CN216013147U

CN216013147U - Remote control water quality transparency measuring device

Info

Publication number: CN216013147U
Application number: CN202121704965.0U
Authority: CN
Inventors: 刘光明; 夏光耀; 刘佳
Original assignee: Guangzhou Chongkang Mechanical And Electrical Equipment Installation Engineering Co ltd
Current assignee: Guangzhou Chongkang Mechanical And Electrical Equipment Installation Engineering Co ltd
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2022-03-11
Anticipated expiration: 2031-07-26

Abstract

The utility model discloses a remote control water quality transparency measuring device, which comprises a transparency measuring disc and a telescopic buoy support, wherein the top of the buoy support is provided with a control box, and a wireless control circuit and a power supply module are arranged in the control box; the bottom of the control box is provided with a lifting mechanism; the power supply module is electrically connected with the lifting mechanism for supplying power; the wireless control circuit is connected with the lifting mechanism and remotely controls the work; the transparency measuring disc is connected with the lifting mechanism through a measuring tape with scales and drives the transparency measuring disc to move up and down through the lifting mechanism. The utility model effectively realizes the rapid and convenient water quality transparency detection far away from the bank side/the river channel side by arranging the buoy bracket and the transparency measuring disc, greatly reduces the workload, has small and exquisite volume, can be telescopically folded and stored, and has light weight and convenient carrying.

Description

Remote control water quality transparency measuring device

Technical Field

The utility model relates to the technical field of water quality measuring devices, in particular to a remote control water quality transparency measuring device.

Background

Water quality detection, when water samples such as rivers and lakes are collected in the existing water quality detection industry, wherein the transparency of water quality refers to the clarification degree of the water samples, clean water stones are transparent, and when suspended matters and colloids exist in water, the transparency is reduced; at present, in the water quality transparency detection industry, a common water quality transparency measuring device places a black-and-white measuring plate (Saishi plate) in the middle of a river through a telescopic rod and then observes through naked eyes, but the naked eyes cannot clear and see a graduated scale when the interval is far away, so that the detection data are easy to cause inaccuracy.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the remote control water quality transparency measuring device which has the advantages of simple structure, small volume, light weight, convenience in carrying, lower cost and accurate detection data, and can realize remote control, conveniently and simply measure the water quality transparency.

The present invention achieves the above object by:

the remote control water quality transparency measuring device comprises a transparency measuring disc and a telescopic and adjustable buoy support, wherein the top of the buoy support is provided with a control box, and a wireless control circuit and a power supply module are arranged in the control box; the bottom of the control box is provided with a lifting mechanism; the power supply module is electrically connected with the lifting mechanism for supplying power; the wireless control circuit is connected with the lifting mechanism and remotely controls the work; the transparency measuring disc is connected with the lifting mechanism through a measuring tape with scales and drives the transparency measuring disc to move up and down through the lifting mechanism.

The buoy support is provided with a wireless remote control power device, the wireless remote control power device at least comprises an electric motor, a propeller connected with an output shaft of the electric motor and a PVC protection tube, the electric motor and the propeller are arranged in the PVC protection tube, the PVC protection tube is arranged at the bottom of the buoy support, and a wireless control circuit is connected with the electric motor and controls the working state of the electric motor.

The buoy support is provided with a wireless monitoring camera, and the wireless monitoring camera is arranged at the buoy support and used for monitoring definition data of the transparency measuring disc in real time.

The buoy support is characterized in that a plurality of fixed slide rails and slide rods arranged on the fixed slide rails and connected in a sliding manner are longitudinally arranged on the periphery of the transparency measuring disc, the bottoms of the slide rods are fixedly connected with the transparency measuring disc, and the transparency measuring disc can stably lift, slide and move on the fixed slide rails through the slide rods.

And a balancing weight is arranged at the bottom of the transparency measuring disc.

The buoy support consists of a bottom frame, a top fixing plate and a telescopic upright rod, wherein two ends of the upright rod are respectively connected and fixed with the bottom frame and the top fixing plate; the vertical rod consists of a plurality of sections of telescopic rods, the telescopic rods are sleeved with each other, a fixing piece is arranged between the adjacent telescopic rods, the fixing piece is a positioning hole arranged at the top of the next section of telescopic rod and a positioning column I arranged at the bottom of the previous section of telescopic rod, and the positioning hole and the positioning column I are matched and clamped with each other; the positioning button is connected with the positioning column II and controls the positioning column II to move at the positioning hole; and springs are arranged at the bottoms of the positioning columns I and II.

The lifting mechanism comprises a turbine worm motor and a lifting support, the lifting support comprises a transmission shaft and fixed side plates symmetrically arranged at two ends of the transmission shaft, one end of the transmission shaft is in transmission connection with the output end of the turbine worm motor, the scale tape is connected with the middle of the transmission shaft, and the other end of the scale tape is connected with the transparency measuring disc.

The periphery of the bottom of the buoy support extends to form a plurality of fixing rods, floating rings are arranged on the fixing rods, and the buoy support binds and fixes the floating rings on the fixing rods through a binding belt.

