CN210863703U - Water pollution monitoring device - Google Patents

Abstract

The utility model discloses a water pollution monitoring devices, include: detect cabin and cabin cover, the detection cabin is equipped with water sample storage device, detection device and monitoring device, and water sample storage device includes: the water storage tanks are arranged in the detection cabin through a support, the upper end of each water storage tank is communicated with one end of a water inlet pipe, the other end of the water inlet pipe is communicated with the water suction pipe, one end of the water suction pipe, far away from the water inlet pipe, is a suction end, and the suction end extends out of the detection cabin; the detection device comprises: the detector, the winding drum and the motor for lifting the detector are arranged on the outer wall of the bottom of the detection cabin, the central shaft of the winding drum is connected with the output shaft of the motor, the winding drum is connected with one end of a connecting rope capable of being wound on the winding drum, and the other end of the connecting rope is connected with the detector; the utility model discloses a water pollution monitoring devices small in size, it is extensive to be suitable for the waters, but to the detection remote control water intaking of complicacy, keeps in the water sample and takes back the laboratory and detect.

Description

Water pollution monitoring device

Technical Field

The utility model belongs to the technical field of the environmental protection equipment, concretely relates to water pollution monitoring device.

Background

At present, the problem of water pollution is serious day by day, and the control of reinforcing water and the detection are indispensably slow, and in prior art, the monitoring to the environment needs staff's on-the-spot sample to take the laboratory testing back again, and not only efficiency is lower, can not real-time supervision quality of water's change moreover. Some monitoring vessels with real-time monitoring function are often large in size and inconvenient to run in narrow water areas.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims to provide a water pollution monitoring device, the device small in size, but the real-time supervision water condition, the distance is less than the biggest transmission distance of bluetooth between the position that water pollution monitoring device surveyed and the transmission remote control signal, is applicable to narrower waters promptly.

Therefore, the technical scheme of the utility model is as follows:

a water pollution monitoring device comprising: the detection cabin is provided with a propeller and is used for pushing the detection cabin to move in water;

the hatch cover is a cone with an open bottom end, the hatch cover is arranged at the top end of the detection cabin, the detection cabin is provided with a water sample storage device, a detection device and a monitoring device,

the water sample storage device includes: the water storage tanks are mounted in the detection cabin through a support, the upper end of each water storage tank is communicated with one end of a water inlet pipe, the other end of each water inlet pipe is communicated with the water suction pipe, a water pump is mounted on each water inlet pipe, one end, far away from the water inlet pipe, of each water suction pipe is a suction end, and the suction end extends out of the detection cabin;

the detection device includes: the detector is used for being placed in a water body, the winding drum and the motor are used for lifting the detector, the motor is installed on the outer wall of the bottom of the detection cabin, the central shaft of the winding drum is connected with the output shaft of the motor, one end of a connecting rope capable of being wound on the winding drum is connected to the winding drum, and the other end of the connecting rope is connected with the detector;

the monitoring device includes: the camera is installed outside the cabin cover, the Bluetooth device and the controller are installed in the detection cabin, the controller is respectively and electrically connected with the water pump, the motor, the detector, the propeller and the Bluetooth device, and the controller reads a detection signal of the detector and controls the water pump to work; the controller reads a remote control signal received by the Bluetooth device, the controller controls the motor to be started and the propeller to be started,

and a plurality of air bags are arranged on the outer side wall of the detection cabin.

In the above technical scheme, each water inlet pipe is provided with a control valve, the control valve is electrically connected with the controller, and when the water pump is started, the controller controls the control valve on the water inlet pipe where the water pump is located to be opened. .

In the above technical solution, the water storage tank includes: the tank body is connected with the tank cover through threads, a remote transmission liquid level meter is installed in the tank body and is electrically connected with the controller, and the controller reads signals of the remote transmission liquid level meter and controls the corresponding control valve and the corresponding water pump; the bottom of each water storage tank is communicated with a water outlet pipe, a water outlet valve is installed on the water outlet pipe, and a water inlet used for inserting the water inlet pipe is formed in the top end of the tank cover.

