CN114353762A

CN114353762A - Wave-proof hydrological water quality monitoring floating platform and use method

Info

Publication number: CN114353762A
Application number: CN202210107058.0A
Authority: CN
Inventors: 张超; 张瀚方; 许文涛; 郐安琪
Original assignee: Yangtze Ecology and Environment Co Ltd
Current assignee: Yangtze Ecology and Environment Co Ltd
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2022-04-15
Anticipated expiration: 2042-01-28
Also published as: CN114353762B

Abstract

The invention provides a wave-proof hydrological water quality monitoring floating platform and a using method thereof. The invention has the beneficial effects that: the height of being convenient for adjust the monitoring platform, comparatively convenient labour saving and time saving during the regulation, the steadiness of increaseing is better, is favorable to reducing the area that the wave tide was patted on the device, is favorable to improving the steadiness that the device supported, is favorable to improving the life-span that the device used, is convenient for install the device fixedly, comparatively convenient labour saving and time saving during the installation, the steadiness of installation is better be favorable to preventing that the device from taking place the slope.

Description

Wave-proof hydrological water quality monitoring floating platform and use method

Technical Field

The invention relates to the technical field of water environment monitoring, in particular to a wave-proof hydrological water quality monitoring floating platform and a using method thereof.

Background

At present, water resources are in short supply and water pollution is serious in China, water quality monitoring is an important basis for water resource management and protection, water quality information provided by water quality monitoring is particularly important, in recent years, the water quality of main waters, rivers and lakes in China generally presents a deterioration trend, and hydrological monitoring tasks are very heavy; the monitoring of waters of sea areas, rivers and lakes, which need to change monitoring points at will, is mainly realized by a buoy type automatic water quality monitoring station, the purposes of timely grasping the water quality condition of key section waters of main watersheds, early warning and forecasting major or watershed water quality pollution accidents, solving disputes of water pollution accidents across administrative watersheds, monitoring the implementation situation of a total control system, discharging the water to reach the standard and the like are achieved by monitoring, and meanwhile, relevant government departments can be timely notified when source water quality pollution occurs, corresponding emergency plans are started, and the safety of urban water supply is ensured.

Current hydrology water quality monitoring platform, mostly all can not height-adjusting, the impact area of monitoring platform contact is great when the great unrestrained bat of area of monitoring platform is patted, make the impact force that the device received great, the impact time has been long the device and has taken place easily and empty, and the unrestrained when patting the monitoring bench of water of patting, influence the operation of monitoring bench equipment easily, make the life-span of equipment use reduce, current hydrology water quality monitoring platform is comparatively troublesome when the installation is fixed, comparatively waste time and energy the problem during the installation, provide a prevent unrestrained hydrology water quality monitoring floating platform for this reason.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a wave-proof hydrological water quality monitoring floating platform and a using method thereof, which are convenient for adjusting the height of a monitoring platform, convenient, time-saving and labor-saving in adjustment, good in stability of height adjustment, beneficial to reducing the area of a wave patted on a device, beneficial to improving the stability of device support, beneficial to improving the service life of the device, convenient for installing and fixing the device, convenient, time-saving and labor-saving in installation, good in stability of installation and beneficial to preventing the device from inclining.

In order to achieve the technical features, the invention is realized as follows: the utility model provides a prevent unrestrained hydrology water quality monitoring floating platform which characterized in that: it includes the monitoring station, the four corners fixedly connected with equipment fixing guard box on monitoring station top, the middle part fixedly connected with climbing body in the monitoring station outside, the middle part on monitoring station top is equipped with heightening mechanism, heightening mechanism's top is equipped with spacing roof, heightening mechanism's bottom is equipped with firm base, firm base's bottom is equipped with fixed establishment.

