CN213398505U - Water environment ecological heavy metal pollution monitoring equipment - Google Patents

Abstract

The utility model discloses an ecological heavy metal pollution monitoring facilities of water environment relates to heavy metal pollution monitoring facilities field, can not carry out to the ecological heavy metal pollution monitoring facilities of current water environment and keep away from the monitoring task, and the inconvenient sample of time measuring of remote supervision simultaneously has carried out follow-up further detection and analysis's problem to quality of water, now proposes following scheme, and it includes the main section of thick bamboo, the equal fixed mounting in left and right both sides of terminal surface has the screw under the main section of thick bamboo, install storage battery in the main section of thick bamboo, the outside fixedly connected with support frame of main section of thick bamboo, two liang fixedly connected with flotation pontoon between the support frame, the opening has been seted up to the upper end of main section of thick bamboo, the lower inner wall of main section of thick bamboo is provided with the round hole, be provided with the surge drum in the round. The device has the characteristics of conveniently carrying out remote monitoring operation, simultaneously carrying out remote sampling, and greatly improving the monitoring range and comprehensiveness.

Description

Water environment ecological heavy metal pollution monitoring equipment

Technical Field

The utility model relates to a heavy metal pollution monitoring facilities field especially relates to ecological heavy metal pollution monitoring facilities of water environment.

Background

The water ecological environment is equal to the water ecology, the influence of environmental water factors on organisms and the adaptation of the organisms to various water conditions, the life originates from water, the water is an important component of all organisms, enough water must be kept in the organisms, the smooth proceeding of biochemical process is ensured at the cellular level, the normal operation of substance circulation in the organisms is ensured at the overall level, the organisms continuously exchange water with the environment, the quality (salinity) and the quantity of the water in the environment are important factors determining the distribution, the composition and the quantity of the organisms and the life style, and the monitoring device is usually used.

At present, the inside measuring part of the existing heavy metal pollution monitoring equipment in the market has defects, and the water environment can not be monitored according to different distances of workers, so that the water environment pollution range can not be effectively monitored by the workers, and meanwhile, the sampling is inconvenient when the long-distance monitoring is carried out, so that the follow-up further detection is convenient. Therefore, the water environment ecological heavy metal pollution monitoring equipment is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides an ecological heavy metal pollution monitoring facilities of water environment has solved current ecological heavy metal pollution monitoring facilities of water environment and can not carry out and keep away from the monitoring task, and the while is the inconvenient sample of time measuring of remote supervision, has carried out follow-up further detection and analysis's problem to quality of water.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the water environment ecological heavy metal pollution monitoring equipment comprises a main barrel, wherein propellers are fixedly arranged on the left side and the right side of the lower end face of the main barrel, a storage battery pack is arranged in the main barrel, a support frame is fixedly connected to the outer side of the main barrel, a float bowl is fixedly connected between every two support frames, an opening is formed in the upper end of the outer side face of the main barrel, a round hole is formed in the lower inner wall of the main barrel, a collecting barrel is arranged in the round hole, a plurality of first hydraulic rods are fixedly arranged on the inner wall of the round hole, the upper ends of the first hydraulic rods are fixedly connected with the upper end face of the collecting barrel through connecting rods, a water inlet is formed in the outer side face of the collecting barrel, a second hydraulic rod is fixedly arranged on the lower inner wall of the main barrel, a push rod is fixedly connected to the upper end of the second hydraulic rod, a rack, the rotary plate is fixedly connected with a third hydraulic rod at one end far away from the opening, a sector gear is fixedly sleeved on the surface of one end, close to the opening, of the rotary plate, and a monitoring device is fixedly mounted at the upper end of the third hydraulic rod.

Preferably, the buoy fixed sleeve is sleeved on the support frame and arranged outside the main cylinder in an array mode, and the upper end and the lower end of the outer side face of the main cylinder are arranged in a relative trapezoidal mode.

Preferably, the collecting cylinder is arranged in the circular hole in a sliding mode, a sealing rubber pad is arranged between the collecting cylinder and the inner wall of the circular hole, and the first hydraulic rod array is arranged on the inner wall of the circular hole.

Preferably, the water inlet array is arranged on the surface of the collecting barrel, and the first hydraulic rods and the water inlets are arranged in a staggered mode.

Preferably, each rotating plate is rotatably connected with the inner wall of the main cylinder through a pin shaft along the radial outer end of the main cylinder, and the inner end of each rotating plate is fixedly connected with a third hydraulic rod.

Preferably, the upper end of each push rod is connected with the lower side surface of the rotating plate on one side in a sliding mode, and each rack is connected with the sector gear on one side in a meshing mode.

