CN211528377U - Real-time monitoring device for watershed water environment - Google Patents

Abstract

The utility model relates to a water environment monitoring field discloses a real-time monitoring device of watershed water environment, has solved the biology of floating algae in the water, gathers and grows on the device, causes the inaccurate problem of monitoring result of water monitoring device, and its technical scheme main points are including floating mechanism and probe rod mechanism, floating mechanism includes the instrument shelter and supports the floating base of instrument shelter, be equipped with electrically connected monitor main part, wireless transmission module and power in the instrument shelter; the probe rod mechanism comprises a transverse telescopic rod and a longitudinal telescopic rod, one end of the transverse telescopic rod is fixedly and vertically connected with the outer side wall of the instrument box, the other end of the transverse telescopic rod is connected with the top end of the longitudinal telescopic rod, the bottom end of the longitudinal telescopic rod is connected with a monitor probe, the monitor probe is electrically connected with a monitor main body, the depth of the monitor probe entering water can be controlled, the interference of microorganisms is small, and the monitoring result is more accurate.

Description

Real-time monitoring device for watershed water environment

Technical Field

The utility model relates to a water environment monitoring field, more specifically say, it relates to a real-time supervision device of watershed water environment.

Background

The monitoring devices of general water is a buoy type device, the device volume is big, and the during operation need carry out long-time stay monitoring in a fixed point position in the waters, but long-time monitoring process, the biology of floating algae in the water just gathers easily and grows on the device, causes the influence to some water parameters of monitoring devices measuring range etc. for example dissolved oxygen volume, turbidity isoparameter has great influence, causes water monitoring devices's monitoring result inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a real-time supervision device of watershed water environment can control the monitor probe degree of depth of diving, receives little by the microbial interference, and the monitoring result is more accurate.

The above technical purpose of the present invention can be achieved by the following technical solutions: a real-time monitoring device for watershed water environment comprises a floating mechanism and a probe rod mechanism, wherein the floating mechanism comprises an instrument box and a floating base for supporting the instrument box, and a monitor main body, a wireless transmission module and a power supply which are electrically connected are arranged in the instrument box;

the probe rod mechanism comprises a transverse telescopic rod and a longitudinal telescopic rod, one end of the transverse telescopic rod is fixedly and vertically connected with the outer side wall of the instrument box, the other end of the transverse telescopic rod is connected with the top end of the longitudinal telescopic rod, the bottom end of the longitudinal telescopic rod is connected with a monitor probe, and the monitor probe is electrically connected with a monitor main body.

Preferably, the floating base is an inverted cone frustum box body and a floating plate correspondingly fixedly sleeved on the periphery of the cone frustum box body, and the top of the cone frustum box body is fixedly connected with the bottom of the instrument box.

Preferably, the bottom of the truncated cone box body is provided with a plurality of groups of pushing mechanisms, the pushing mechanisms are all provided with pushing remote controllers, the pushing mechanism comprises a first rotating motor, a fixed plate, a rotating shaft and a propeller, the top end of the fixed plate is vertically connected to the outer side of the bottom of the truncated cone box body, one end of the rotating shaft is rotatably connected with one side of the bottom end of the fixed plate, the other end of the rotating shaft is fixedly connected with a middle shaft of the propeller, the bottom wall of the truncated cone box body is provided with an opening corresponding to the position of the pushing mechanism in a penetrating way, the first rotating motor is fixedly arranged in the truncated cone box body and is connected with a power supply, the first rotating motor and the rotating shaft penetrate through the hole to be connected with a transmission mechanism and drive the rotating shaft to rotate through the transmission mechanism, and the push remote controller is used for controlling the rotating speed of the first rotating motor.

Preferably, the transmission mechanism comprises a corresponding belt and two rotating wheels, a groove is formed in the circumferential direction of the outer side of each rotating wheel, the rotating shaft is close to the outer side of one end of the fixing plate and the outer side of the rotor shaft of the first rotating motor, the rotating wheels are fixedly sleeved on the outer sides of the first rotating motor respectively, and the belt sleeves are arranged in the grooves in the outer sides of the rotating wheels.

Preferably, the outer surface of the propeller, the outer surface of the rotating shaft, the outer surface of the fixed plate and the outer surface of the transmission mechanism are coated with anti-corrosion coatings.