The height-adjusting mechanism comprises a disc stacking rod, a sliding cavity is fixedly connected to the middle part of the inner side of the monitoring platform, installation fixing grooves are fixedly connected to four positions of the top end of the sliding cavity, a fixing support clamping plate is fixedly connected to the middle part of the top end of the installation fixing groove, a clamp gear is rotatably connected to the middle part of the inner side of the fixing support clamping plate, a first trapezoidal gear is fixedly connected to the middle part of one side of the clamp gear and is located at one end of each of two sides of the fixing support clamping plate, a second trapezoidal gear is connected to the top end of the first trapezoidal gear in a meshed mode, a first adjusting gear is fixedly connected to the top end of the second trapezoidal gear, an installation hanging plate is arranged between the first adjusting gear and the second trapezoidal gear, one side of the installation hanging plate is fixedly connected with two sides of the fixing support clamping plate, and an adjusting gear ring is connected to the outer side of the first adjusting gear in a meshed mode, and one side of the middle part of one end of the adjusting gear ring is connected with a second adjusting gear in a meshing manner.

Fixing mechanism includes main hob, four position swivelling joints of firm base bottom have first pair of hob and the vice hob of second, the vice hob of second is located the inboard of first pair of hob, the middle part swivelling joint of firm base inner chamber bottom has main drive gear, the middle part on main drive gear top is equipped with driving motor, main drive gear's outside meshing is connected with the vice drive gear of third, the outside meshing of the vice drive gear of third is connected with first pair of drive gear, first pair of drive gear's outside meshing is connected with the vice drive gear of second, driving motor's the outside is equipped with the drive power supply box, the middle part fixedly connected with main hob of main drive gear bottom, the middle part of first pair of drive gear bottom is fixedly connected with first pair of hob and the vice hob of second respectively.

The adjusting gear ring is provided with a limiting rotary cavity at the joint of the fixed supporting clamping plate and the monitoring platform, and the size of the outer side of the adjusting gear ring is matched with the size of the inner side of the limiting rotary cavity.

The inboard and the outside of adjusting gear ring all fixedly connected with tooth piece, the plan view of adjusting gear ring is the annular.

The number of the first adjusting gears is four, the number of the mounting hanger plates is four, and the number of the second trapezoidal gears is four.

The quantity of first trapezoidal gear has four groups, the quantity of clamp gear has two sets ofly, the quantity of fixed stay splint has two sets ofly.

The top view of firm base is the cross, the quantity of first pair of hob has two sets ofly, the quantity of the vice hob of second has two sets ofly.

The number of the first auxiliary driving gears is four, the number of the second auxiliary driving gears is two, the number of the third auxiliary driving gears is two, and the side view of the main driving gear is in a horizontal H shape.

A use method of a wave-proof hydrological water quality monitoring floating platform comprises the following steps:

the method comprises the following steps: when the device is installed, the device is lifted to the position of a specified water area, and when a main screw rod arranged at the bottom end of a stabilizing base of the device contacts with the riverbed of the water area, a driving motor drives a main driving gear and the main screw rod to rotate, so that the main screw rod slowly moves downwards and is clamped into the riverbed;

step two: when the first auxiliary screw rod and the second auxiliary screw rod are moved downwards to contact the top end of the river bed, the rotating main driving gear is mutually matched with the first auxiliary driving gear and the second auxiliary driving gear which are connected through the third auxiliary driving gear and the third auxiliary driving gear which are connected in a meshed mode, the first auxiliary screw rod and the second auxiliary screw rod are driven to synchronously rotate and move downwards, so that the first auxiliary screw rod and the second auxiliary screw rod are clamped into the river bed, and the stable base is driven to be installed at the top end of the river bed;

step three: when the device needs to be heightened, the rotating motor drives the second adjusting gear to rotate clockwise, the adjusting gear ring which is meshed and connected with the second adjusting gear and the first adjusting gear rotates clockwise, thereby the second trapezoidal gear fixedly connected with the bottom end of the first regulating gear rotates, the first trapezoidal gear meshed and connected with the second trapezoidal gear drives the hoop gear to rotate clockwise, so that the hoop gear slowly hoops and rises along the groove on the disc stacking rod, the hoop gear stops rising after rising to a specified height, and when the rotating motor drives the second adjusting gear to rotate anticlockwise, the parts are mutually matched to drive the hoop gear to move downwards along the groove hoop on the disc stacking rod anticlockwise and move downwards when the climbing body contacts the water surface, climb to the monitoring station through the climbing body, monitor the hydrology quality of water in the waters through the equipment of the inboard installation of equipment fixing guard box.

