CN218766899U - Floating body bracket for water quality monitoring - Google Patents

Abstract

The utility model discloses a body support for water quality monitoring, including body and the support on installing it, the support includes main grudging post, main beam and stores pylon, and main grudging post includes the perpendicular stand that connects downwards in roof and roof both ends, and the stores pylon includes the hanger plate that connects upwards perpendicularly in layer board and layer board both ends, respectively installs a main grudging post on the body of body centre bore both sides, connects with the main beam between two main grudging posts are with the side, and two stores pylons are hung to main beam below, and the L type layer board of two stores pylons sets up in opposite directions, forms the instrument box and presss from both sides the platform, and the support top is used for installing solar panel, the utility model discloses all be equipped with the slotted hole on main grudging post roof and the main beam to solar panel and instrument box are fixed to the mode of slide rail, compatible multiple installation size, and the dismouting is swiftly convenient, and instrument box installs in solar panel below circulation of air all around, does not influence circuit work because of high temperature.

Description

Floating body bracket for water quality monitoring

Technical Field

The utility model relates to a water environment monitoring field, in particular to body support for water quality monitoring.

Background

The eutrophication of water bodies in lakes, rivers and reservoirs causes excessive blue algae propagation, water bloom outbreak, fresh water resource pollution, serious damage to the water ecological environment and influence on economic and social development. The high-frequency monitoring of the water environment is helpful for predicting the cyanobacterial bloom outbreak and the water environment restoration of eutrophic lakes. The aquaculture pond also needs to monitor the water environment parameters in real time so as to take corresponding production management measures, such as oxygenation and the like.

The wireless-based water environment monitoring system is convenient to deploy and easy to use, and is widely popularized and applied. The sensor and the power supply and other devices used for monitoring the water environment are arranged on a floating body (such as a floating ring) so as to float on the water surface. In the existing device, devices such as a circuit, a power supply and the like are often arranged in a larger closed space on a floating body to play a better waterproof role, but the existing device also has a larger defect, a shell of the closed space is exposed to sunlight, in summer, the direct irradiation of the sunlight can enable the temperature in the closed space to be above 60 ℃ for a long time, the use safety of a battery is influenced, the service life of the battery can be shortened, and the long-time high temperature can also influence the normal work of the circuit.

The wireless-based water environment monitoring system needs to work in the field for a long time, and the power supply of the wireless-based water environment monitoring system is usually a solar panel and an energy storage battery. The existing design is insufficient for the compatibility of solar panels with different specifications, the maintenance and replacement of equipment in the later period are influenced, and if the production size of the solar panels is changed, the mass production of the water environment monitoring equipment is also influenced due to insufficient compatibility.

Disclosure of Invention

To the problem that exists among the prior art, the utility model provides a body support for water quality monitoring to solar panel and instrument box are fixed to slotted hole's mode, but compatible multiple mounting dimension, and the dismouting is swift convenient, and the instrument box is installed in solar panel below circulation of air all around, does not influence circuit work because of high temperature.

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

the utility model provides a body support for water quality monitoring, includes the support of installation on the body, the support includes main grudging post, main beam and stores pylon, and main grudging post includes the perpendicular stand that erects downwards in roof and roof both ends, and the stores pylon includes the perpendicular inverted L type hanger plate that connects upwards in layer board both ends of the layer board that the end was personally submitted the L type, and body bilateral symmetry respectively installs a main grudging post, connects with the main beam between the same side of two main grudging posts, and two stores pylons are pegged graft to the main beam below, and the layer board of two stores pylons sets up in opposite directions, forms the instrument box and presss from both sides the platform, and the support top is used for installing solar panel.

The solar panel is characterized in that long slotted holes in the plate length direction are formed in the outer side edge portion of the top plate of the main vertical frame, the main cross beam and the top surface of the hanging frame hanging plate, the long slotted holes in the two ends of the top plate and the main cross beam are overlapped and fixed through bolts, the long slotted holes in the top surface of the hanging plate are fixed in the long slotted holes in the main cross beam through bolts, and the side of the solar panel is fixed in the long slotted holes in the main cross beam or the top plate of the main vertical frame through bolts. The long slotted hole can be fixed in any optional position, is compatible with installation of various sizes, and improves the universality.

The improved scheme is that the top edge of the side plate of the supporting plate is externally connected with a horizontal fixing plate, two side cross beams are respectively erected at the same side ends of the two fixing plates, and two side cross beams with L-shaped end surfaces are arranged back to clamp the middle instrument box. The periphery of the instrument box is clamped and fixed, so that the instrument box is more stably placed.

The further improvement scheme is that long slotted holes in the plate length direction are formed in the fixing plate and the side beam bottom plate, and the long slotted holes are overlapped and fixed through bolts. The position of the side beam arranged on the fixed plate can be adjusted according to the different specifications and sizes of the instrument box.

The improved scheme is that the top plate, the main cross beam, the side cross beams and the long slotted holes in the fixing plate of the main vertical frame are distributed at intervals, and the ends of the long slotted holes formed in the upper ends of the top plates of the main cross beam, the side cross beams, the fixing plate and the hanging plate are openings. The end of the long slotted hole is a through opening, so that the mounting component can be conveniently dismounted from the opening.

The improved scheme is that one side of the long groove hole on the top plate and the fixed plate of the main vertical frame is bent downwards, two sides of the long groove hole on the main beam are bent downwards to form flanges, and the bolt cap screwed in the long groove hole is prismatic. When the bolt is screwed, the prismatic bolt cap abuts against the blocking edge in the rotation process, the prismatic bolt cap cannot rotate continuously, and the screwing is more convenient.