In the above technical solution, the bracket includes: first backup pad, second backup pad and a plurality of support column, form a plurality of first fixed mouths that are used for inserting the water storage tank on the first backup pad around each fixed mouth is formed with a plurality of mounting holes, each the mounting hole inserts one the support column and with first backup pad is adorned admittedly, the second backup pad is located the top of first backup pad and is parallel with this first backup pad, with each the water storage tank is relative be formed with one in the second backup pad and be used for passing the fixed mouth of second of water storage tank, each the upper end of support column passes the second backup pad and is fixed with this second backup pad.

In the above technical solution, the method further comprises: and each tank cover is communicated with one end of one air exhaust pipe, the other ends of all the air exhaust pipes are communicated with one end of the air exhaust pipe, and the other end of the air exhaust pipe extends out of the tank cover from the top end of the tank cover.

In the above technical scheme, a filter screen for filtering sundries is installed on the suction end.

In the technical scheme, a lock catch is installed at the lower end of the hatch cover, a lock hole is formed in the detection cabin, the lock catch is embedded into the lock hole and fixed, a continuous convex strip is formed on the lower end face of the hatch cover, a groove is formed on the contact surface of the detection cabin and the hatch cover, the convex strip is embedded into the groove, and a sealing gasket is installed between the convex strip and the groove.

In the technical scheme, a plurality of positioning rings are fixedly arranged on the outer side wall of the detection cabin along the length direction of the detection cabin, buckles are fixedly arranged on the left side and the right side of each air bag, each buckle is embedded into one positioning ring and connected with the positioning ring, and a connecting belt is connected between every two adjacent air bags.

In the above technical scheme, the detector is a residual chlorine sensor, a conductivity sensor, a PH sensor, an oxidation-reduction potential sensor or a turbidity sensor.

The utility model discloses a water pollution monitoring devices's beneficial technological effect does:

1. the monitoring device has small volume and wide applicable water area;

2. the monitoring device is internally provided with a water storage tank, water can be remotely controlled to be taken for complex detection, and a water sample is temporarily stored and taken back to a laboratory for detection;

3. this monitoring devices can carry out real time monitoring to quality of water to carry out the communication through bluetooth device and control center, still accessible bluetooth device remote control sample.

Drawings

Fig. 1 is a schematic view of embodiment 1 of the water pollution monitoring device of the present invention;

fig. 2 is an internal schematic view of embodiment 1 of the water pollution monitoring device of the present invention;

fig. 3 is a cross-sectional view of part a of example 1 of the water pollution monitoring device of the present invention (the convex strip is embedded in the groove);

fig. 4 is a partial schematic view (overhead view) of embodiment 1 of the water pollution monitoring device of the present invention;

fig. 5 is a control schematic diagram of embodiment 1 of the water pollution monitoring device of the present invention.

Wherein, 1: hatch, 2: an air bag, 201: connecting band, 3: detection cabin, 301: nut, 302: support column, 303: gasket, 4: suction pipe, 5: water pump, 6: water storage tank, 601: exhaust pipe, 602: water outlet pipe, 701: second support plate, 702: first support plate, 8: motor, 9: reel, 10: detector, 101: controller, 11: and (4) controlling the valve.

Detailed Description

In order to make the technical field person understand the solution of the present invention better, the technical solution of the present invention is further described below with reference to the specific embodiments.

Example 1

As shown in fig. 1 to 5, a water pollution monitoring device comprises a detection cabin 3 and a cabin cover 1, wherein a propeller (not shown in the figure) is installed on the detection cabin and used for pushing the detection cabin to move in water;

the hatch cover 1 is a cone with an open bottom end to prevent water from accumulating at the top of the hatch cover 1. The hatch cover 1 is arranged at the top end of the detection cabin 3, preferably, the lower end of the hatch cover 1 is provided with a lock catch, a buckle hole is formed in the detection cabin 3, and the lock catch is embedded into the buckle hole and fixed. A continuous convex strip is formed on the lower end face of the hatch cover 1, a groove is formed on the contact surface of the detection cabin 3 and the hatch cover 1, the convex strip is embedded in the groove, and a sealing gasket 303 for water prevention is arranged between the convex strip and the groove. The detection cabin 3 and the cabin cover 1 are made of polytetrafluoroethylene materials, and the materials are resistant to acid and alkali corrosion and suitable for detection under severe conditions.

