meshed with the rack 205a through the first gear 205d, the first gear 205d rotates, the first gear 205d simultaneously drives the transmission rod 205c to rotate, and the transmission rod 205c drives the worm 205e to rotate, so that the worm 205e drives the driven member 206 to rotate, and medicines in the medicine box 203 are mixed.

Specifically, the transmission member 205 further includes a connection post 205f, a second gear 205g, a first bevel gear 205h, and a second bevel gear 205i, wherein the connection post 205f is rotatably connected in the discharge member 207, the second gear 205g is fixed on the outer side of the connection post 205f, the first bevel gear 205h is fixed on the top end of the connection post 205f, and the second bevel gear 205i is fixed on the outer side of the transmission rod 205 c.

The connecting column 205f is fixed with the inner bottom wall of the discharging part 207 through a bearing, the first bevel gear 205h is meshed with the second bevel gear 205i, the transmission rod 205c drives the second bevel gear 205i to rotate while rotating, the second bevel gear 205i drives the first bevel gear 205h to rotate, the connecting column 205f is driven to rotate through the first bevel gear 205h, the connecting column 205f drives the second gear 205g to rotate, the discharging part 207 is opened through the second gear 205g, the medicament is conveyed into the spraying part 208, and the medicament is uniformly sprayed into the culture pond through the spraying part 208.

Specifically, the follower 206 includes a follower post 206a, a worm wheel 206b, and a stirring blade 206c, wherein the follower post 206a is rotatably connected to the inner bottom wall of the medicine box 203, the worm wheel 206b is fixed to the top end of the follower post 206a, and the stirring blade 206c is fixed to the outer side of the follower post 206 a.

The driven column 206a is rotatably connected with the inner bottom wall of the medicine box 203 through a bearing, the worm wheel 206b is meshed with the worm 205e, the worm wheel 206b is driven to rotate when the worm 205e rotates, the driven column 206a is driven to rotate through the worm wheel 206b, and the driven column 206a drives the stirring blade 206c to rotate, so that medicines in the medicine box 203 are mixed through the stirring blade 206c, and the situation that the medicines are precipitated in the medicine box 203 is prevented.

Specifically, the follower 206 further includes a threaded post 206d, a threaded sleeve 206e, a connecting plate 206f, a positioning post 206g, and a sealing plate 206h, wherein the threaded post 206d is fixed on top of the worm wheel 206b, the threaded sleeve 206e is screwed on the outer side of the threaded post 206d, the connecting plate 206f is fixed on the outer side of the threaded sleeve 206e, the positioning post 206g is fixed in the connecting plate 206f, the bottom end of the positioning post 206g is fixed with the sealing plate 206h, the sealing plate 206h slides on the outer side of the follower post 206a, and the side surface of the sealing plate 206h is attached to the inner wall of the medicine box 203.

The worm wheel 206b drives the threaded column 206d to rotate while rotating, the threaded column 206d rotates in the threaded sleeve 206e, the threaded sleeve 206e drives the positioning column 206g to move downwards through the connecting plate 206f, the positioning column 206g pushes the sealing plate 206h to move, when the sealing plate 206h moves downwards, the pressure in the medicine box 203 is increased, the medicine in the medicine box 203 enters the discharging part 207, the medicine is conveyed into the spraying part 208 through the discharging part 207, and the medicine liquid is uniformly sprayed into the culture pond through the spraying part 208, so that the breeding of harmful substances and germs in the culture pond is reduced.

Example 3

Referring to fig. 1 to 9, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the discharging member 207 includes a discharging box 207a, a first connecting tube 207b, a baffle 207c, a tooth 207d, and a second connecting tube 207e, wherein the discharging box 207a is fixed on one side of the medicine box 203, one end of the first connecting tube 207b is located in the discharging box 207a, the other end is communicated with the medicine box 203, the baffle 207c is movably connected in the discharging box 207a, one end of the second connecting tube 207e is located in the discharging box 207a, and the other end is communicated with the spraying member 208.

