CN218907540U - River course environment monitoring buoy - Google Patents

Abstract

The utility model discloses a river channel environment monitoring buoy, which relates to the technical field of environment monitoring and comprises a monitoring chamber, wherein the bottom of the monitoring chamber is fixedly connected with a counterweight chamber, the bottom of the counterweight chamber is fixedly connected with a lifting assembly, the lifting assembly comprises a cable storage chamber, the top of the cable storage chamber is fixedly connected with a plurality of telescopic rods, each telescopic rod is formed by combining a plurality of pipe sleeves, the pipe sleeves are connected in a sliding manner, the top ends of the telescopic rods are fixedly connected to the bottom of the counterweight chamber, the top of the cable storage chamber is fixedly connected with a monitor, the top of the monitor is fixedly connected with a supporting block, the supporting block is rotationally connected with two lower connecting rods, the end parts of the lower connecting rods are rotationally connected with relay rods, the relay rods are rotationally connected with relay rods in a staggered manner, and the upper side of the relay rods are rotationally connected with upper connecting rods. According to the utility model, the lifting assembly is arranged, so that the monitor can measure the indexes of water with different depths, and data which are closer to the river channel environment are comprehensively obtained.

Description

River course environment monitoring buoy

Technical Field

The utility model relates to the technical field of environmental monitoring, in particular to a river channel environment monitoring buoy.

Background

The river channel monitoring buoy has the function of being used for monitoring environmental parameters such as water quality and the like. Therefore, the monitoring buoy is usually provided with equipment such as an electronic detector, and the electronic detector and the like are placed in the accommodating cavity by arranging the accommodating cavity in the buoy, so that the protection and accommodation effects are achieved. However, most of current river monitoring buoys float on the river surface, and the detection device is fixed in position, so that the environmental parameters of water with fixed depth can be detected, and the environmental parameters of water with different depths can not be measured, so that comprehensive environmental parameters which are closer to actual water can be obtained.

Disclosure of Invention

In order to solve the technical problems, the technical scheme provides a river channel environment monitoring buoy, which solves the problems that the current river channel monitoring buoy proposed in the background technology floats on the river surface mostly, the position of a detection device is fixed, the environment parameters of water with fixed depth can be detected only, the environment parameters of water with different depths can not be measured, and the comprehensive environment parameters which are closer to actual water are obtained.

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

the utility model provides a river course environmental monitoring buoy, includes the monitoring room, monitoring room bottom fixedly connected with counter weight room, counter weight room bottom fixedly connected with lifting unit, lifting unit includes cable storage room, cable storage room top fixedly connected with a plurality of telescopic link, the telescopic link comprises a plurality of pipe box combination, sliding connection between the pipe boxes, telescopic link top fixedly connected with is in counter weight room bottom, cable storage room top fixedly connected with monitor, monitor top fixedly connected with supporting shoe, the supporting shoe rotates and is connected with two lower connecting rods, lower connecting rod tip rotates and is connected with the relay pole, the relay pole is crisscross to be rotated and is connected with the relay pole, the upside relay pole tip rotates and is connected with the upper connecting rod, the upper connecting rod top rotates and is connected with the fixed block, fixed block fixedly connected with is in counter weight room bottom, upper connecting rod bottom rear side sliding connection has the lifter, lifter left end sliding connection has the guide bar, guide bar fixedly connected with is in counter weight room bottom, lifter right-hand member threaded connection has the screw, the screw rotates and is connected with in counter weight room bottom.

Preferably, the counterweight chamber is of a hollow structure, a driving motor is fixedly connected in the counterweight chamber, and the output end of the driving motor is fixedly connected with the screw rod.

Preferably, the signal lamps are fixedly connected to two sides of the upper surface of the monitoring chamber, the supporting rod is fixedly connected to the middle of the top of the monitoring chamber, the antenna is fixedly connected to the top end of the supporting rod, the support is fixedly connected to the top end of the supporting rod, and the solar panels are fixedly connected to the support.

Preferably, both sides of the bottom of the monitoring chamber are fixedly connected with anchor ropes, and the bottom ends of the anchor ropes are fixedly connected with anchor hooks.

Preferably, the monitoring room is of a hollow structure, the left side of the inner side of the monitoring room is fixedly connected with a GPS positioning mechanism, the middle of the inner side of the monitoring room is fixedly connected with a water quality sensor, and the monitor is electrically connected with the water quality sensor.

Preferably, the cable storage chamber is of a hollow structure, cables are stored in the cable storage chamber, and the cables are arranged in the telescopic rods.