Preferably, the bottom of the cone frustum box body is further provided with a positioning mechanism, the positioning mechanism is provided with a positioning remote controller in a matched mode, the positioning mechanism comprises a second rotating motor, a chain winding disc, an anchor chain and a positioning anchor, the second rotating motor is fixed in the cone frustum box body and connected with a power supply, the chain winding disc is fixedly sleeved on the outer side of a rotor shaft of the second rotating motor, the anchor chain is connected between the positioning anchor and the chain winding disc, a positioning hole penetrates through the bottom wall of the cone frustum box body corresponding to the positioning mechanism, the anchor chain penetrates through the positioning hole, the top of the anchor chain is wound on the chain winding disc, and the positioning remote controller is used for controlling rotation of the second rotating motor.

Preferably, the surface of the chain winding disc, the surface of the anchor chain and the surface of the positioning anchor are coated with anti-corrosion coatings.

Preferably, a conical cover body is arranged at the top end of the instrument box, and the diameter of the bottom surface of the conical cover body is larger than that of the upper bottom surface of the truncated cone box body.

Preferably, the transverse telescopic rod and the longitudinal telescopic rod are electric telescopic rods, the electric telescopic rods are electrically connected with a power supply, and the electric telescopic rods are provided with remote controllers.

To sum up, the utility model discloses following beneficial effect has: the outer side of the instrument box is provided with a probe rod mechanism which comprises a transverse telescopic rod and a longitudinal telescopic rod, wherein the transverse telescopic rod can be transversely extended to enable the longitudinal telescopic rod to be far away from the instrument box, the longitudinal telescopic rod can be extended to enable a monitor probe at the bottom end of the transverse telescopic rod to be deep under the water surface, and the distance between the monitor probe and the floating mechanism and the depth of the monitor probe deep into the water body can be controlled by controlling the lengths of the transverse telescopic rod and the longitudinal telescopic rod;

when the probe of the monitor is far away from the floating mechanism, the influence on the monitoring result caused by the large quantity of microbes accumulated and grown around the floating mechanism due to long-time monitoring can be avoided; because the part that the monitor probe goes into water only has monitor probe body and vertical telescopic link, and is small, and the microorganism growth gathering is few, and the interference that can receive in long-time monitoring process is little, and the monitoring result is more accurate to the degree of depth that the monitor probe deepened the surface of water can be controlled through adjusting vertical telescopic link, can adjust according to the monitoring needs, more convenient monitoring.

Drawings

FIG. 1 is an external view of the structure of the present invention;

FIG. 2 is a schematic view of the extension of the transverse and longitudinal extension rods and the anchor chain of the present invention;

figure 3 is a perspective view of the interior of the flotation mechanism of the present invention.

In the figure: 1. a floating base; 11. a floating plate; 12. a truncated cone box body; 2. an instrument box; 21. a conical cover body; 3. a monitor main body; 31. a monitor probe; 4. a transverse telescopic rod; 5. a longitudinal telescopic rod; 6. a propeller; 61. a fixing plate; 62. a first rotating electrical machine; 7. an anchor chain; 71. positioning an anchor; 72. A chain winding disc; 73. a second rotating electrical machine.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-3, a real-time monitoring device for watershed water environment comprises a floating mechanism and a probe rod mechanism, wherein the floating mechanism comprises an instrument box 2 and a floating base 1 for supporting the instrument box 2, and a monitor main body 3, a wireless transmission module and a power supply which are electrically connected are arranged in the instrument box 2; the probe rod mechanism comprises a transverse telescopic rod 4 and a longitudinal telescopic rod 5, one end of the transverse telescopic rod 4 is fixedly and vertically connected to the outer side wall of the instrument box 2, the other end of the transverse telescopic rod 4 is connected with the top end of the longitudinal telescopic rod 5, the bottom end of the longitudinal telescopic rod 5 is connected with a monitor probe 31, and the monitor probe 31 is electrically connected with the monitor main body 3;

in the utility model, the whole monitoring device can float on the monitored water area by the floating base 1, the instrument box 2 is supported, and the monitor main body 3 is contained in the instrument box 2, so that the monitor main body 3 is supported by the floating base 1 to float on the water surface of the monitored water area;