The invention has the following beneficial effects:

1. the monitoring floating platform is convenient to adjust the height of the monitoring platform, is convenient, time-saving and labor-saving to adjust, has good stability of height adjustment, is beneficial to reducing the area of a wave patted on a device, improving the stability of supporting the device, prolonging the service life of the device, facilitating the installation and fixation of the device, is convenient, time-saving and labor-saving to install, and has good stability of installation, thereby being beneficial to preventing the device from inclining.

2. When the device is required to be heightened by using the designed heightening mechanism, the rotating motor drives the second adjusting gear to rotate clockwise, the adjusting gear ring which is meshed and connected with the second adjusting gear and the first adjusting gear rotates clockwise, the second trapezoidal gear which is fixedly connected with the bottom end of the first adjusting gear rotates, the first trapezoidal gear which is meshed and connected with the second trapezoidal gear drives the clamp gear to rotate clockwise, so that the clamp gear slowly clamps and rises along the groove on the stacking rod and stops rising after rising to a specified height, when the rotating motor drives the second adjusting gear to rotate anticlockwise, the mutual matching among parts can drive the clamp gear to move downwards along the clamp on the stacking rod anticlockwise along the groove on the stacking rod, when the clamp gear moves downwards to a climbing body to contact with the water surface, the clamp body can climb onto a monitoring table to achieve the height convenient for adjusting the monitoring table, comparatively convenient labour saving and time saving during the regulation, the steadiness of increaseing is better, is favorable to reducing the area that the wave tide was patted on the device, is favorable to improving the steadiness that the device supported, is favorable to improving the life-span that the device used.

3. Through the designed fixing mechanism, when the device is installed, when a main screw rod arranged at the bottom end of a stabilizing base of the device is contacted with a riverbed of a water area, a driving motor drives a main driving gear and the main screw rod to rotate, so that the main screw rod is slowly downwards moved to be clamped into the riverbed, when the main screw rod is downwards moved to the top end of a first auxiliary screw rod and a second auxiliary screw rod, the rotating main driving gear is mutually matched with the first auxiliary driving gear and the second auxiliary driving gear which are meshed and connected through a third auxiliary driving gear and a third auxiliary driving gear which are meshed and connected, so that the first auxiliary screw rod and the second auxiliary screw rod are synchronously rotated and downwards moved, the first auxiliary screw rod and the second auxiliary screw rod are clamped into the riverbed, the stabilizing base is driven to be installed at the top end of the riverbed, the device is conveniently installed and fixed, and is convenient, time and labor are saved during installation, the better steadiness of installation is favorable to preventing that the device from taking place to incline.

Drawings

The invention is further illustrated by the following figures and examples.

Fig. 1 is a schematic structural diagram of an overall perspective view of the present invention.

Fig. 2 is an overall three-dimensional view of the monitoring station and the equipment installation protection box of the invention.

Fig. 3 is an overall three-dimensional view of the monitoring station and heightening mechanism assembly of the present invention.

FIG. 4 is an enlarged view of portion A of FIG. 3 according to the present invention.

Fig. 5 is a schematic structural view of a partial perspective view of the disc stacking rod of the present invention.

Figure 6 is a schematic structural view of a side view cross-sectional view of the stabilizing base of the present invention.

In the figure: 1 monitoring station, 2 equipment fixing protective boxes, 3 climbing bodies, 4 limiting top plates, 5 heightening mechanisms, 51 disc stacking rods, 52 sliding cavities, 53 fixing grooves, 54 fixing support clamping plates, 55 clamp gears, 56 first trapezoidal gears, 57 second trapezoidal gears, 58 mounting hanging plates, 59 first adjusting gears, 510 adjusting gear rings, 511 second adjusting gears, 6 stable bases, 7 fixing mechanisms, 71 main screw rods, 72 first auxiliary screw rods, 73 second auxiliary screw rods, 74 first auxiliary driving gears, 75 second auxiliary driving gears, 76 third auxiliary driving gears, 77 main driving gears, 78 driving motors and 79 driving power boxes.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1:

referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a prevent unrestrained hydrology water quality monitoring floating platform, includes monitoring station 1, the four corners fixedly connected with equipment fixing guard box 2 on 1 top of monitoring station, the middle part fixedly connected with climbing body 3 in the 1 outside of monitoring station, the middle part on 1 top of monitoring station is equipped with heightening mechanism 5, heightening mechanism 5's top is equipped with spacing roof 4, heightening mechanism 5's bottom is equipped with firm base 6, firm base 6's bottom is equipped with fixed establishment 7. Through adopting the monitoring floating platform of above-mentioned structure, its stability is good, in concrete working process, the regulation of realization height that can be convenient, accommodation process easy operation is convenient moreover, after through the altitude mixture control, be favorable to reducing the area that the wave tide patted on the device, be favorable to improving the steadiness that the device supported, be favorable to improving the life-span that the device used, be convenient for install the device fixedly, comparatively convenient labour saving and time saving during the installation, the steadiness of installation is better be favorable to preventing that the device from taking place the slope.

Further, the height-adjusting mechanism 5 comprises a stacking rod 51, a sliding cavity 52 is fixedly connected to the middle of the inner side of the monitoring station 1, four positions at the top end of the sliding cavity 52 are fixedly connected with installation fixing grooves 53, a fixed supporting clamping plate 54 is fixedly connected to the middle of the top end of the installation fixing groove 53, a clamping gear 55 is rotatably connected to the middle of the inner side of the fixed supporting clamping plate 54, a first trapezoidal gear 56 is fixedly connected to the middle of one side of the clamping gear 55, the first trapezoidal gear 56 is located at one end of two sides of the fixed supporting clamping plate 54, a second trapezoidal gear 57 is engaged and connected to the top end of the first trapezoidal gear 56, a first adjusting gear 59 is fixedly connected to the top end of the second trapezoidal gear 57, an installation hanging plate 58 is arranged between the first adjusting gear 59 and the second trapezoidal gear 57, one side of the installation hanging plate 58 is fixedly connected to two sides of the fixed supporting clamping plate 54, an adjusting gear ring 510 is engaged and connected to the outer side of the first adjusting gear 59, a second adjusting gear 511 is engaged with one side of the middle of one end of the adjusting gear ring 510. The height of the monitoring station 1 can be adjusted through the height adjusting mechanism 5, and then adjusting power is provided.

In this embodiment, when the device is required to be lifted, the designed lifting mechanism 5 is used, when the device is required to be lifted, the rotating motor drives the second adjusting gear 511 to rotate clockwise, the adjusting gear ring 510 engaged with the second adjusting gear 511 and the first adjusting gear 59 rotates clockwise, so that the second trapezoidal gear 57 fixedly connected with the bottom end of the first adjusting gear 59 rotates, the first trapezoidal gear 56 engaged with the second trapezoidal gear 57 drives the hoop gear 55 to rotate clockwise, so that the hoop gear 55 slowly hoops and rises along the groove on the stacking plate rod 51, and stops rising after rising to a specified height, when the rotating motor drives the second adjusting gear 511 to rotate counterclockwise, the parts are engaged with each other to drive the hoop gear 55 to move down along the groove hoops on the stacking plate rod 51, and when the climbing body 3 contacts the water surface, the climbing body 3 can climb onto the monitoring table 1, played the height of being convenient for adjust the monitoring station, comparatively convenient labour saving and time saving during the regulation, the steadiness of increaseing is better, is favorable to reducing the area that the wave tide was patted on the device, is favorable to improving the steadiness that the device supported, is favorable to improving the life-span that the device used.

Specifically, the fixing mechanism 7 includes a main screw rod 71, four position swivelling joints in firm base 6 bottom have first auxiliary screw pole 72 and second auxiliary screw pole 73, second auxiliary screw pole 73 is located the inboard of first auxiliary screw pole 72, the middle part swivelling joint in firm base 6 inner chamber bottom has main drive gear 77, the middle part on main drive gear 77 top is equipped with driving motor 78, the outside meshing of main drive gear 77 is connected with third auxiliary drive gear 76, the outside meshing of third auxiliary drive gear 76 is connected with first auxiliary drive gear 74, the outside meshing of first auxiliary drive gear 74 is connected with second auxiliary drive gear 75, the outside of driving motor 78 is equipped with drive power supply box 79, the middle part fixedly connected with main screw pole 71 of main drive gear 77 bottom, the middle part of first auxiliary drive gear 74 bottom is fixedly connected with first auxiliary screw pole 72 and second auxiliary screw pole 73 respectively.

