CN215640301U

CN215640301U - Sampling device for detecting diseases of breeding shrimps

Info

Publication number: CN215640301U
Application number: CN202121300482.4U
Authority: CN
Inventors: 黄皓; 胡绍令
Original assignee: Bohai Aquatic Breeding Hainan Co ltd
Current assignee: Bohai Aquatic Breeding Hainan Co ltd
Priority date: 2021-06-10
Filing date: 2021-06-10
Publication date: 2022-01-25
Anticipated expiration: 2031-06-10

Abstract

The utility model provides a sampling device for detecting shrimp diseases, which comprises a floating platform, a collecting box, a subpackaging pipe, a sampling pipe and a driving assembly, wherein the collecting box is arranged on the floating platform, a plurality of collecting cavities are formed in the collecting box, water inlets are formed in the collecting cavities, a rotating groove is formed in the middle of the floating platform, the subpackaging pipe is rotatably connected into the rotating groove, a water outlet is formed in one end of the subpackaging pipe and is respectively matched with the water inlets, the free end of the subpackaging pipe is communicated with the sampling pipe, a filtering device is connected to the free end of the sampling pipe, the driving assembly is fixed on the floating platform, and the driving assembly is used for driving the subpackaging pipe to rotate. The utility model can realize the sampling of the water bodies in different areas of the culture pond, and the water bodies in different areas are respectively stored in different collecting cavities, thereby being convenient for the analysis of the water bodies in different areas of the culture pond.

Description

Sampling device for detecting diseases of breeding shrimps

Technical Field

The utility model relates to the technical field of water body sampling, in particular to a sampling device for detecting diseases of various shrimps.

Background

When shrimps are cultured, because of the problem of water quality, the shrimps are easy to die, in order to improve the culture quality of the shrimps, the water in the culture pond needs to be periodically subjected to quality detection, the area of the culture pond is large, and the water in different areas has the condition of different water quality, but the water sampled by the existing water sampler is generally mixed and stored, and the water in different areas in the culture pond cannot be respectively stored, so that the water detection effect is poor.

SUMMERY OF THE UTILITY MODEL

Therefore, the sampling device for detecting the shrimp diseases can sample water bodies in different areas of the culture pond, and the water bodies in the different areas are stored in different collecting cavities respectively, so that the water bodies in the different areas of the culture pond can be analyzed conveniently.

The technical scheme of the utility model is realized as follows:

the utility model provides a seed shrimp disease detects uses sampling device, includes floating platform, collecting box, branch dress pipe, sampling tube and drive assembly, the collecting box install in on the floating platform, the inside of collecting box is equipped with a plurality of collection chambeies, it is equipped with the water inlet to collect the chamber, the middle part of floating platform is equipped with the swivelling chute, the partial shipment pipe rotate connect in the swivelling chute, the one end of branch dress pipe is equipped with the delivery port, the delivery port respectively with a plurality of the water inlet cooperation, the free end of branch dress pipe with the sampling tube intercommunication, the free end of sampling tube is connected with filter equipment, drive assembly is fixed in on the floating platform, drive assembly is used for the drive the partial shipment pipe rotates.

Preferably, the middle part of the collecting box is provided with a groove body, and one end of the subpackaging pipe is rotatably connected in the groove body.

Preferably, the driving assembly comprises a motor, a first bevel gear and a second bevel gear, the output end of the motor is connected with the first bevel gear, the second bevel gear is connected with the split charging pipe, and the first bevel gear is meshed with the second bevel gear.

Preferably, the collecting box is detachably connected above the floating platform through a support frame, the support frame comprises a fixing ring and a plurality of supporting legs, the fixing ring is fixed on the floating platform through the supporting legs, and the collecting box is installed on the fixing ring.

Preferably, the fixing ring is provided with a plurality of through grooves, the collecting box is provided with output pipes communicated with the collecting cavities, and the output pipes correspondingly penetrate through the through grooves.

Preferably, the filtering device comprises a filter cover, a filtering layer and a separation cover, the filter cover is connected to the free end of the sampling tube through a connecting ring, the filtering layer is arranged inside the sampling tube, the separation cover is connected with the filtering layer, and the filtering layer is connected with the filter cover.

Preferably, the bottom surface of the interior of the filter cover is provided with a connecting groove, and the free end of the sampling tube is inserted into the connecting groove.