The second gear 205g is meshed with the tooth 207d, a through hole is formed in the baffle 207c and is used for conveying the medicament, the connecting column 205f drives the second gear 205g to rotate, meanwhile, the baffle 207c is driven to move to one side through the second gear 205g and the tooth 207d, the through hole in the baffle 207c is communicated with the first connecting pipe 207b and the second connecting pipe 207e, when the pressure in the medicament box 203 is increased, the medicament enters the first connecting pipe 207b, then the medicament flows into the second connecting pipe 207e through the through hole, the medicament is conveyed into the spraying piece 208 through the second connecting pipe 207e, when the moving frame 202a is pulled reversely, the transmission rod 205c and the first gear 205d are reversely rotated, the transmission rod 205c drives the second bevel gear 205i to reversely rotate, the connecting column 205f and the second gear 205g are driven to reversely move through the second bevel gear 205i, the baffle 207c is driven to reversely move through the meshing of the second gear 205g and the tooth 207e, the through hole cannot be communicated with the first connecting pipe 207b and the second connecting pipe 207e, and the medicament is prevented from flowing out of the spraying piece 208 when the medicament is not completely conveyed, and the medicament is not completely sprayed.

Specifically, the discharging member 207 further includes a positioning block 207f, a limiting block 207g, a stop block 207h, and a spring 207i, wherein the positioning block 207f is fixed on one side of the baffle 207c, the limiting block 207g is rotatably connected to the positioning block 207f, one end of the spring 207i is fixed with the limiting block 207g, and the other end is fixed with the baffle 207 c.

The positioning block 207f is provided with eight groups, each group is provided with two, each two positioning blocks 207f are symmetrically fixed on one side of the baffle 207c, the limiting block 207f and the stop block 207h are provided with two groups, each group is provided with four limiting blocks 207f which are connected to the two positioning block 207f brackets in a rotating mode through a rotating shaft, the two groups of stop blocks 204h are reversely arranged on one side of the positioning block 207f, when a through hole on the baffle 207c is not communicated with the first connecting pipe 207b and the second connecting pipe 207e, the second gear 205g is meshed with the limiting block 207f on one side and continuously rotates, the second gear 205g drives the limiting block 207f to move to one side, at the moment, the limiting block 207f swings in the two positioning blocks 207f through the elasticity of the spring 207i, drives the limiting block 207f to reset through the other side, when the baffle 207c needs to move to the other side, the limiting block 207f on one side is reversely stirred, at the moment, the limiting block 207f is blocked by the stop block 207h and cannot swing, and then the positioning block 207f drives the baffle 207c to move to the through hole 207c to be communicated with the first connecting pipe 207b and the second connecting pipe 207 e.

Specifically, the spraying member 208 includes a conveying pipe 208a, a fixed pipe 208b and a nozzle 208c, the conveying pipe 208a is located in the moving frame 202a, the top end of the conveying pipe 208a is communicated with the second connecting pipe 207e, the fixed pipe 208b is fixed on the inner top wall of the moving frame 202a, the bottom end of the conveying pipe 208a is communicated with the fixed pipe 208b, and the nozzle 208c is communicated with the bottom of the fixed pipe 208 b.

The medicine delivered through the second connection pipe 207e is delivered into the fixing pipe 208b through the delivery pipe 208a, and is delivered into the spray head 208c through the fixing pipe 208b, and at this time, the medicine is sprayed into the water tank 100 through the spray head 208c by the increased pressure in the pipe, so that the growth of harmful substances or germs in the water tank 100 is reduced.