The detection cabin 3 is provided with a water sample storage device, a detection device and a monitoring device.

The water sample storage device includes: the pipe that absorbs water 4 and 3 water storage tank 6, 3 water storage tank 6 through a support mounting in detecting cabin 3, the upper end of every water storage tank 6 and the one end intercommunication of an inlet tube, the other end of inlet tube and the pipe 4 intercommunication that absorbs water all install water pump 5 on every inlet tube, the one end that the inlet tube was kept away from to the pipe 4 that absorbs water is the suction end, and the suction end stretches out to outside detecting cabin 3. A filter screen (not shown) for filtering foreign materials is installed on the suction end.

The detection device comprises: a motor 8 for placing detector 10, reel 9 in the water and being used for lift detector 10, motor 8 are waterproof motor, and motor 8 installs on the outer wall of detecting cabin 3 bottom, and the center pin of reel 9 is connected with motor 8's output shaft, is connected with one end that can twine the rope of being connected on this reel 9 on reel 9, and the other end of connecting the rope is connected with detector 10. The detector 10 is a residual chlorine sensor.

The monitoring device includes: camera, bluetooth device and controller 101, wherein, the camera is installed outside hatch 1 for the condition on the control surface of water.

The Bluetooth device and the controller 101 are installed in the detection cabin 3, the controller 101 is electrically connected with the water pump 5, the motor 8, the detector 10, the propeller and the Bluetooth device respectively, and the controller 101 reads a detection signal of the detector 10 and controls the water pump 5 to work; the controller 101 reads a remote control signal received by the bluetooth device, and the controller 101 controls the motor 8 to be turned on and the propeller to be started, wherein the remote control signal may be issued by a user located on the bank of the river.

A plurality of airbags 2 are mounted on the outer side wall of the inspection chamber 3. A plurality of positioning rings are fixedly arranged on the outer side wall of the detection cabin 3 along the length direction of the detection cabin, buckles are fixedly arranged on the left side and the right side of each air bag 2, each buckle is embedded into one positioning ring and connected with the positioning ring, and a connecting belt 201 is connected between every two adjacent air bags 2. The detection cabin 3 has buoyancy, and the operation of the detection cabin 3 is more stable after the air bag 2 is installed. The arrangement of the connecting belt 201 makes the whole airbag 2 more stable, and prevents the individual airbag 2 from separating from the detection chamber 3 to cause the inclination of the cabin body.

The detection cabin 3 is internally provided with a storage battery for supplying power to the whole monitoring device and providing power for driving.

Example 2

In order to facilitate bringing the water sample back to the laboratory for further testing, the water storage tank 6 comprises: the tank body is connected with the tank cover through threads, a remote transmission liquid level meter is installed in the tank body and electrically connected with the controller 101, and the controller 101 reads signals of the remote transmission liquid level meter and controls the corresponding control valve 11 and the corresponding water pump 5; the bottom of each water storage tank 6 is communicated with a water outlet pipe 602, a water outlet valve is installed on the water outlet pipe 602, and a water inlet for inserting the water inlet pipe is formed at the top end of the tank cover.

Each water inlet pipe is provided with a control valve 11, the control valve 11 is electrically connected with the controller 101, and when the water pump 5 is started, the controller 101 controls the control valve 11 on the water inlet pipe where the water pump 5 is located to be started.