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

1. by the main cylinder, the propeller, the storage battery, the support frame, the floating cylinder, the opening, the round hole, the collecting cylinder, the water inlet, the push rod, the rack, the rotating plate, the sector gear, the third hydraulic rod and the monitoring device, the device can provide energy for the propeller through the storage battery, further drive the propeller to operate so that the propeller can drive the main cylinder and the inner device thereof to move on the water surface, thereby facilitating the remote monitoring, simultaneously, the buoyancy of the device is increased by the extension of the support frame on the outer side surface of the main cylinder and fixedly connected with the floating cylinder, simultaneously, the anti-wave capability of the device is improved, simultaneously, the third hydraulic rod and the monitoring device fixedly connected with the upper end of the third hydraulic rod can rotate 180 degrees to the outer side and the lower side of the main cylinder by pushing the push rod and the rack to push the rotating rod to rotate 180 degrees during the monitoring, thereby being in contact with the, the water quality at different depths can be conveniently monitored;

2. can drive the collecting vessel through first hydraulic stem simultaneously and move down in the round hole, move to the below of round hole until the water inlet, and then can intake, then move the collecting vessel at last, establish through the sealed cover between collecting vessel and the round hole inner wall, the water source in the collecting vessel can not outflow this moment, and then can conveniently take a sample to the water source.

The device has the characteristics of convenient remote monitoring operation, remote sampling, great improvement of monitoring range and comprehensiveness.

Drawings

Fig. 1 is a sectional view of the structure of the water environment ecological heavy metal pollution monitoring device of the utility model.

Fig. 2 is the utility model discloses a water environment ecology heavy metal pollution monitoring facilities's opening part overlooks the cross-sectional view of structure.

Fig. 3 is a cross-sectional view of the overlooking structure of the water inlet of the water environment ecological heavy metal pollution monitoring device of the utility model.

Reference numbers in the figures: the device comprises a main cylinder 1, a propeller 2, a storage battery pack 3, a support frame 4, a buoy 5, an opening 6, a circular hole 7, a collecting cylinder 8, a water inlet 9, a push rod 10, a rack 11, a rotating plate 12, a sector gear 13, a third hydraulic rod 14 and a monitoring device 15.

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.

Referring to fig. 1-3, the water environment ecological heavy metal pollution monitoring device comprises a main cylinder 1, propellers 2 are fixedly mounted on the left side and the right side of the lower end surface of the main cylinder 1, a storage battery 3 is mounted in the main cylinder 1, a support frame 4 is fixedly connected to the outer side of the main cylinder 1, a float bowl 5 is fixedly connected between every two support frames 4, an opening 6 is formed in the upper end of the outer side surface of the main cylinder 1, a round hole 7 is formed in the lower inner wall of the main cylinder 1, a collecting cylinder 8 is arranged in the round hole 7, a plurality of first hydraulic rods are fixedly mounted on the inner wall of the round hole 7, the upper ends of the first hydraulic rods are fixedly connected with the upper end surface of the collecting cylinder 8 through connecting rods, a water inlet 9 is formed in the outer side surface of the collecting cylinder 8, a second hydraulic rod is fixedly mounted on the lower inner wall of the main cylinder 1, a push rod 10 is fixedly connected with the, a third hydraulic rod 14 is fixedly connected to one end of the rotating plate 12 far away from the opening 6, a sector gear 13 is fixedly sleeved on the surface of one end of the rotating plate 12 close to the opening 6, and a monitoring device 15 is fixedly mounted at the upper end of the third hydraulic rod 14.

In the embodiment, the floating cylinders 5 are fixedly sleeved on the supporting frame 4 and are arranged on the outer side of the main cylinder 1 in an array manner, the upper end and the lower end of the outer side surface of the main cylinder 1 are arranged in a trapezoid manner, the collecting cylinder 8 is arranged in the circular hole 7 in a sliding manner, a sealing rubber pad is arranged between the collecting cylinder 8 and the inner wall of the circular hole 7, the first hydraulic rod array is arranged on the inner wall of the circular hole 7, the water inlets 9 are arranged on the surface of the collecting cylinder 8 in an array manner, the first hydraulic rods and the water inlets 9 are arranged in a staggered manner, each rotating plate 12 is connected with the inner wall of the main cylinder 1 in a rotating manner through a pin shaft along the radial outer side end of the main cylinder 1, the inner side end is fixedly connected with a third hydraulic rod 14, the upper end of each push rod 10 is connected with the lower side surface of the rotating plate 12 on one side in a sliding manner, each, meanwhile, the upper end nozzle of the collecting barrel 8 is provided with a small opening, so that the device is effectively placed to float on the water surface and shake to cause the water source for sampling the target water source position in the collecting barrel 8 to be splashed.