Preferably, the lifting rod is provided with a chute in a penetrating way, and the end part of the upper connecting rod is connected in the chute in a sliding way.

Compared with the prior art, the utility model provides the river channel environment monitoring buoy which has the following beneficial effects:

through setting up lifting unit, screw rod, relay pole, lifter, last connecting rod and lower connecting rod in the lifting unit can be to the degree of depth adjustment that the monitor is located water for the monitor can be measured the index of the water of different degree of depth, thereby synthesizes the data that obtains more pressing close to the river course environment, and wherein, the lift of telescopic link and cable storeroom cooperation monitor is received line or unwrapping wire to the cable of connecting the monitor.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the internal structure of the monitoring chamber according to the present utility model;

FIG. 3 is a schematic view of the internal structure of the weight chamber of the present utility model;

FIG. 4 is a schematic view of a lifting assembly according to the present utility model;

FIG. 5 is a schematic view of the telescopic rod of the present utility model;

the reference numerals in the figures are:

101. a solar panel; 102. a monitoring chamber; 103. an anchor rope; 104. an anchor hook; 105. an antenna; 106. a support rod; 107. a signal lamp; 108. a counterweight chamber; 109. a GPS positioning mechanism; 110. a water quality sensor; 111. a driving motor;

200. a lifting assembly; 201. an upper connecting rod; 202. a guide rod; 203. a telescopic rod; 204. a lower connecting rod; 205. a monitor; 206. a cable storage chamber; 207. a fixed block; 208. a lifting rod; 209. a screw; 210. a relay lever; 211. and a supporting block.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-5, a river channel environment monitoring buoy comprises a monitoring chamber 102, wherein the bottom of the monitoring chamber 102 is fixedly connected with a counterweight chamber 108, the bottom of the counterweight chamber 108 is fixedly connected with a lifting assembly 200, the lifting assembly 200 comprises a cable storage chamber 206, the top of the cable storage chamber 206 is fixedly connected with a plurality of telescopic rods 203, each telescopic rod 203 is formed by a plurality of pipe sleeves in a combined mode, the pipe sleeves are in sliding connection, the top of the telescopic rod 203 is fixedly connected to the bottom of the counterweight chamber 108, the top of the cable storage chamber 206 is fixedly connected with a monitor 205, the top of the monitor 205 is fixedly connected with a supporting block 211, the supporting block 211 is rotatably connected with two lower connecting rods 204, the end of the lower connecting rod 204 is rotatably connected with a relay rod 210, the end of the relay rod 210 is rotatably connected with a relay rod 210, the upper end of the relay rod 210 is rotatably connected with an upper connecting rod 201, the top of the upper connecting rod 201 is rotatably connected with a fixed block 207, the fixed block 207 is fixedly connected to the bottom of the counterweight chamber 108, the bottom of the upper connecting rod 201 is connected with a lifting rod 208 in a sliding manner, the left end of the lifting rod 208 is slidably connected with a counterweight guide rod 202, the guide rod 202 is fixedly connected to the bottom of the lifting rod 108, the lower end of the guide rod 208 is rotatably connected to the right connecting rod 208 is rotatably connected with the screw rod 108, and the screw rod 209 is rotatably connected to the bottom of the screw rod 209;

when the device is used, the driving motor 111 operates to drive the lifting rod 208 to rotate, so that the lifting rod 208 descends along the guide rod 202, the bottom ends of the upper connecting rods 201 are close to each other through the sliding grooves of the lifting rod 208, the gradient of the relay rod 210 is increased, the monitor 205 is continuously descended, the telescopic rod 203 is extended, the length of the telescopic rod is continuously increased along with the descending depth of the monitor 205, and therefore the monitor 205 can detect indexes of river water with different depths and synthesize the indexes to obtain final data.

Specifically, the weight chamber 108 is of a hollow structure, a driving motor 111 is fixedly connected in the weight chamber 108, and an output end of the driving motor 111 is fixedly connected with the screw 209.

The equal fixedly connected with signal lamp 107 in monitoring room 102 upper surface both sides, fixedly connected with bracing piece 106 in the middle of the monitoring room 102 top, bracing piece 106 top fixedly connected with antenna 105, bracing piece 106 top fixedly connected with support, support fixedly connected with a plurality of solar panel 101, solar panel 101 face each direction for accept the sunshine of different position sun, thereby provide the power for this device.