When the medicine box is used, firstly, mixed medicines are injected into the medicine box 203 through the liquid inlet pipe 203-1 and the hopper 203-2, then the hopper 203-2 is sealed through the sealing plug 203-3, then the movable frame 202a is pulled, the medicine box 203 is driven to move through the movable frame 202a, the medicine box 203 simultaneously drives the fixed block 205b to move, the fixed block 205b drives the transmission rod 205c to move, the transmission rod 205c drives the first gear 205d to move, the first gear 205d is meshed with the rack 205a through the first gear 205d, the first gear 205d simultaneously drives the transmission rod 205c to rotate, the transmission rod 205c drives the worm 205e to rotate, the worm wheel 206b is driven to rotate through the worm wheel 206b, the driven column 206a drives the stirring blade 206c to rotate, and therefore medicines in the medicine box 203 are mixed through the stirring blade 206c, and the medicines are prevented from precipitating in the medicine box 203.

The worm gear 206b rotates and drives the threaded column 206d to rotate, the threaded column 206d rotates in the threaded sleeve 206e, the threaded sleeve 206e drives the positioning column 206g to move downwards through the connecting plate 206f, the positioning column 206g pushes the sealing plate 206h to move, when the sealing plate 206h moves downwards, the pressure in the medicine box 203 increases along with the pressure increase, the medicine enters the first connecting pipe 207b, meanwhile, the transmission rod 205c drives the second bevel gear 205i to rotate while rotating, the second bevel gear 205i drives the first bevel gear 205h to rotate, the first bevel gear 205h drives the connecting column 205f to rotate, the connecting column 205f drives the second bevel gear 205g to rotate, the second gear 205g is meshed with the teeth 207d to drive the baffle 207c to move, the through holes are communicated with the first connecting pipe 207b and the second connecting pipe 207e, then the medicine is conveyed into the spraying piece 208 through the second connecting pipe 207e, the medicine is uniformly sprayed into the culture pond through the through holes, the medicine is then flowed into the second connecting pipe 207e, the medicine is conveyed into the second connecting pipe 208a through the second connecting pipe 208 e, the harmful substance is conveyed into the pond through the second connecting pipe 208b, the harmful substance is conveyed into the pond 100 c through the spray nozzle 100 c, the harmful substance is sprayed into the pond 100 c through the spray nozzle 100 c, and the harmful substance is conveyed into the pond through the spray nozzle 100 c.

When the moving frame 202a is pulled reversely, the transmission rod 205c and the first gear 205d will rotate reversely, the transmission rod 205c drives the second bevel gear 205i to rotate reversely, the second bevel gear 205i drives the connecting column 205f and the second gear 205g to rotate, the second gear 205g and the tooth 207d mesh to drive the baffle 207c to move reversely, and the through hole will not be communicated with the first connecting pipe 207b and the second connecting pipe 207e, thereby preventing the liquid medicine from being conveyed, and further adding the medicine when the medicine is sprayed, so that the medicine will not flow out by the spraying member 208.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. A shrimp little canopy breeds tail water purifier with water quality testing function, its characterized in that: comprising the steps of (a) a step of,

a pool (100);

spray subassembly (200), set up in on pond (100), including slide rail (201), moving part (202), medical kit (203), mount (204), driving medium (205), follower (206), discharge piece (207) and spray piece (208), slide rail (201) are located pond (100) both sides, moving part (202) set up in on slide rail (201), medical kit (203) highly are in moving part (202) top, mount (204) are fixed in on pond (100), driving medium (205) set up in mount (204) top, follower (206) rotate connect in medical kit (203), discharge piece (207) are fixed in medical kit (203) one side, spray piece (208) are fixed in moving part (202) bottom.

2. The prawn shed cultivation tail water purifying device with the water quality detection function as claimed in claim 1, wherein: the movable part (202) comprises a movable frame (202 a), a fixed seat (202 b) and a roller (202 c), wherein the movable frame (202 a) is positioned above the sliding rail (201), the fixed seat (202 b) is fixed at the bottom of the movable frame (202 a), the roller (202 c) is rotationally connected in the fixed seat (202 b), and the roller (202 c) is movably connected with the sliding rail (201).

3. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 2, wherein: the medicine chest (203) comprises a liquid inlet pipe (203-1), a hopper (203-2) and a sealing plug (203-3), wherein the liquid inlet pipe (203-1) is communicated with one side of the medicine chest (203), the hopper (203-2) is communicated with the end part of the liquid inlet pipe (203-1), and the sealing plug (203-3) is in threaded connection with the inside of the hopper (203-2).

