CN218239435U - But edulcoration formula river course water sample sampling device - Google Patents
But edulcoration formula river course water sample sampling device Download PDFInfo
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- CN218239435U CN218239435U CN202222364547.2U CN202222364547U CN218239435U CN 218239435 U CN218239435 U CN 218239435U CN 202222364547 U CN202222364547 U CN 202222364547U CN 218239435 U CN218239435 U CN 218239435U
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Abstract
The utility model relates to the technical field of water quality sampling related equipment, in particular to an impurity-removing river water sample sampling device; comprises an inlet cone, a cylinder body, a connecting hopper and a collecting cylinder which are connected at one time; a proximity sensor and a servo motor are arranged on the inlet cone; the cylinder body is internally provided with a filter assembly, and the servo motor is used for driving the filter assembly; the outer side wall of the connecting hopper is embedded with an infrared camera; by adopting the utility model, the whole structure is simple, the cost is controllable, the filtration and the activity maintenance of the water body to be sampled are realized through the three-section type filtering structure, and the sampling efficiency of the water body is improved; and integration proximity sensor and infrared camera further guarantee sampling device at submarine safe type, in time take notes the unexpected condition around the sampler, expand sampling device's information perception ability, reinforcing sampling device environmental suitability.
Description
Technical Field
The utility model relates to a quality of water sample correlation equipment technical field specifically is a but edulcoration formula river course water sample sampling device.
Background
The environmental impact evaluation is short for environmental impact evaluation, and refers to a method and a system for analyzing, predicting and evaluating environmental impact possibly caused after planning and construction projects are implemented, providing countermeasures and measures for preventing or alleviating adverse environmental impact, and performing tracking monitoring. The method is popular in that influences which are possibly caused to the environment after project construction and production are analyzed, pollution prevention and control measures and measures are provided, and water quality needs to be sampled and detected in the process of environmental assessment;
prior art CN202023241371.9 a quality of water sampling filter equipment, though a quality of water sampling filter equipment is disclosed, including taking out a section of thick bamboo, extracting mechanism and anti-blocking mechanism, take out a section of thick bamboo lateral wall laminating and have the antiskid cover, and take out a section of thick bamboo inside wall and seted up the block groove, block inslot side all is fixed with the block, and the block lateral wall installs the filter screen, extracting mechanism installs at the inside wall of taking out a section of thick bamboo, and takes out a section of thick bamboo bottom welding and have the guiding tube, the fixed orifices has been seted up to the guiding tube inside wall, and the interior lateral wall screw connection of fixed orifices has the dead lever, the welding of dead lever bottom has the mud receiving flask, take out a section of thick bamboo lateral wall welding and have the gag lever post. The utility model has the advantages that the anti-blocking mechanism is arranged, so that when the sewage with more sundries is sampled and detected, the drainage tube can be blocked by sampling the sewage, the sewage can not be sampled, the larger sundries in the sewage can be blocked by the anti-blocking mechanism, and the sewage is extracted into the extraction cylinder through the drainage tube;
but in this work scene to the water sample, often not know the sample that need carry out the water sample, still need carry out the record of the submarine condition to among the prior art, the installation filter screen is also comparatively single, and overall function is comparatively single, and the filter effect also remains to improve.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a but edulcoration formula river course water sample sampling device to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme:
an impurity-removing river water sample sampling device comprises an inlet cone, a cylinder body, a connecting hopper and a collecting cylinder which are connected at one time;
a proximity sensor and a servo motor are arranged on the inlet cone; the cylinder body is internally provided with a filter assembly, and the servo motor is used for driving the filter assembly; the outer side wall of the connecting hopper is embedded with an infrared camera;
a waterproof cable interface is arranged on the inlet cone; the proximity sensor, the servo motor and the infrared camera are externally connected with power supply and control through waterproof cable interfaces
Furthermore, the servo motor is installed on the inlet cone, the output end of the servo motor extends into the cylinder body and is connected with the coupler, the servo motor is connected with the rotating rod through the coupler, and the filtering component is fixedly connected to the rotating rod.