The utility model has the beneficial effects that: the utility model effectively realizes the rapid and convenient water quality transparency detection far away from the bank side/the river channel side by arranging the buoy bracket and the transparency measuring disc, greatly reduces the workload, has small and exquisite volume, can be telescopically folded and stored, and has light weight and convenient carrying.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a bottom view of the present invention;

FIG. 3 is a schematic view of a partial connection structure of a fixed slide rail and a transparency measuring tray according to the present invention;

FIG. 4 is a schematic view of the structure of the tie rod of the present invention;

fig. 5 is a partially enlarged schematic view at a in fig. 1.

In the figure, 1, a transparency measuring disc, 2, a buoy bracket, 3, a control box, 4, a graduated tape, 5, a motor, 6, a propeller, 7, a PVC protective tube, 8, a wireless monitoring camera, 9, a fixed sliding rail, 10, a sliding rod, 11, a balancing weight, 12, a bottom frame, 13, a top fixing plate, 14, a telescopic rod, 15, a positioning hole, 16, a positioning column I, 17, a positioning column II, 18, a positioning button, 19, a spring, 20, a worm gear motor, 21, a transmission shaft, 22, a fixed side plate, 23, a fixed rod, 24, a floating ring and 25 are included.

Detailed Description

Referring to fig. 1 to 5, the remote control water quality transparency measuring device includes a transparency measuring disc 1 and a telescopically adjustable buoy holder 2, a control box 3 is disposed at the top of the buoy holder 2, and a wireless control circuit and a power module are disposed in the control box 3; the bottom of the control box 3 is provided with a lifting mechanism; the power supply module is electrically connected with the lifting mechanism for supplying power; the wireless control circuit is connected with the lifting mechanism and remotely controls the work; the transparency measuring disc 1 is connected with the lifting mechanism through a measuring tape 4 with scales and drives the transparency measuring disc to move up and down through the lifting mechanism. The utility model effectively realizes the rapid and convenient detection of the water quality transparency far away from the bank side/the river channel side by arranging the buoy bracket 2 and the transparency measuring disc 1, greatly reduces the workload, has small and exquisite volume, can be telescopically folded and stored, has light weight and is convenient to carry.

As shown in fig. 2, in order to facilitate the buoy holder 2 to quickly and accurately reach a corresponding positioning water area, the buoy holder 2 is provided with a wireless remote control power device, the wireless remote control power device at least comprises an electric motor 5, a propeller 6 connected with an output shaft of the electric motor 5 and a PVC protection pipe 7, the electric motor 5 and the propeller 6 are arranged in the PVC protection pipe 7, the PVC protection pipe 7 is arranged at the bottom of the buoy holder 2, and the wireless control circuit is connected with the electric motor 5 and controls the working state of the electric motor 5. Therefore, the wireless remote control power device is arranged, and the propeller 6 is driven to rotate by the remote control motor 5, so that the buoy bracket 2 is driven to rapidly and stably run on the water surface to reach a corresponding fixed-point water area.

As shown in fig. 1, in order to facilitate observation of the condition of the transparency measuring disk 1 and thus measure the transparency of the water, the buoy holder 2 is provided with a wireless monitoring camera 8, and the wireless monitoring camera 8 is arranged at the buoy holder 2 to monitor the clarity data of the transparency measuring disk 1 in real time.

As shown in fig. 3, in order to make the transparency measuring disk 1 move down more stably and avoid the transparency measuring disk 1 from being turned over due to the influence of water flow and the like, so as to influence the transparency measurement, the buoy bracket 2 is longitudinally provided with a plurality of fixed slide rails 9 and slide bars 10 arranged on the fixed slide rails 9 and connected in a sliding manner around the transparency measuring disk 1, the bottom of each slide bar 10 is connected and fixed with the transparency measuring disk 1, and the transparency measuring disk 1 is lifted and slid on the fixed slide rails 9 through the slide bars 10 to move stably. Therefore, the transparency measuring disc 1 can stably move downwards or upwards along the direction of the fixed slide rail 9 by the mutual matching of the fixed slide rail 9 and the slide bar 10, so that the overturning accident is effectively avoided, and the accuracy of water quality transparency measurement is effectively improved.

As shown in fig. 1, in order to allow the transparency measuring tray 1 to further smoothly fall into the water, a weight block 11 is provided at the bottom of the transparency measuring tray 1.

As shown in fig. 4, in order to facilitate the carrying and placing of the buoy holder 2, the buoy holder 2 is composed of a bottom frame 12, a top fixing plate 13 and a telescopic vertical rod, and two ends of the vertical rod are respectively connected and fixed with the bottom frame 12 and the top fixing plate 13; the upright rod consists of a plurality of sections of telescopic rods 14, the telescopic rods 14 are sleeved with each other, a fixing piece is arranged between the adjacent telescopic rods 14, the fixing piece is a positioning hole 15 arranged at the top of the next section of telescopic rod 14 and a positioning column I16 arranged at the bottom of the previous section of telescopic rod 14, and the positioning hole 15 and the positioning column I16 are matched and clamped with each other; the bottom of the telescopic rod 14 positioned at the bottommost part is provided with a positioning column II17 and a positioning button 18, the positioning column II is matched and clamped with the positioning hole 15 of the telescopic rod 14, and the positioning button 18 is connected with the positioning column II17 and controls the positioning column II17 to move at the positioning hole 15; and springs 19 are arranged at the bottoms of the positioning columns I16 and II 17. Therefore, the telescopic buoy support 2 can be folded in a telescopic mode during carrying or idling, and carrying and placing are facilitated.