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

according to the sampling device for detecting the shrimp diseases, the driving assembly can drive the water outlets arranged on the sub-packaging pipes to be respectively communicated with the water inlets of different storage cavities, so that water bodies in different areas of the culture pond are collected and collected, and the water bodies in different areas of the culture pond can be conveniently analyzed; the floating platform can drive the sampling tube to float in the culture pond, and water bodies in different areas are collected; the rotating split charging pipes can be respectively communicated with different collecting cavities to collect water bodies in different areas.

Drawings

FIG. 1 is a schematic sectional view of a sampling device for detecting shrimp diseases according to the present invention;

FIG. 2 is a schematic sectional view of the filter device of the present invention connected to a sampling tube;

FIG. 3 is a schematic bottom view of the collection box of the present invention;

in the figure, 1 floating platform, 2 collecting box, 3 subpackaging pipe, 4 sampling pipe, 5 driving component, 6 motor, 7 first bevel gear, 8 second bevel gear, 9 collecting cavity, 10 water inlet, 11 rotating groove, 12 water outlet, 13 filtering device, 14 filtering cover, 15 filtering layer, 16 separating cover, 17 connecting ring, 18 connecting groove, 19 groove body, 20 supporting frame, 21 fixing ring, 22 supporting leg, 23 through groove and 24 output pipe.

Detailed Description

In order to better understand the technical content of the utility model, specific embodiments are provided below, and the utility model is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 3, the sampling device for detecting shrimp diseases provided by the present invention comprises a floating platform 1, a collection box 2, a distribution pipe 3, a sampling pipe 4 and a driving assembly 5, wherein the collection box 2 is mounted on the floating platform 1, a plurality of collection chambers 9 are arranged inside the collection box 2, the collection chambers 9 are provided with water inlets 10 for collecting water in different areas of a culture pond, a rotary groove 11 is arranged in the middle of the floating platform 1, the distribution pipe 3 is rotatably connected in the rotary groove 11, so that when the distribution pipe 3 rotates, the water outlets 12 are respectively communicated with different water inlets 10, one end of the distribution pipe 3 is provided with water outlets 12, the water outlets 12 are respectively matched with the water inlets 10, when the distribution pipe 3 rotates, the water outlets 12 are respectively communicated with different water inlets 10, so that the water in different areas sampled by the sampling pipe 4 can be respectively stored in different collection chambers 9, be convenient for to the analysis of different regional waters in the breed pond, divide the free end of tubulation 3 with sampling tube 4 intercommunication, wherein sampling tube 4 passes through water pump and partial shipment pipe 3 intercommunication, and the water pump is installed in the bottom of floating platform 1, the free end of sampling tube 4 is connected with filter equipment 13, realizes the filtering action to gathering the water, drive assembly 5 is fixed in on the floating platform 1, drive assembly 5 is used for the drive divide the tubulation 3 to rotate, can drive and divide the tubulation 3 to rotate.

The working principle is as follows: when the device is used, the collecting box 2 is aligned to the sub-packaging pipe 3 and is arranged on the floating platform 1, the arranged collecting box 2 and the floating platform 1 are placed in a breeding pond for breeding shrimps, when the sampling pipe 4 is used for collecting water in the breeding pond, the driving assembly 5 drives the sub-packaging pipe 3 to rotate, the water outlets 12 arranged on the sub-packaging pipe 3 are respectively communicated with different water inlets 10, so that the water in different areas of the breeding pond collected by the sampling pipe 4 is respectively stored in different collecting cavities 9, wherein the filtering device 13 can play a role in filtering when the sampling pipe 4 is used for collecting the water, and after sampling of the water is completed, the collecting box 2 can be separated from the floating platform 1.

Specifically, the middle part of the collection box 2 is provided with a groove body 19, and one end of the subpackaging pipe 3 is rotatably connected in the groove body 19. The branch loading pipe 3 is convenient to be inserted in the groove body 19, and the function of stabilizing the collecting box 2 is achieved.

Specifically, the driving assembly 5 comprises a motor 6, a first bevel gear 7 and a second bevel gear 8, the first bevel gear 7 is connected to the output end of the motor 6, the second bevel gear 8 is connected with the dispensing pipe 3, and the first bevel gear 7 is meshed with the second bevel gear 8. The starting motor 6 drives the first bevel gear 7 to rotate, and then drives the second bevel gear 8 meshed with the first bevel gear 7 to rotate, so that the aim of driving the subpackaging pipe 3 to rotate is fulfilled.