Furthermore, be provided with on the inner wall of stack shell and strengthen the fin board, strengthen the other end of fin board and connect to open in the middle part and rotate the shaft hole, the rotation stick stretches into in rotating the shaft hole.
Further, the filter assembly comprises a fine filter plate, a middle filter plate and a water stirring plate; the rotating rod sequentially penetrates through the centers of circles of the fine filter plate, the middle filter plate and the water stirring plate and is fixedly connected with the fine filter plate, the middle filter plate and the water stirring plate;
furthermore, an auxiliary mounting seat is arranged on the outer side wall of the connecting hopper;
furthermore, a water guide grid is arranged in the inlet cone;
compared with the prior art, the beneficial effects of the utility model are as follows:
by adopting the utility model, the whole structure is simple, the cost is controllable, the filtering and the activity keeping of the water body to be sampled are realized through the three-section filtering structure, and the sampling efficiency of the water body is improved; and integration proximity sensor and infrared camera further guarantee sampling device at submarine safe type, in time take notes the unexpected condition around the sampler, expand sampling device's information perception ability, reinforcing sampling device environmental suitability.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic view of the internal structure of the present invention;
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.
Referring to fig. 1-2, an impurity-removing type river water sampling device comprises an inlet cone 100, a barrel body 200, a connecting hopper 300 and a collecting barrel 400 which are connected at one time;
a proximity sensor 500 and a servo motor 600 are arranged on the inlet cone 100; a filter assembly 800 is further arranged in the cylinder body 200, and the servo motor 600 is used for driving the filter assembly 800; the outer side wall of the connecting hopper 300 is embedded with an infrared camera 700;
the inlet cone 100 is provided with a waterproof cable interface 900; the proximity sensor 500, the servo motor 600 and the infrared camera 700 are externally connected with a waterproof cable interface 900 for power supply and control;
in this embodiment, the proximity sensor 500 is fixed to the inlet cone 100 through a bracket, and is configured to detect whether aquatic organisms are approaching near the sampling device, and when the proximity of aquatic organisms is detected, the infrared camera 700 is turned on to detect and photograph surrounding images, so as to record the surrounding conditions of the sampling device, improve the sensing performance of the sampling device at the water bottom, and connect the sensor signal and the infrared camera signal information to an external control device through the waterproof cable interface 900; the water body of waiting to take a sample, in getting into stack shell 200 through import awl 100, through the filtration of filter assembly 800, get into and gather section of thick bamboo 400, in the stack shell, servo motor 600 stirs filter assembly 800 in addition, improves collection efficiency and filtration efficiency.
Further, the servo motor 600 is mounted on the inlet cone 100, the output end of the servo motor extends into the cylinder 200 and is connected with the coupler 620, the output end of the servo motor is connected with the rotating rod 610 through the coupler 620, and the filter assembly 800 is fixedly connected to the rotating rod 610.
Further, a reinforcing fin plate 210 is arranged on the inner wall of the cylinder body 200, the other end of the reinforcing fin plate 210 is connected, a rotating shaft hole 220 is formed in the middle of the reinforcing fin plate 210, and the rotating rod 610 extends into the rotating shaft hole 220.
In this embodiment, strengthen finned plate 210 and set up inside stack shell 200, can guarantee the holistic structural strength of stack shell 200, avoid sampling device in the river course bottom, be struck by aquatic organism or river course stone and cause the harm, reinforcing structural stability.
Further, the filter assembly 800 includes a fine filter plate 810, a middle filter plate 820 and a water stirring plate 830; the rotating rod 610 sequentially penetrates through the centers of the fine filter plate 810, the middle filter plate 820 and the water stirring plate 830 and is fixedly connected with the centers;
in this embodiment, the filtering assembly 800 adopts a three-stage structure, the first layer of fine filtering plate 810 is provided with a plurality of fine water holes, which can block most of the waste and granular garbage in the water body, so as to ensure the quality of the water sample to be taken, and the middle section of middle filtering plate 820 is provided with large water holes under the condition that some fine water holes are remained, so that the water body filtered by the fine filtering plate 810 can pass through the large water holes quickly, thereby ensuring the rapidness of taking water; the bottom water stirring plate 830 is provided with a plurality of stirring macropores, so that a water sample filtered at the bottom cannot settle and deposit, and the activity of a water body is ensured.