In this embodiment, by means of the designed fixing mechanism 7, when the device is installed, the device is lifted to the position of the designated water area, when the main screw rod 71 arranged at the bottom end of the device stabilizing base 6 contacts the riverbed of the water area, the driving motor 78 drives the main driving gear 77 and the main screw rod 71 to rotate, so that the main screw rod 71 slowly moves downwards to be clamped into the riverbed, when the main screw rod 72 and the second sub screw rod 73 move downwards to contact the top end of the riverbed, the first sub driving gear 74 and the second sub driving gear 75 meshed and connected by the rotating main driving gear 77 through the third sub driving gear 76 and the third sub driving gear 76 in meshed connection are mutually matched, the first sub screw rod 72 and the second sub screw rod 73 are driven to synchronously rotate downwards, so that the first sub screw rod 72 and the second sub screw rod 73 are clamped into the riverbed, the stabilizing base 6 is driven to be installed at the top end of the riverbed, and the device is conveniently installed and fixed, comparatively convenient labour saving and time saving during the installation, the steadiness of installation is better to be favorable to preventing that the device from taking place to incline.

Further, the handing-over of adjusting gear ring 510 and fixed stay splint 54 and monitoring station 1 goes out and is equipped with spacing rotatory chamber, and the size in the adjusting gear ring 510 outside matches with the size in spacing rotatory intracavity side, and the inboard and the outside of adjusting gear ring 510 all fixedly connected with tooth piece, and the top view of adjusting gear ring 510 is the annular.

In this embodiment, through the spacing rotatory chamber of design, during the use, be favorable to improving the rotatory steadiness of adjusting gear ring 510, be favorable to preventing that adjusting gear ring 510 from taking place the skew at rotatory in-process track.

Specifically, there are four sets of the first adjusting gears 59, four sets of the mounting hanger plates 58, four sets of the second ladder gears 57, four sets of the first ladder gears 56, two sets of the clip gears 55, and two sets of the fixing support brackets 54.

In this embodiment, through the first adjusting gear 59, second trapezoidal gear 57, first trapezoidal gear 56 and the clamp gear 55 of design, during the use, be convenient for adjust the height of monitoring station 1, the steadiness of clamp gear 55 swivelling movement is better, is favorable to preventing that clamp gear 55 swivelling upward in-process monitoring station 1 from taking place to rock.

Specifically, the top view of the stabilizing base 6 is cross-shaped, the number of the first secondary screw rods 72 is two, the number of the second secondary screw rods 73 is two, the number of the first secondary driving gears 74 is four, the number of the second secondary driving gears 75 is two, the number of the third secondary driving gears 76 is two, and the side view of the main driving gear 77 is horizontal and flat in an "H" shape.

In this embodiment, through the first auxiliary drive gear 74, the second auxiliary drive gear 75, the third auxiliary drive gear 76 and the main drive gear 77 of design, be convenient for drive first auxiliary screw rod 72 group and the synchronous revolution of second auxiliary screw rod 73 during the use, comparatively convenient labour saving and time saving during the rotation is favorable to improving the rotatory steadiness of screw rod.

