CN210604043U - Large-scale culture water quality sampler - Google Patents
Large-scale culture water quality sampler Download PDFInfo
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- CN210604043U CN210604043U CN202020598729.4U CN202020598729U CN210604043U CN 210604043 U CN210604043 U CN 210604043U CN 202020598729 U CN202020598729 U CN 202020598729U CN 210604043 U CN210604043 U CN 210604043U
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Abstract
The utility model discloses a large-scale culture water quality sampler, which comprises a remotely-controlled unmanned aerial vehicle and a hollow box, wherein a water pump is arranged in the hollow box, a sampling chamber is also arranged in the hollow box, one end of a water pumping pipe penetrates through the lower part of the hollow box and is connected with the sampling pipe, one end of a water outlet pipe is communicated with one side of the sampling chamber, a sampling bottle is arranged at the lower part of the sampling chamber, the lower part of the sampling chamber is communicated with a water outlet pipe, and the water pump is also connected with a connecting wire for supplying power; the stop rack is fixedly connected to the base, and the base is further provided with a water purifying tank and a waste water tank. The unmanned aerial vehicle is used for sampling at fixed points, so that the manpower is saved especially in large-scale culture water areas, and the sample is directly bottled with a smaller upper port part during sampling, so that the sample is not easy to spill during flying; after the sample, can realize wasing the water pump and the water pipe of sampling mechanism, avoid inside to remain the sample that influences sampling next time.
Description
Technical Field
The utility model relates to an aquaculture water quality testing technical field specifically is a water quality sampling ware is bred to scale.
Background
Aquaculture is the production activity of breeding, cultivating and harvesting aquatic animals and plants under artificial control. Generally comprises the whole process of cultivating aquatic products from seedlings under artificial feeding management. Aquaculture has modes of rough culture, intensive culture, high-density intensive culture and the like. The rough culture is to put seedlings in medium and small natural waters and to culture aquatic products such as fish in lakes and reservoirs, shellfish in shallow seas and the like by completely relying on natural baits. Intensive culture is to culture aquatic products such as pond fish culture, net cage fish culture, fence culture and the like in a small water body by using bait casting and fertilizing methods. The high-density intensive culture adopts methods of flowing water, controlling temperature, increasing oxygen, feeding high-quality baits and the like to carry out high-density culture in a small water body so as to obtain high yield, such as flowing water high-density fish culture, shrimp culture and the like.
Some large-scale water plant cultivation has vast aquaculture water areas, the areas of the water areas are large, water quality environments of all areas need to be detected frequently during cultivation, and a common water quality sampling mode consumes large manpower; in the existing modes of sampling water by using an unmanned aerial vehicle, for example, the unmanned aerial vehicle carries a bucket for sampling, the single sampling amount is too large, the balance of the unmanned aerial vehicle is easily influenced, the flying speed of the unmanned aerial vehicle is not too high, and the sample is easily scattered; the other method adopts a water pump suction mode, and after single sampling, the residue in the water pump and the water pipe can influence the next sampling sample; therefore, a large-scale culture water quality sampler is provided.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a large-scale culture water quality sampler, which saves manpower by using an unmanned aerial vehicle to sample at fixed points, particularly on a large-scale culture water area, and is not easy to spill during flying by directly adopting a bottling mode with a smaller upper port part during sample sampling; after the sample, can realize wasing the water pump and the water pipe of sampling mechanism, avoid inside to remain the sample that influences sampling next time, and easy operation is convenient. To solve the problems set forth in the background art described above.
In order to achieve the above object, the utility model provides a following technical scheme:
a large-scale culture water quality sampler comprises a remotely-controlled unmanned aerial vehicle and a hollow box, wherein the hollow box is fixedly mounted on the lower portion of the unmanned aerial vehicle, a water pump is mounted inside the hollow box, a sampling chamber is further arranged inside the hollow box, a water inlet of the water pump is communicated with a water pumping pipe, one end of the water pumping pipe penetrates through the lower portion of the hollow box and is connected with the sampling pipe, a water outlet of the water pump is communicated with a water outlet pipe, one end of the water outlet pipe is communicated with one side of the sampling chamber, a sampling bottle is mounted on the lower portion of the sampling chamber, the lower portion of the sampling chamber is communicated with a water drainage pipe, and the water pump is further connected with;
still including stopping the frame, stop frame fixed connection on the base, still be provided with water purification case and waste water tank on the base, the both sides of cavity case fixedly connected with outer support frame convenient to shut down respectively.