Further, an auxiliary mounting seat 310 is arranged on the outer side wall of the connecting hopper 300;
in this embodiment, the auxiliary mounting seat 310 may connect the device with an external feeding device, so as to facilitate feeding and retrieving of the sampling device, and improve the adaptability to various application scenarios.
Further, a water guiding grid 110 is arranged in the inlet cone 100;
in this embodiment, the water guide grid 110 can prevent aquatic animals from accidentally entering the device before the water sample enters the barrel 200, so as to protect the device.
By adopting the utility model, the whole structure is simple, the cost is controllable, the filtering and the activity keeping of the water body to be sampled are realized through the three-section filtering structure, and the sampling efficiency of the water body is improved; and integration proximity sensor and infrared camera further guarantee sampling device at submarine safe type, in time take notes the unexpected condition around the sampler, extend sampling device's information perception ability, reinforcing sampling device environmental suitability ability.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the accompanying claims.
Claims (6)
1. An impurity-removing river water sample sampling device is characterized by comprising an inlet cone (100), a cylinder body (200), a connecting hopper (300) and a collecting cylinder (400) which are connected at one time;
a proximity sensor (500) and a servo motor (600) are arranged on the inlet cone (100); a filter assembly (800) is further arranged in the cylinder body (200), and the servo motor (600) is used for driving the filter assembly (800); the outer side wall of the connecting hopper (300) is embedded with an infrared camera (700);
a waterproof cable interface (900) is arranged on the inlet cone (100); proximity sensor (500), servo motor (600) and infrared camera (700) carry out external power supply and control by waterproof cable interface (900).
2. The impurity-removing type river water sampling device according to claim 1, wherein the impurity-removing type river water sampling device is characterized in that: the servo motor (600) is installed on the inlet cone (100), the output end of the servo motor extends into the cylinder body (200) and is connected with the coupler (620), the servo motor is connected with the rotating rod (610) through the coupler (620), and the filtering component (800) is fixedly connected to the rotating rod (610).
3. The impurity-removing type river water sampling device according to claim 2, wherein the impurity-removing type river water sampling device is characterized in that: the inner wall of the cylinder body (200) is provided with a reinforcing fin plate (210), the other end of the reinforcing fin plate (210) is connected, the middle part of the reinforcing fin plate is provided with a rotating shaft hole (220), and the rotating rod (610) extends into the rotating shaft hole (220).
4. The impurity-removing river water sample sampling device according to claim 2, wherein: the filter assembly (800) comprises a fine filter plate (810), a middle filter plate (820) and a water stirring plate (830); the rotating rod (610) sequentially penetrates through the centers of the fine filter plate (810), the middle filter plate (820) and the water stirring plate (830) and is fixedly connected with the fine filter plate, the middle filter plate and the water stirring plate.
5. The impurity-removing type river water sample sampling device according to claim 1, wherein: an auxiliary mounting seat (310) is arranged on the outer side wall of the connecting hopper (300).
6. The impurity-removing type river water sample sampling device according to claim 1, wherein: a water guide grid (110) is arranged in the inlet cone (100).
Priority Applications (1)
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CN202222364547.2U CN218239435U (en) | 2022-09-06 | 2022-09-06 | But edulcoration formula river course water sample sampling device |
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CN202222364547.2U CN218239435U (en) | 2022-09-06 | 2022-09-06 | But edulcoration formula river course water sample sampling device |
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CN202222364547.2U Active CN218239435U (en) | 2022-09-06 | 2022-09-06 | But edulcoration formula river course water sample sampling device |
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