the outer side of the instrument box 2 is provided with a probe mechanism which comprises a transverse telescopic rod 4 and a longitudinal telescopic rod 5, the transverse telescopic rod 4 can be transversely extended to enable the longitudinal telescopic rod 5 to be far away from the instrument box 2, the longitudinal telescopic rod 5 can be extended to enable the monitor probe 31 at the bottom end of the transverse telescopic rod 4 to be deep under the water surface, and the distance between the monitor probe 31 and the floating mechanism and the depth of the monitor probe deep into the water body can be controlled by controlling the lengths of the transverse telescopic rod 4 and the longitudinal telescopic rod 5;

when the probe 31 of the monitor is far away from the floating mechanism, the influence on the monitoring result caused by the large quantity of microbes accumulated and grown around the floating mechanism due to long-time monitoring can be avoided; because the part of the monitor probe 31 entering water is only the monitor probe 31 body and the longitudinal telescopic rod 5, the volume is small, the growth and aggregation of microorganisms are less, the interference in the long-time monitoring process is small, the monitoring result is more accurate, and the depth of the monitor probe 31 penetrating into the water surface can be controlled by adjusting the longitudinal telescopic rod 5, so that the monitor probe can be adjusted according to the monitoring requirement, and the monitoring is more convenient;

the monitor main body 3, the monitor probe 31 and the wireless transmission module are all powered by a power supply, a monitoring result is obtained after the monitor main body 3 receives a signal acquired by the monitor probe 31 and is converted, and the monitoring result can be transmitted back to mechanisms such as a monitoring station by the wireless transmission module, so that the real-time monitoring of the monitoring result is remotely received, and the monitoring of the mechanisms such as the monitoring station on the water body is facilitated;

the common power supply adopts a storage battery, can be charged repeatedly and is practical and convenient for practical use;

monitor probe 31 and the supporting use of monitor main part 3, can select the kind model of monitor according to the in-service use demand, and pull down its monitor probe, it all can to adopt data line connection or wireless module to connect between, general monitor probe 31 has born various sensors and has carried out data acquisition, so long as data can pass monitor main part 3 back, do not influence the monitoring result, the size of instrument box 2 of float mechanism is formulated according to the volume of the monitor of in-service use also need be according to the in-service use.

Specifically, as shown in fig. 3, the floating base 1 is an inverted truncated cone box 12 and a floating plate 11 fixedly sleeved on the periphery of the truncated cone box 12 correspondingly, and the top of the truncated cone box 12 is fixedly connected with the bottom of the instrument box 2;

the floating plate 11 is the buoyancy source of the whole monitoring device, so that the monitoring device can float without other acting forces, and the floating base 1 is in an inverted cone frustum shape, has good stability in water and is more convenient to use.

Further, as shown in fig. 3, a plurality of groups of pushing mechanisms are arranged at the bottom of the truncated cone housing 12, a plurality of pushing mechanisms are provided with a pushing remote controller, each pushing mechanism comprises a first rotating motor 62, a fixing plate 61, a rotating shaft and a propeller 6, the top end of the fixing plate 61 is vertically connected to the outer side of the bottom of the truncated cone housing 12, one side of the bottom end of the fixing plate 61 is rotatably connected with one end of the rotating shaft, the other end of the rotating shaft is fixedly connected with a middle shaft of the propeller 6, a hole is formed in the bottom wall of the truncated cone housing 12 corresponding to the pushing mechanism in a penetrating manner, the first rotating motor 62 is fixedly arranged in the truncated cone housing 12 and connected with a power supply, a transmission mechanism is connected between the first rotating motor 62 and the rotating shaft through the hole and drives; the transmission mechanism comprises a corresponding belt and two rotating wheels, grooves are formed in the circumferential direction of the outer sides of the rotating wheels, the rotating wheels are fixedly sleeved on the outer sides of one ends, close to the fixing plate 61, of the rotating shafts and the outer sides of rotor shafts of the first rotating motors 62 respectively, and the belt is sleeved in the grooves in the outer sides of the two rotating wheels.