4. The device for purifying the tail water of the small shed cultivation of the prawns with the water quality detection function according to claim 2 or 3, which is characterized in that: the transmission piece (205) comprises a rack (205 a), a fixed block (205 b), a transmission rod (205 c), a first gear (205 d) and a worm (205 e), wherein the rack (205 a) is fixed on the top of the fixed frame (204), the fixed block (205 b) is fixed on the side face of the medicine chest (203), the transmission rod (205 c) is rotationally connected in the fixed block (205 b), the first gear (205 d) is fixed on the end part of the transmission rod (205 c), and the worm (205 e) is fixed on the outer side of the transmission rod (205 c).

5. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 4, wherein: the transmission piece (205) further comprises a connecting column (205 f), a second gear (205 g), a first bevel gear (205 h) and a second bevel gear (205 i), wherein the connecting column (205 f) is rotationally connected in the discharging piece (207), the second gear (205 g) is fixed on the outer side of the connecting column (205 f), the first bevel gear (205 h) is fixed on the top end of the connecting column (205 f), and the second bevel gear (205 i) is fixed on the outer side of the transmission rod (205 c).

6. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 5, wherein: the driven piece (206) comprises a driven column (206 a), a worm wheel (206 b) and a stirring blade (206 c), wherein the driven column (206 a) is rotationally connected to the inner bottom wall of the medicine box (203), the worm wheel (206 b) is fixed to the top end of the driven column (206 a), and the stirring blade (206 c) is fixed to the outer side of the driven column (206 a).

7. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 6, wherein: the follower (206) still includes screw thread post (206 d), thread bush (206 e), connecting plate (206 f), reference column (206 g) and closing plate (206 h), screw thread post (206 d) are fixed in worm wheel (206 b) top, thread bush (206 e) threaded connection in screw thread post (206 d) outside, connecting plate (206 f) are fixed in screw thread bush (206 e) outside, reference column (206 g) are fixed in connecting plate (206 f), reference column (206 g) bottom with closing plate (206 h) are fixed, closing plate (206 h) slide in follower column (206 a) outside, closing plate (206 h) side with medical kit (203) inner wall laminating.

8. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 6 or 7, which is characterized in that: the discharging part (207) comprises a discharging box (207 a), a first connecting pipe (207 b), a baffle (207 c), teeth (207 d) and a second connecting pipe (207 e), wherein the discharging box (207 a) is fixed on one side of the medicine box (203), one end of the first connecting pipe (207 b) is located in the discharging box (207 a), the other end of the first connecting pipe is communicated with the medicine box (203), the baffle (207 c) is movably connected in the discharging box (207 a), one end of the second connecting pipe (207 e) is located in the discharging box (207 a), and the other end of the second connecting pipe is communicated with the spraying part (208).

9. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 8, wherein: the discharging part (207) further comprises a positioning block (207 f), a limiting block (207 g), a stop block (207 h) and a spring (207 i), wherein the positioning block (207 f) is fixed on one side of the baffle plate (207 c), the limiting block (207 g) is rotationally connected to the positioning block (207 f), one end of the spring (207 i) is fixed with the limiting block (207 g), and the other end of the spring (207 i) is fixed with the baffle plate (207 c).

10. The prawn shed cultivation tail water purifying device with the water quality detecting function as claimed in claim 9, wherein: the spraying piece (208) comprises a conveying pipe (208 a), a fixed pipe (208 b) and a spray head (208 c), wherein the conveying pipe (208 a) is positioned in the movable frame (202 a), the top end of the conveying pipe (208 a) is communicated with the second connecting pipe (207 e), the fixed pipe (208 b) is fixed on the inner top wall of the movable frame (202 a), the bottom end of the conveying pipe (208 a) is communicated with the fixed pipe (208 b), and the spray head (208 c) is communicated with the bottom of the fixed pipe (208 b).