Example 2

Referring to fig. 1, the present embodiment is different from embodiment 1 in that: the collecting box 2 is detachably connected above the floating platform 1 through a support frame 20, the support frame 20 comprises a fixing ring 21 and a plurality of supporting legs 22, the fixing ring 21 is fixed on the floating platform 1 through the supporting legs 22, and the collecting box 2 is installed on the fixing ring 21. The fixed ring 21 is convenient for fixing the collecting box 2, the supporting legs 22 can enable the collecting box 2 to keep a certain distance from the floating platform 1, the motor 6 is convenient to mount, the driving assembly 5 drives the subpackaging pipe 3 to rotate, and meanwhile, the collecting box 2 is convenient to mount and dismount.

Specifically, the fixing ring 21 is provided with a plurality of through grooves 23, the collecting box 2 is provided with an output pipe 24 communicated with the collecting cavities 9, and the output pipes 24 correspondingly penetrate through the through grooves 23. The installation of the collecting box 2 is convenient, and a certain limiting effect is achieved.

Example 3

Referring to fig. 1 to 2, the present embodiment differs from embodiment 1 in that: the filtering device 13 comprises a filter cover 14, a filtering layer 15 and a separating cover 16, wherein the filter cover 14 is connected to the free end of the sampling tube 4 through a connecting ring 17, the filtering layer 15 is arranged inside the sampling tube 4, the separating cover 16 is connected with the filtering layer 15, and the filtering layer 15 is connected with the filter cover 14. The filter cover 14 plays a role in filtering water once, the water enters the sampling tube 4 through the filter cover 14 and then is filtered by the filter layer 15 again, impurities filtered by the filter layer 15 fall into the bottom of the filter cover 14, and the separation cover 16 can play a role in blocking the impurities from moving to one side of the filter layer 15.

Specifically, the inner bottom surface of the filter cover 14 is provided with a connecting groove 18, and the free end of the sampling tube 4 is inserted into the connecting groove 18. Which functions to collect the impurities filtered by the filter layer 15.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a breeding shrimp disease detects uses sampling device which characterized in that: including floating platform, collecting box, partial shipment pipe, sampling tube and drive assembly, the collecting box install in on the floating platform, the inside of collecting box is equipped with a plurality of collection chambeies, it is equipped with the water inlet to collect the chamber, the middle part of floating platform is equipped with the swivelling chute, partial shipment pipe rotate connect in the swivelling chute, the one end of partial shipment pipe is equipped with the delivery port, the delivery port respectively with a plurality of the water inlet cooperation, the free end of partial shipment pipe with the sampling tube intercommunication, the free end of sampling tube is connected with filter equipment, drive assembly is fixed in on the floating platform, drive assembly is used for the drive partial shipment pipe rotates.

2. The sampling device for shrimp disease detection as set forth in claim 1, wherein: the middle part of collecting box is equipped with the cell body, the one end of branch dress pipe rotate connect in the cell body.

3. The sampling device for shrimp disease detection as set forth in claim 1, wherein: the driving assembly comprises a motor, a first bevel gear and a second bevel gear, the output end of the motor is connected with the first bevel gear, the second bevel gear is connected with the split charging pipe, and the first bevel gear is meshed with the second bevel gear.

4. The sampling device for shrimp disease detection as set forth in claim 1, wherein: the collecting box is detachably connected above the floating platform through a support frame, the support frame comprises a fixing ring and a plurality of supporting legs, the fixing ring is fixed on the floating platform through the supporting legs, and the collecting box is installed on the fixing ring.

5. The sampling device for shrimp disease detection as set forth in claim 4, wherein: the fixed ring is provided with a plurality of through grooves, the collecting box is provided with output tubes communicated with the collecting cavities, and the output tubes correspondingly penetrate through the through grooves.

6. The sampling device for shrimp disease detection as set forth in claim 1, wherein: the filtering device comprises a filter cover, a filtering layer and a separation cover, the filter cover is connected to the free end of the sampling tube through a connecting ring, the filtering layer is arranged inside the sampling tube, the separation cover is connected with the filtering layer, and the filtering layer is connected with the filter cover.

7. The sampling device for shrimp disease detection as set forth in claim 6, wherein: the inside bottom surface of filter mantle is equipped with the spread groove, the free end of sampling tube is pegged graft in the spread groove.