Preferably, the inside of unmanned aerial vehicle still installs the relay switch who is controlled by unmanned aerial vehicle built-in controller, the one end of connecting wire runs through unmanned aerial vehicle and is connected with this relay switch.
Preferably, the upper portion surface of cavity case has seted up the screw thread blind hole, unmanned aerial vehicle's bottom fixedly connected with L shape supporting legs, L shape supporting legs passes through bolt fixed mounting on cavity case upper portion surface.
Preferably, the bottom of the sampling chamber is provided with a threaded through hole, and the upper port part of the sampling bottle is provided with an external thread connected with the threaded through hole.
Preferably, the upper end of the sampling tube is provided with a threaded part, and an internal thread matched with the threaded part is arranged in one end of the water pumping tube.
Preferably, the outer side of the hollow box is fixedly connected with a protective air bag.
Preferably, the drain pipe is provided with an arc-shaped bent pipe structure.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model can suspend above the water surface at a fixed point for sampling water quality by controlling the unmanned aerial vehicle to carry the sampling mechanism, is convenient to operate, especially on a large-scale culture water area, saves manpower, adopts a bottling mode with a smaller upper port part directly during sampling samples, and is not easy to spill during flying;
2. the utility model discloses still independent setting stops the frame, after the sample, can realize wasing the water pump and the water pipe of sampling mechanism, avoids inside to remain the sample that influences next sampling, and easy operation is convenient.
Drawings
FIG. 1 is a schematic view of the external structure of the hollow box of the present invention;
FIG. 2 is a schematic structural view of the parking frame of the present invention;
fig. 3 is a schematic view of the side view structure of the interior of the hollow box of the present invention.
In the figure: 1. a hollow box; 2. a threaded blind hole; 3. an outer support frame; 4. a protective air bag; 5. a connecting wire; 6. sampling a bottle; 7. a drain pipe; 8. a sampling tube; 9. a base; 10. stopping the frame; 11. a water purifying tank; 12. a wastewater tank; 13. an unmanned aerial vehicle; 14. l-shaped supporting legs; 15. a bolt; 16. a water pumping pipe; 17. a water pump; 18. a water outlet pipe; 19. and a sampling chamber.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: the large-scale culture water quality sampler comprises a remotely-controlled unmanned aerial vehicle 13 and a hollow box 1, wherein the hollow box 1 is fixedly installed on the lower part of the unmanned aerial vehicle 13, a water pump 17 is installed inside the hollow box 1, a sampling chamber 19 is also arranged inside the hollow box 1, a water inlet of the water pump 17 is communicated with a water pumping pipe 16, one end of the water pumping pipe 16 penetrates through the lower part of the hollow box 1 and is connected with a sampling pipe 8, a water outlet of the water pump 17 is communicated with a water outlet pipe 18, one end of the water outlet pipe 18 is communicated with one side of the sampling chamber 19, a sampling bottle 6 is installed on the lower part of the sampling chamber 19, the lower part of the sampling chamber 19 is communicated with a water outlet pipe 7; the device is characterized by further comprising a stopping frame 10, wherein the stopping frame 10 is fixedly connected to the base 9, the base 9 is further provided with a water purifying tank 11 and a waste water tank 12, and two sides of the hollow tank 1 are respectively and fixedly connected with outer supporting frames 3 convenient for stopping.
Specifically, still install the relay switch who is controlled by unmanned aerial vehicle built-in controller in unmanned aerial vehicle 13's inside, the one end of connecting wire 5 runs through unmanned aerial vehicle 13 and is connected with this relay switch, specifically when connecting, connecting wire 5 is connected with unmanned aerial vehicle 13's power through relay switch's normally open end, and relay switch's coil and unmanned aerial vehicle built-in controller are connected. Threaded blind hole 2 has been seted up on the upper portion surface of cavity case 1, and unmanned aerial vehicle 13's bottom fixedly connected with L shape supporting legs 14, and L shape supporting legs 14 passes through bolt 15 fixed mounting on cavity case 1 upper portion surface, and L shape supporting legs 14 is run through to the one end of bolt 15 and is connected with threaded blind hole 2. Threaded through holes are formed in the bottom of the sampling chamber 19, external threads connected with the threaded through holes are arranged at the upper port of the sampling bottle 6, and the sampling bottle 6 can be conveniently dismounted and mounted through the threaded through holes, so that the operation is convenient. The upper end of the sampling tube 8 is provided with a threaded part, an internal thread matched with the threaded part is arranged inside one end of the water pumping tube 16, and the sampling tube 8 is convenient to replace through threaded arrangement. The outside fixedly connected with protective airbag 4 of cavity case 1, protective airbag 4 mainly play the guard action, after accident or unmanned aerial vehicle trouble, can float on the surface of water after descending, can not sink, is convenient for salvage. The drain pipe 7 is arranged in an arc-shaped bent pipe structure, and the drain pipe 7 is prevented from being too close to the sampling bottle 6 during design and is reserved with a certain operation space.