In addition, the method also comprises the following steps: and each tank cover is communicated with one end of an exhaust pipe 601, the other ends of all the exhaust pipes are communicated with one end of the exhaust pipe 601, and the other end of the exhaust pipe 601 extends out of the cabin cover 1 from the top end of the cabin cover 1. In order to prevent rain from entering the water storage tank 6 from the exhaust pipe 601, an elbow is sleeved on the top of the exhaust pipe 601, and in order to avoid influencing the opening and closing of the hatch cover 1, the elbow needs to be taken down before the hatch cover 1 is opened. If the remote-transmission liquid level meter is out of control, and the water amount in the water storage tank 6 is too much, the excessive water overflows from the exhaust pipe 601 to prevent the water from entering the detection cabin 3.

Example 3

For fixed water storage tank 6, prevent that the unrestrained vibrations of water from making water storage tank 6 empty, the support includes: the water storage tank fixing device comprises a first support plate 702, a second support plate 701 and a plurality of support columns 302, wherein a plurality of first fixing openings for inserting water storage tanks 6 are formed in the first support plate 702, a plurality of mounting holes are formed in the first support plate 702 around each fixing opening, each mounting hole is inserted into one support column 302 and fixedly mounted with the first support plate 702, the second support plate 701 is positioned above the first support plate 702 and is parallel to the first support plate 702, a second fixing opening for penetrating through the water storage tanks 6 is formed in the second support plate 701 opposite to each water storage tank 6, and the upper end of each support column 302 penetrates through the second support plate 701 and is fixed with the second support plate 701. Each supporting column 302 is fixedly provided with a stop block for positioning the lower side of the second supporting plate 701, the upper end of each supporting column 302 is provided with a thread, and a nut 301 is sleeved on the thread and used for pressing the second supporting plate 701 against the stop block.

The utility model discloses a water pollution monitoring devices's application method:

the water pollution monitoring device of the utility model floats on the water surface, and is drawn to the specific position of the water surface through the screw propeller, a user is used as a control center to be in remote communication connection with the Bluetooth device at the river bank, the Bluetooth device can receive the control signal of the control center and transmit the picture shot by the camera to the control center in real time, the remote transmission liquid level meter detects the liquid level in the tank body and the water quality parameter measured by the detector 10, when a water sample is required to be taken and returned to a laboratory for further detection, a controller sends a signal to the controller through the Bluetooth device and selects to start the water pump 5 corresponding to a certain water storage tank 6, and opens the corresponding control valve 11, the water sample is sucked into the water storage tank 6 through the water suction pipe 4, the gas in the water storage tank 6 is exhausted out of the detection cabin 3 through the exhaust pipe 601, and when the liquid level reaches a preset height, the water pump 5 and the control valve 11 are closed to finish water taking. When one water storage tank 6 is filled with a water sample which needs to be brought back to the laboratory for further detection, the next water storage tank is filled again.

The depth of the detector 10 can be adjusted, a controller sends an adjusting signal to the controller through the Bluetooth device, the starting motor 8 drives the winding drum 9 to rotate, and the connecting rope is released or retracted to enable the detector 10 to be lowered or lifted.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "lower" can encompass both an upper and a lower orientation. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second," and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

Claims (9)

1. A water pollution monitoring device, comprising: the device comprises a detection cabin (3) and a cabin cover (1), wherein a propeller is installed on the detection cabin (3) and used for pushing the detection cabin (3) to move in water;

the hatch cover (1) is a cone with an open bottom, the hatch cover (1) is arranged at the top end of the detection cabin (3), the detection cabin (3) is provided with a water sample storage device, a detection device and a monitoring device,

the water sample storage device includes: the water suction device comprises a water suction pipe (4) and a plurality of water storage tanks (6), wherein the water storage tanks (6) are installed in the detection cabin (3) through a support, the upper end of each water storage tank (6) is communicated with one end of a water inlet pipe, the other end of each water inlet pipe is communicated with the water suction pipe (4), a water pump is installed on each water inlet pipe, one end, far away from the water inlet pipe, of each water suction pipe (4) is a suction end, and the suction end extends out of the detection cabin (3);