Example 2:

the method comprises the following steps: when the device is installed, the device is lifted to the position of a specified water area, and when the main screw rod 71 arranged at the bottom end of the device stabilizing base 6 contacts the riverbed of the water area, the driving motor 78 drives the main driving gear 77 and the main screw rod 71 to rotate, so that the main screw rod 71 slowly moves downwards to be clamped into the riverbed;

step two: when the first auxiliary screw rod 72 and the second auxiliary screw rod 73 are moved downwards to contact the top end of the river bed, the first auxiliary drive gear 74 and the second auxiliary drive gear 75 which are meshed and connected through the third auxiliary drive gear 76 and the third auxiliary drive gear 76 which are meshed and connected by the rotating main drive gear 77 are mutually matched, so that the first auxiliary screw rod 72 and the second auxiliary screw rod 73 are driven to synchronously rotate and move downwards, the first auxiliary screw rod 72 and the second auxiliary screw rod 73 are clamped into the river bed, and the stabilizing base 6 is driven to be installed at the top end of the river bed;

step three: when the device needs to be heightened, the rotating motor drives the second adjusting gear 511 to rotate clockwise, by the clockwise rotation of the adjusting gear ring 510 which is in meshed connection with the second adjusting gear 511 and the first adjusting gear 59, so that the second ladder gear 57 fixedly coupled to the bottom end of the first adjusting gear 59 is rotated, the yoke gear 55 is rotated clockwise by the first ladder gear 56 engaged with the second ladder gear 57, so that the clamp gear 55 slowly clamps and rises along the groove on the disc stacking rod 51, and stops rising after rising to a designated height, when the rotating motor drives the second adjusting gear 511 to rotate counterclockwise, the parts are mutually matched to drive the clamp gear 55 to move downwards along the groove clamp on the disc stacking rod 51 anticlockwise and move downwards when the climbing body 3 contacts the water surface, climb to monitoring station 1 through climbing body 3 on, monitor the hydrology quality of water in the waters through the equipment of the inboard installation of equipment fixing guard box.

Claims

1. The utility model provides a prevent unrestrained hydrology water quality monitoring floating platform which characterized in that: it includes monitoring station (1), four corners fixedly connected with equipment fixing guard box (2) on monitoring station (1) top, the middle part fixedly connected with climbing body (3) in monitoring station (1) outside, the middle part on monitoring station (1) top is equipped with heightening mechanism (5), heightening mechanism's (5) top is equipped with spacing roof (4), heightening mechanism's (5) bottom is equipped with firm base (6), the bottom of firm base (6) is equipped with fixed establishment (7).

2. The wave-resistant hydrology and water quality monitoring floating platform according to claim 1, characterized in that: the height-adjusting mechanism (5) comprises a disc stacking rod (51), a sliding cavity (52) is fixedly connected to the inner side of the monitoring platform (1), installation fixing grooves (53) are fixedly connected to four positions of the top end of the sliding cavity (52), a fixed supporting clamping plate (54) is fixedly connected to the middle of the top end of the installation fixing groove (53), a clamp gear (55) is rotatably connected to the inner side of the fixed supporting clamping plate (54), a first trapezoidal gear (56) is fixedly connected to the middle of one side of the clamp gear (55), the first trapezoidal gear (56) is located at one end of each of two sides of the fixed supporting clamping plate (54), a second trapezoidal gear (57) is connected to the top end of the first trapezoidal gear (56) in a meshed mode, a first adjusting gear (59) is fixedly connected to the top end of the second trapezoidal gear (57), and an installation hanging plate (58) is arranged between the first adjusting gear (59) and the second trapezoidal gear (57), one side of installation hanger plate (58) and the both sides fixed connection of fixed stay splint (54), the outside meshing of first adjusting gear (59) is connected with adjusting gear ring (510), the meshing of one side at adjusting gear ring (510) one end middle part is connected with second adjusting gear (511).

3. The wave-resistant hydrology and water quality monitoring floating platform according to claim 1, characterized in that: the fixing mechanism (7) comprises a main screw rod (71), four directions of the bottom end of the stabilizing base (6) are rotatably connected with a first auxiliary screw rod (72) and a second auxiliary screw rod (73), the second auxiliary screw rod (73) is positioned on the inner side of the first auxiliary screw rod (72), the middle part of the bottom end of the inner cavity of the stabilizing base (6) is rotatably connected with a main driving gear (77), the middle part of the top end of the main driving gear (77) is provided with a driving motor (78), the outer side of the main driving gear (77) is meshed with a third auxiliary driving gear (76), the outer side of the third auxiliary driving gear (76) is meshed with a first auxiliary driving gear (74), the outer side of the first auxiliary driving gear (74) is meshed with a second auxiliary driving gear (75), the outer side of the driving motor (78) is provided with a driving power supply box (79), and the middle part of the bottom end of the main driving gear (77) is fixedly connected with the main screw rod (71), the middle part of the bottom end of the first auxiliary driving gear (74) is fixedly connected with a first auxiliary screw rod (72) and a second auxiliary screw rod (73) respectively.