A plurality of groups of pushing mechanisms are arranged at the bottom of the truncated cone box body 12, and corresponding pushing remote controllers are configured to control the working of the pushing mechanisms, so that the whole monitoring device is pushed in a water body; in the pushing mechanism, a first rotating motor 62 is adopted to drive a propeller 6 connected with a rotating shaft, the rotation of the propeller 6 acts on a water body, so that a pushing force is generated to push the whole monitoring device to move, and it is noted that the movement and the steering of the monitoring device in the water body are realized by controlling the pushing mechanism by pushing a remote controller, and when the monitoring device needs to move forwards, the rotating speeds of the first rotating motors 62 for pushing the remote controller to control the two pushing mechanisms are the same, so that the monitoring device can move forwards linearly; when the monitoring device needs to turn, the first rotating motors 62 for pushing the remote controller to control the two pushing mechanisms rotate differently, so that acting forces generated by the propellers 6 are different, and the deflection of the advancing angle of the monitoring device is realized, specifically, the side with the higher rotating speed deflects to the side with the lower rotating speed.

Furthermore, the outer surface of the propeller 6, the outer surface of the rotating shaft, the outer surface of the fixed plate 61 and the outer surface of the transmission mechanism are coated with anti-corrosion coatings, the common fixed plate 61 is made of wood or metal, the propeller 6, the rotating shaft and the transmission mechanism are made of metal, and are easy to corrode and rust in water, and the service life of the propeller can be prolonged after the anti-corrosion coatings are added.

Specifically, as shown in fig. 2 and 3, a positioning mechanism is further disposed at the bottom of the truncated cone casing 12, the positioning mechanism is provided with a positioning remote controller, the positioning mechanism includes a second rotating motor 73, a chain winding disc 72, an anchor chain 7 and a positioning anchor 71, the second rotating motor 73 is fixed in the truncated cone casing 12 and connected to a power supply, the chain winding disc 72 is fixedly sleeved outside a rotor shaft of the second rotating motor 73, the anchor chain 7 is connected between the positioning anchor 71 and the chain winding disc 72, a positioning hole is formed in the bottom wall of the truncated cone casing 12 corresponding to the positioning mechanism in a penetrating manner, the anchor chain 7 passes through the positioning hole, the top of the anchor chain 7 is wound on the chain winding disc 72, and the positioning remote controller is used for controlling the rotation of the second rotating motor 73;

the monitoring device controls the positive and negative rotation of a second rotating motor 73 of the positioning mechanism by the positioning remote controller, so that the length of the anchor chain 7 extending into the water is controlled, and when the monitoring device needs to be stopped at a certain position in the water body, the anchor chain 7 is lengthened, so that the positioning anchor 71 is sunk, and positioning is realized; when the monitoring device needs to be moved, the anchor chain 7 is retracted, and the positioning anchor 71 is lifted, so that the next movement operation is performed.

Furthermore, the surface of the chain winding disc 72, the surface of the anchor chain 7 and the surface of the positioning anchor 71 are coated with anti-corrosion coatings, so that the anti-corrosion coatings can be protected from corrosion, and the service life of the positioning anchor is prolonged.

Specifically, as shown in fig. 3, a conical cover 21 is disposed at the top end of the instrument box 2, and the diameter of the bottom surface of the conical cover 21 is larger than the diameter of the upper bottom surface of the truncated cone box 12, so that rainwater can be prevented from falling to the top of the truncated cone box 12 and water can be prevented from entering the box when raining.

Specifically, horizontal telescopic link 4 and longitudinal telescoping rod 5 are electric telescopic handle, electric telescopic handle all with power electric connection, electric telescopic handle has all set the remote controller, conveniently controls the length of horizontal telescopic link 4 and longitudinal telescoping rod 5 to better application, and electric telescopic handle's technique is very ripe on market, so the utility model discloses an electric telescopic handle can make things convenient for staff's control and use.

It should be noted that, the remote controller, the positioning remote controller and the remote controller of the electric telescopic rod are pushed, integrated processing can be performed, so that a worker can control the monitoring device conveniently.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A real-time monitoring device for watershed water environment is characterized in that: the device comprises a floating mechanism and a probe rod mechanism, wherein the floating mechanism comprises an instrument box (2) and a floating base (1) for supporting the instrument box (2), and a monitor main body (3), a wireless transmission module and a power supply which are electrically connected are arranged in the instrument box (2);

the probe rod mechanism comprises a transverse telescopic rod (4) and a longitudinal telescopic rod (5), one end of the transverse telescopic rod (4) is fixedly and vertically connected with the outer side wall of the instrument box (2), the other end of the transverse telescopic rod (4) is connected with the top end of the longitudinal telescopic rod (5), the bottom end of the longitudinal telescopic rod (5) is connected with a monitor probe (31), and the monitor probe (31) is electrically connected with a monitor main body (3).