the detection device includes: the detector (10) is placed in a water body, the winding drum (9) and the motor (8) is used for lifting the detector (10), the motor (8) is installed on the outer wall of the bottom of the detection cabin (3), the central shaft of the winding drum (9) is connected with the output shaft of the motor (8), the winding drum (9) is connected with one end of a connecting rope capable of being wound on the winding drum (9), and the other end of the connecting rope is connected with the detector (10);

the monitoring device includes: the device comprises a camera, a Bluetooth device and a controller (101), wherein the camera is installed outside the cabin cover (1), the Bluetooth device and the controller (101) are installed in the detection cabin (3), the controller (101) is respectively and electrically connected with the water pump (5), the motor (8), the detector (10), the propeller and the Bluetooth device, and the controller (101) reads a detection signal of the detector (10) and controls the water pump (5) to work; the controller (101) reads a remote control signal received by the Bluetooth device, the controller (101) controls the motor (8) to be started and the propeller to be started,

a plurality of air bags (2) are arranged on the outer side wall of the detection cabin (3).

2. A water pollution monitoring device according to claim 1, wherein each of said water inlet pipes is provided with a control valve (11), said control valve (11) is electrically connected to said controller (101), and when said water pump (5) is turned on, said controller (101) controls the control valve (11) on the water inlet pipe where said water pump (5) is located to be turned on.

3. A water pollution monitoring device according to claim 2, wherein said water storage tank (6) comprises: the tank body is connected with the tank cover through threads, a remote transmission liquid level meter is installed in the tank body and is electrically connected with the controller (101), and the controller (101) reads signals of the remote transmission liquid level meter and controls the corresponding control valve (11) and the corresponding water pump (5); the bottom of each water storage tank (6) is communicated with a water outlet pipe (602), a water outlet valve is installed on the water outlet pipe (602), and a water inlet used for inserting the water inlet pipe is formed in the top end of the tank cover.

4. The water pollution monitoring device of claim 3, wherein said bracket comprises: the water storage tank fixing device comprises a first support plate (702), a second support plate (701) and a plurality of support columns (302), wherein a plurality of first fixing holes for inserting the water storage tanks (6) are formed in the first support plate (702), a plurality of mounting holes are formed in the first support plate (702) around each fixing hole, each mounting hole is inserted into one support column (302) and fixedly mounted with the first support plate (702), the second support plate (701) is located above the first support plate (702) and is parallel to the first support plate (702), a second fixing hole for penetrating through the water storage tanks (6) is formed in the second support plate (701) opposite to each water storage tank (6), and the upper end of each support column (302) penetrates through the second support plate (701) and is fixed with the second support plate (701).

5. The water pollution monitoring device according to claim 4, further comprising: and each tank cover is communicated with one end of an air exhaust pipe (601), the other ends of all the air exhaust pipes are communicated with one end of the air exhaust pipe (601), and the other end of the air exhaust pipe (601) extends out of the cabin cover (1) from the top end of the cabin cover (1).

6. The water pollution monitoring device of claim 5, wherein a filter screen for filtering impurities is mounted on the suction end.

7. The water pollution monitoring device according to claim 6, wherein a lock catch is mounted at the lower end of the hatch cover (1), a lock hole is formed on the detection chamber (3), the lock catch is embedded in the lock hole and fixed, a continuous convex strip is formed on the lower end surface of the hatch cover (1), a groove is formed on the contact surface of the detection chamber (3) and the hatch cover (1), the convex strip is embedded in the groove, and a sealing gasket (303) is mounted between the convex strip and the groove.

8. The water pollution monitoring device according to claim 7, wherein a plurality of positioning rings are fixedly arranged on the outer side wall of the detection chamber (3) along the length direction of the detection chamber, buckles are fixedly arranged on the left side and the right side of each air bag (2), each buckle is embedded into one positioning ring and connected with the positioning ring, and a connecting belt (201) is connected between two adjacent air bags (2).

9. The water pollution monitoring device according to claim 8, wherein said detector (10) is a residual chlorine sensor, a conductivity sensor, a pH sensor, an oxidation-reduction potential sensor or a turbidity sensor.

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