When the unmanned aerial vehicle is used, the unmanned aerial vehicle 13 is remotely controlled to be suspended above a designated position on the water surface, the lower end of the sampling tube 8 is submerged, the water pump 17 is turned on through remote control to pump water and sample, and then the water pump 17 is turned off after the lower end of the water outlet tube 18 is kept continuously drained for 30 seconds; controlling the unmanned aerial vehicle 13 to return to the air and stop on the stop rack 10 (note that the lower end of the water pumping pipe 16 sinks below the water surface of the purified water tank 11, and the water draining pipe 7 and the sampling bottle 6 are positioned above the waste water tank 12), then detaching the sampling bottle 6 (the sampling bottle 6 can be provided with scales) and pouring some samples and reserving part of samples; then controlling the water pump 17 to be started, pumping purified water to realize self-cleaning of the interior of the water pump 17, keeping for more than 30 seconds, and then closing the water pump 17; a new sampling bottle 6 is installed and the vessel is started to take a sample at the next location, and the cycle is repeated.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a quality of water sample thief is bred in scale, but including remote control's unmanned aerial vehicle (13) and cavity case (1), its characterized in that: the utility model discloses a sampling device, including cavity case (1), water pump (16), sampling chamber (8), outlet pipe (18), one end of outlet pipe (18), sampling bottle (6) is installed to the lower part of sampling chamber (19), and the lower part of sampling chamber (19) communicates drain pipe (7), still be connected with connecting wire (5) that are used for the power supply on water pump (17), the internally mounted of cavity case (1) has water pump (17), the inside of cavity case (1) still is provided with sampling chamber (19), the water inlet intercommunication of water pump (17) has drinking-water pipe (16), the one end of drinking-water pipe (16) is run through in the lower part of cavity case (1) and is connected with sampling tube (8), the delivery port intercommunication of water pump (17) has outlet pipe (18), one end of outlet pipe (18) communicates;
still including stopping frame (10), stop frame (10) fixed connection is on base (9), still be provided with water purification case (11) and waste water tank (12) on base (9), the both sides of cavity case (1) are fixedly connected with outer support frame (3) of being convenient for shut down respectively.
2. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: the inside of unmanned aerial vehicle (13) still installs the relay switch who is controlled by unmanned aerial vehicle built-in controller, the one end of connecting wire (5) runs through unmanned aerial vehicle (13) and is connected with this relay switch.
3. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: threaded blind hole (2) have been seted up on the upper portion surface of cavity case (1), the bottom fixedly connected with L shape supporting legs (14) of unmanned aerial vehicle (13), L shape supporting legs (14) pass through bolt (15) fixed mounting on cavity case (1) upper portion surface.
4. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: the bottom of the sampling chamber (19) is provided with a threaded through hole, and the upper port part of the sampling bottle (6) is provided with an external thread connected with the threaded through hole.
5. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: the upper end of sampling tube (8) is provided with screw portion, the inside internal thread that is provided with this screw portion complex of one end of drinking-water pipe (16).
6. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: the outer side of the hollow box (1) is fixedly connected with a protective air bag (4).
7. A water quality sampler for scale cultivation according to claim 1, which is characterized in that: the water discharge pipe (7) is of an arc-shaped bent pipe structure.
Priority Applications (1)
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CN202020598729.4U CN210604043U (en) | 2020-04-21 | 2020-04-21 | Large-scale culture water quality sampler |
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CN202020598729.4U CN210604043U (en) | 2020-04-21 | 2020-04-21 | Large-scale culture water quality sampler |
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CN210604043U true CN210604043U (en) | 2020-05-22 |
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CN202020598729.4U Expired - Fee Related CN210604043U (en) | 2020-04-21 | 2020-04-21 | Large-scale culture water quality sampler |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112937865A (en) * | 2021-05-13 | 2021-06-11 | 南京钢果电子科技有限公司 | Ocean sampling detection unmanned aerial vehicle |
-
2020
- 2020-04-21 CN CN202020598729.4U patent/CN210604043U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112937865A (en) * | 2021-05-13 | 2021-06-11 | 南京钢果电子科技有限公司 | Ocean sampling detection unmanned aerial vehicle |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200522 Termination date: 20210421 |
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CF01 | Termination of patent right due to non-payment of annual fee |