4. The wave-resistant hydrology and water quality monitoring floating platform according to claim 2, characterized in that: the joint of the adjusting gear ring (510) and the fixed supporting clamping plate (54) and the monitoring platform (1) is provided with a limiting rotating cavity, and the size of the outer side of the adjusting gear ring (510) is matched with the size of the inner side of the limiting rotating cavity.

5. The wave-resistant hydrology and water quality monitoring floating platform according to claim 2, characterized in that: the inboard and the outside of adjusting gear ring (510) all fixedly connected with tooth piece, the top view of adjusting gear ring (510) is the annular.

6. The wave-resistant hydrology and water quality monitoring floating platform according to claim 2, characterized in that: the number of the first adjusting gears (59) is four, the number of the mounting hanger plates (58) is four, and the number of the second trapezoidal gears (57) is four.

7. The wave-resistant hydrology and water quality monitoring floating platform according to claim 2, characterized in that: the number of the first trapezoidal gears (56) is four, the number of the hoop gears (55) is two, and the number of the fixed supporting clamping plates (54) is two.

8. The wave-resistant hydrology and water quality monitoring floating platform according to claim 3, characterized in that: the top view of firm base (6) is the cross, there are two sets for the quantity of first pair screw rod (72), there are two sets for the quantity of second pair screw rod (73).

9. The wave-resistant hydrology and water quality monitoring floating platform according to claim 3, characterized in that: the number of the first auxiliary driving gears (74) is four, the number of the second auxiliary driving gears (75) is two, the number of the third auxiliary driving gears (76) is two, and the side view of the main driving gear (77) is in a horizontal H shape.

10. The use method of the wave-proof hydrology and water quality monitoring floating platform of any one of claims 1-9, characterized by comprising the following steps:

the method comprises the following steps: when the device is installed, the device is lifted to a position of a designated water area, and when a main screw rod (71) arranged at the bottom end of a device stabilizing base (6) contacts with the riverbed of the water area, a driving motor (78) drives a main driving gear (77) and the main screw rod (71) to rotate, so that the main screw rod (71) slowly moves downwards to be clamped into the riverbed;

step two: when the first auxiliary screw rod (72) and the second auxiliary screw rod (73) are moved downwards to contact the top end of the river bed, the first auxiliary drive gear (74) and the second auxiliary drive gear (75) which are meshed and connected through a third auxiliary drive gear (76) and a third auxiliary drive gear (76) which are meshed and connected by a rotating main drive gear (77) are mutually matched, so that the first auxiliary screw rod (72) and the second auxiliary screw rod (73) are driven to synchronously rotate and move downwards, the first auxiliary screw rod (72) and the second auxiliary screw rod (73) are clamped into the river bed, and the stabilizing base (6) is driven to be installed at the top end of the river bed;

step three: when the device needs to be heightened, the rotating motor drives the second adjusting gear (511) to rotate clockwise, the adjusting gear ring (510) which is meshed and connected with the second adjusting gear (511) and the first adjusting gear (59) rotates clockwise, the second trapezoidal gear (57) which is fixedly connected with the bottom end of the first adjusting gear (59) rotates, the first trapezoidal gear (56) which is meshed and connected with the second trapezoidal gear (57) drives the hoop gear (55) to rotate clockwise, the hoop gear (55) slowly hoops and rises along the groove on the disc stacking rod (51) and stops rising after rising to a specified height, when the rotating motor drives the second adjusting gear (511) to rotate anticlockwise, the parts are mutually matched to drive the hoop gear (55) to move downwards along the hoop on the disc stacking rod (51) anticlockwise and move downwards to the water surface when the climbing body (3) contacts with the water surface, climb to monitoring station (1) through climbing body (3), monitor the hydrology quality of water in the waters through the equipment of the inboard installation of equipment fixing guard box.