The working principle is as follows: when the device is used, the propeller 2 can be provided with energy through the storage battery pack 3, so that the propeller 2 is driven to operate, the main cylinder 1 and the inner device thereof can be driven to move on the water surface, the remote monitoring is convenient, meanwhile, the buoyancy of the device is increased through the extension of the support frame 4 and the fixedly connected buoy 5 on the outer side surface of the main cylinder 1, the wind and wave resistance of the device is improved, meanwhile, the push rod 10 and the rack 11 can be pushed to move upwards through the second hydraulic rod during the monitoring, further, through the sliding connection between the upper end of the push rod 10 and the lower side surface of the rotating plate 12, the rotating plate 12 on one side is pushed to rotate upwards for a certain angle firstly, then when the rack 11 is meshed with the sector gear 13, the meshing connection drives the rotating plate to rotate again, further, the rotating rod rotates for 180 degrees, further, the third hydraulic rod 14 and the monitoring device 15 fixedly connected with the upper end of the third hydraulic, the water surface contact monitoring can be realized, and meanwhile, the depth of the monitoring device 15 in water can be adjusted by the third hydraulic pressure 14, so that the water quality at different depths can be conveniently monitored; simultaneously can move down in round hole 7 through first hydraulic stem drive collecting vessel 8, move to the below of round hole 7 until the water inlet, and then can intake, then at last collecting vessel 8 that moves, establish through the sealed cover between collecting vessel 8 and the 7 inner walls of round hole, the water source in the collecting vessel 8 can not outflow this moment, and then can conveniently take a sample to the water source.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. Water environment ecological heavy metal pollution monitoring equipment comprises a main barrel (1), wherein propellers (2) are fixedly mounted on the left side and the right side of the lower end face of the main barrel (1), a storage battery (3) is mounted in the main barrel (1), a support frame (4) is fixedly connected to the outer side of the main barrel (1), the equipment is characterized in that a floating barrel (5) is fixedly connected between every two support frames (4), an opening (6) is formed in the upper end of the outer side face of the main barrel (1), a round hole (7) is formed in the lower inner wall of the main barrel (1), a collecting barrel (8) is arranged in the round hole (7), a plurality of first hydraulic rods are fixedly mounted on the inner wall of the round hole (7), the upper ends of the first hydraulic rods are fixedly connected with the upper end face of the collecting barrel (8) through connecting rods, and a water inlet (9) is formed in the, inner wall fixed mounting has upper end fixedly connected with push rod (10) of second hydraulic stem and second hydraulic stem under main section of thick bamboo (1), the side fixedly connected with rack (11) of push rod (10), every utensil rotation is connected with commentaries on classics board (12) between the both sides inner wall of opening (6) in main section of thick bamboo (1), change one end fixedly connected with third hydraulic stem (14) that opening (6) were kept away from in board (12), the one end fixed surface that changes board (12) and be close to opening (6) overlaps and is equipped with sector gear (13), the upper end fixed mounting of third hydraulic stem (14) has monitoring devices (15).

2. The ecological heavy metal pollution monitoring equipment in water environment according to claim 1, characterized in that the floating cylinders (5) are fixedly sleeved on the support frame (4) and are arranged outside the main cylinder (1) in an array manner, and the upper and lower ends of the outer side surface of the main cylinder (1) are arranged in opposite trapezoids.

3. The aquatic environment ecological heavy metal pollution monitoring device according to claim 1, wherein the collecting cylinder (8) is slidably disposed in the circular hole (7) and a sealing rubber gasket is disposed between the collecting cylinder and the inner wall of the circular hole (7), and the first hydraulic rod array is disposed on the inner wall of the circular hole (7).

4. The aquatic environment ecological heavy metal pollution monitoring device according to claim 1, wherein the water inlets (9) are arranged on the surface of the collecting cylinder (8) in an array, and the first hydraulic rods and the water inlets (9) are arranged in a staggered manner.

5. The aquatic environment ecological heavy metal pollution monitoring device according to claim 1, wherein each rotating plate (12) is rotatably connected with the inner wall of the main cylinder (1) through a pin shaft along the radial outer end of the main cylinder (1), and the inner end of each rotating plate is fixedly connected with a third hydraulic rod (14).

6. The aquatic environment ecological heavy metal pollution monitoring device according to claim 1, wherein the upper end of each push rod (10) is slidably connected with the lower side surface of the rotating plate (12) on one side, and each rack (11) is in meshed connection with the sector gear (13) on one side.

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