The two sides of the bottom of the monitoring chamber 102 are fixedly connected with anchor ropes 103, the bottom ends of the anchor ropes 103 are fixedly connected with anchor hooks 104, and the anchor hooks 104 are hooked at the bottom of a river channel and used for positioning the device.

The monitoring room 102 is hollow, the left side of the inner side of the monitoring room 102 is fixedly connected with a GPS positioning mechanism 109, the middle of the inner side of the monitoring room 102 is fixedly connected with a water quality sensor 110, the monitor 205 is electrically connected with the water quality sensor 110,

the cable storage chamber 206 has a hollow structure, cables are stored in the cable storage chamber 206, the cable is arranged in the telescopic rod 203, when the cable storage chamber 206 descends, the cables enter the telescopic rod 203, and when the cable storage chamber 206 ascends, the cables return to the cable storage chamber 206.

The lifting rod 208 is provided with a chute in a penetrating way, and the end part of the upper connecting rod 201 is connected in the chute in a sliding way.

The working principle and the using flow of the utility model are as follows: through setting up lifting unit 200, screw rod 209, relay pole 210, lifter 208, upper connecting rod 201 and lower connecting rod 204 in lifting unit 200 can be to the degree of depth adjustment that monitor 205 is located water for monitor 205 can measure the index of the water of different degree of depth, thereby synthesizes the data that obtains more pressing close to the river course environment more, and wherein, telescopic link 203 and cable storage room 206 cooperate the lift of monitor 205, receive line or unwrapping wire to the cable of connecting monitor 205.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a river course environment monitoring buoy, a serial communication port, including monitoring room (102), monitoring room (102) bottom fixedly connected with counter weight room (108), counter weight room (108) bottom fixedly connected with lifting unit (200), lifting unit (200) are including cable storage chamber (206), cable storage chamber (206) top fixedly connected with a plurality of telescopic link (203), telescopic link (203) are by a plurality of pipe box combination constitution, sliding connection between the pipe boxes, telescopic link (203) top fixedly connected with is in counter weight room (108) bottom, cable storage chamber (206) top fixedly connected with monitor (205), monitor (205) top fixedly connected with supporting shoe (211), supporting shoe (211) rotation is connected with two lower connecting rods (204), lower connecting rod (204) tip rotation is connected with relay link (210), relay link (210) tip rotation is connected with relay link (210), upside relay link (210) tip rotation is connected with upper connecting rod (201), upper connecting rod (201) top rotation is connected with fixed block (207), fixed block (208) fixed connection is in counter weight (208) bottom fixedly connected with lifting guide bar (208) bottom, left side sliding connection has lifting unit (208), the guide rod (202) is fixedly connected to the bottom of the counterweight chamber (108), the right end of the lifting rod (208) is in threaded connection with a screw rod (209), and the screw rod (209) is rotationally connected to the bottom of the counterweight chamber (108).

2. The river course environmental monitoring buoy of claim 1, wherein: the counterweight chamber (108) is of a hollow structure, a driving motor (111) is fixedly connected in the counterweight chamber (108), and the output end of the driving motor (111) is fixedly connected with a screw rod (209).

3. The river course environmental monitoring buoy of claim 1, wherein: the solar energy monitoring device is characterized in that signal lamps (107) are fixedly connected to two sides of the upper surface of the monitoring chamber (102), a supporting rod (106) is fixedly connected to the middle of the top of the monitoring chamber (102), an antenna (105) is fixedly connected to the top of the supporting rod (106), a support is fixedly connected to the top of the supporting rod (106), and a plurality of solar panels (101) are fixedly connected to the support.

4. The river course environmental monitoring buoy of claim 1, wherein: the two sides of the bottom of the monitoring chamber (102) are fixedly connected with anchor ropes (103), and the bottom ends of the anchor ropes (103) are fixedly connected with anchor hooks (104).

5. The river course environmental monitoring buoy of claim 1, wherein: the inside hollow structure that is of monitoring room (102), monitoring room (102) inboard left side fixedly connected with GPS positioning mechanism (109), monitoring room (102) inside centre fixedly connected with water quality sensor (110), monitor (205) and water quality sensor (110) electric connection.

6. The river course environmental monitoring buoy of claim 1, wherein: the cable storage chamber (206) is of a hollow structure, cables are stored in the cable storage chamber (206), and the cables are arranged in the telescopic rod (203).

7. The river course environmental monitoring buoy of claim 1, wherein: the lifting rod (208) is provided with a sliding groove in a penetrating mode, and the end portion of the upper connecting rod (201) is connected in the sliding groove in a sliding mode.

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