As shown in fig. 5, in order to effectively ensure that the transparency measuring disc 1 can be displaced to water levels of different depths for measurement, the lifting mechanism includes a worm gear motor 20 and a lifting bracket, the lifting bracket includes a transmission shaft 21 and fixed side plates 22 symmetrically disposed at two ends of the transmission shaft 21, one end of the transmission shaft 21 is in transmission connection with an output end of the worm gear motor 20, the scale tape 4 is connected with the middle of the transmission shaft 21, and the other end of the scale tape is connected with the transparency measuring disc 1.

As shown in fig. 1 and 2, in order to effectively ensure that the buoy support 2 can keep balance on the water surface, a plurality of fixing rods 23 extend from the bottom periphery of the buoy support 2, floating rings 24 are arranged on the fixing rods 23, and the floating rings 24 are bound and fixed on the fixing rods 23 by the buoy support 2 through a binding belt 25. The buoy holder 2 is thus balanced against toppling by the provision of the float 24 at the surface of the water, and the float 24 is secured by the provision of the securing lever 23 and the cable tie 25, thereby preventing the float 24 from being detached during use.

Claims

1. Remote control water quality transparency measuring device which characterized in that: the device comprises a transparency measuring disc (1) and a telescopic buoy support (2), wherein a control box (3) is arranged at the top of the buoy support (2), and a wireless control circuit and a power supply module are arranged in the control box (3); the bottom of the control box (3) is provided with a lifting mechanism; the power supply module is electrically connected with the lifting mechanism for supplying power; the wireless control circuit is connected with the lifting mechanism and remotely controls the work; the transparency measuring disc (1) is connected with the lifting mechanism through a measuring tape (4) with scales and drives the transparency measuring disc to move up and down through the lifting mechanism.

2. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: buoy support (2) are equipped with wireless remote control power device, wireless remote control power device comprises motor (5), screw (6) and PVC protection tube (7) with the output shaft of motor (5) at least, motor (5) and screw (6) set up in PVC protection tube (7), and PVC protection tube (7) set up the bottom in buoy support (2), wireless control circuit is connected and the operating condition of control motor (5) with motor (5).

3. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: the buoy support (2) is provided with a wireless monitoring camera (8), and the wireless monitoring camera (8) is arranged at the buoy support (2) to monitor the definition data of the transparency measuring disc (1) in real time.

4. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: the buoy support (2) is longitudinally provided with a plurality of fixed slide rails (9) and slide bars (10) which are arranged on the fixed slide rails and are in sliding connection with the fixed slide rails at the periphery of the transparency measuring disc (1), the bottom of each slide bar (10) is fixedly connected with the transparency measuring disc (1), and the transparency measuring disc (1) can be stably lifted, descended and slid to move on the fixed slide rails (9) through the slide bars (10).

5. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: and a balancing weight (11) is arranged at the bottom of the transparency measuring disc (1).

6. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: the buoy support (2) consists of a bottom frame (12), a top fixing plate (13) and a telescopic vertical rod, and two ends of the vertical rod are respectively connected and fixed with the bottom frame (12) and the top fixing plate (13); the upright rod consists of a plurality of sections of telescopic rods (14), the telescopic rods (14) are sleeved with each other, a fixing piece is arranged between the adjacent telescopic rods (14), the fixing piece is a positioning hole (15) arranged at the top of the next section of telescopic rod (14) and a positioning column I (16) arranged at the bottom of the previous section of telescopic rod (14), and the positioning hole (15) and the positioning column I (16) are matched and clamped with each other; wherein the bottom of the telescopic rod (14) at the bottommost part is provided with a positioning column II (17) and a positioning button (18), the positioning column II (17) is matched and clamped with the positioning hole (15) of the telescopic rod (14), and the positioning button (18) is connected with the positioning column II (17) and controls the positioning column II (17) to move at the positioning hole (15); and springs (19) are arranged at the bottoms of the positioning columns I (16) and II (17).

7. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: the lifting mechanism comprises a worm gear motor (20) and a lifting support, the lifting support comprises a transmission shaft (21) and fixing side plates (22) symmetrically arranged at two ends of the transmission shaft (21), one end of the transmission shaft (21) is in transmission connection with the output end of the worm gear motor (20), the scale tape (4) is connected with the middle of the transmission shaft (21), and the other end of the scale tape is connected with the transparency measuring disc (1).

8. The remotely controlled water quality clarity measurement apparatus of claim 1, wherein: the periphery of the bottom of the buoy support (2) extends to form a plurality of fixing rods (23), floating rings (24) are arranged on the fixing rods (23), and the buoy support (2) is provided with a binding belt (25) to bind and fix the floating rings (24) on the fixing rods (23).