2. The device for monitoring the watershed water environment in real time as claimed in claim 1, wherein: the floating base (1) is an inverted truncated cone box body (12) and a floating plate (11) which is correspondingly and fixedly sleeved on the periphery of the truncated cone box body (12), and the top of the truncated cone box body (12) is fixedly connected with the bottom of the instrument box (2).

3. The device for monitoring the watershed water environment in real time as claimed in claim 2, wherein: the bottom of the truncated cone box body (12) is provided with a plurality of groups of pushing mechanisms, the pushing mechanisms are all provided with pushing remote controllers, each pushing mechanism comprises a first rotating motor (62), a fixing plate (61), a rotating shaft and a propeller (6), the top end of the fixing plate (61) is vertically connected to the outer side of the bottom of the truncated cone box body (12), one end of the rotating shaft is rotatably connected to one side of the bottom end of the fixing plate (61), the other end of the rotating shaft is fixedly connected with a middle shaft of the propeller (6), a hole penetrates through the bottom wall of the truncated cone box body (12) corresponding to the position of the pushing mechanism, the first rotating motor (62) is fixedly arranged in the truncated cone box body (12) and is connected with a power supply, a transmission mechanism penetrates through the hole between the first rotating motor (62) and the rotating shaft and drives the rotating shaft to rotate through the transmission, the push remote controller is used for controlling the rotating speed of the first rotating motor (62).

4. The device for monitoring the watershed water environment in real time as claimed in claim 3, wherein: drive mechanism is including corresponding belt and two runners, the outside circumference of runner is equipped with the recess, the pivot is close to the outside of the one end of fixed plate (61) with the outside of the rotor shaft of first rotating electrical machines (62) is fixed the cover respectively and is equipped with the runner, the belt cover is located two in the recess in the runner outside.

5. The device for monitoring the watershed water environment in real time as claimed in claim 3, wherein: and the outer surface of the propeller (6), the outer surface of the rotating shaft, the outer surface of the fixing plate (61) and the outer surface of the transmission mechanism are coated with anti-corrosion coatings.

6. The device for monitoring the watershed water environment in real time as claimed in claim 2, wherein: the bottom of the truncated cone box body (12) is also provided with a positioning mechanism, the positioning mechanism is provided with a positioning remote controller, the positioning mechanism comprises a second rotating motor (73), a chain winding disc (72), an anchor chain (7) and a positioning anchor (71), the second rotating motor (73) is fixed in the truncated cone box body (12) and is connected with a power supply, the chain winding disc (72) is fixedly sleeved on the outer side of a rotor shaft of the second rotating motor (73), an anchor chain (7) is connected between the positioning anchor (71) and the chain winding disc (72), a positioning hole is arranged on the bottom wall of the truncated cone box body (12) in a penetrating way at the position corresponding to the positioning mechanism, the anchor chain (7) penetrates through the positioning hole, the top of the anchor chain (7) is wound on the chain winding disc (72), and the positioning remote controller is used for controlling the rotation of the second rotating motor (73).

7. The device for monitoring the watershed water environment in real time as claimed in claim 6, wherein: and the surfaces of the chain winding disc (72), the anchor chain (7) and the positioning anchor (71) are coated with anti-corrosion coatings.

8. The device for monitoring the watershed water environment in real time as claimed in claim 2, wherein: the top end of the instrument box (2) is provided with a conical cover body (21), and the diameter of the bottom surface of the conical cover body (21) is larger than that of the upper bottom surface of the truncated cone box body (12).

9. The device for monitoring the watershed water environment in real time as claimed in claim 1, wherein: horizontal telescopic link (4) with longitudinal extension pole (5) are electric telescopic handle, electric telescopic handle all with power electric connection, electric telescopic handle all sets the remote controller.

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