The further improvement scheme is that diagonal hanging and carrying plates for fixing the sensors are arranged on the columns on the oblique opposite sides of the two main vertical frames, fixing holes are formed in the hanging and carrying plates, and the middle point of the connecting line of the fixing holes in the two vertical columns is located on the central shaft of the floating body. The mounting plate is used for mounting the sensor, the diagonal line is symmetrically drawn, the center of gravity of the whole equipment behind the mounting sensor is located on the central shaft of the floating body, the floating body support floats in water and is not prone to tipping, and the stability of the whole equipment on the water surface is guaranteed.

The improved scheme is that the fixing holes in the hanging and carrying plate are arranged at intervals in different heights. The sensor can be placed in different depth positions in water by being connected to the fixing holes with different heights.

The improved scheme is that the upright post of the main upright post is provided with a spring clip for clamping the cable. The elastic sheet clamp fixes the cable of the solar panel, so that the cable abrasion caused by the water surface shaking of the equipment in the field work can be reduced; and the cable is fixed during convenient installation and maintenance, so that the connector of the cable is prevented from falling into water.

The further improvement scheme is that the bottom of the upright post is connected with a bottom foot, the upper surface of the floating body is provided with a mounting groove, and a bottom foot screw is screwed in the mounting groove.

1. The solar panel is fixed in a long slotted hole mode, and the solar panel with various installation sizes can be compatible; the instrument box is also fixed in a slotted hole mode and can be compatible with instrument boxes with various sizes.

2. The circuit that is responsible for communicating with sensor and server is installed in the instrument box that the size is less, and the instrument box is installed in solar panel's below, and solar panel's shading can avoid the instrument box by sunshine insolate, and instrument box circulation of air all around to make the highest temperature in the box only be temperature or be less than temperature a little.

3. The vertical columns of the main vertical frame are provided with two mounting plates for mounting the sensors at opposite angles, and the center of gravity of the whole equipment is located on the central axis of the floating body after the sensors are mounted, so that the stability of the whole equipment on the water surface is ensured. A plurality of different heights are arranged in the fixing holes in the further hanging and supporting plate, so that the depth of the sensor to be hung in water can be conveniently adjusted.

4. The spring clip is arranged on the upright post of the main upright frame and can fix the cable of the solar panel, so that the cable abrasion caused by the water surface shaking of the equipment in the field work can be reduced; the cable is convenient to fix during installation and maintenance, and the connector of the cable is prevented from falling into water.

5. When the bolt nut was twisted and is adorned the fixed bolster, because of the narrow and small hindrance of operating space, it was very inconvenient to install, the utility model relates to a prism bolt cap bends into the flange under the elongated slot limit on roof, main beam, the fixed plate of main grudging post, when twisting the dress bolt, supports in the prism bolt cap is rotatory to lean on the flange, can not last with changeing, more conveniently twist the dress.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic bottom view of the main stand in an inclined state;

FIG. 3 is a schematic structural view of a main beam;

FIG. 4 is a schematic structural view of an end face of a main beam;

FIG. 5 is a schematic view of a hanger structure;

FIG. 6 is a schematic view of a side rail structure;

FIG. 7 is a schematic view of a prismatic nut.

Detailed description of the preferred embodiments

As shown in fig. 1 to 7, the utility model discloses a body 1 and the support 2 of installing on it, support 2 includes main upright frame 21, main beam 22, stores pylon 23, side beam 25, main upright frame 21 includes roof 211 and the perpendicular downward stand 212 of connecting in roof both ends, be equipped with a plurality of spaced long slot holes 24 of board length direction on the roof 211 outside limit, bend into flange 27 under the long slot hole outside limit, body centre bore bilateral symmetry respectively installs a main upright frame 21, connect with main beam 22 between two main upright frames 21 and the side, bolt fastening is adopted with the coincide of main beam 22 last both ends long slot hole on the roof 211, main beam 22 below hangs and connects two stores pylons 23, stores pylon 23 includes that the end is the L type layer board 231 and the perpendicular upward inverted L type hanger plate 232 that connects in layer board both ends, the long slot hole adopts the bolt fastening in main beam 22's long slot side 24 on the top panel of hanger plate 232, the L type layer board 231 of two sets up in opposite directions, form the platform is put to the instrument box, solar panel adopts the bolt fastening in main beam 24. Solar panel installs at 2 top surfaces of support, can be with the daylighting, can shelter from the instrument box of below again, prevents that the instrument box from being exposed to the sun. The top edge of the side plate of the supporting plate 231 is externally connected with a horizontal fixing plate 233, two side beams 25 are respectively erected at the same side ends of the two fixing plates 233, long slotted holes 24 in the plate length direction are arranged on the bottom plates of the fixing plates 233 and the side beams 25 and are overlapped, the fixing plates 233 and the side beams 25 are fixed by bolts, and the two side beams 25 with L-shaped end surfaces are arranged in a back direction to clamp the middle instrument box.

The vertical columns 212 at the oblique opposite sides of the two main vertical frames 21 are provided with diagonal hanging and supporting plates 28 for fixing the sensors, and three fixing holes are arranged on the hanging and supporting plates 28 at intervals and at different heights. The sensors are symmetrically mounted at opposite angles, so that the center of gravity of the whole equipment is positioned on the central shaft of the floating body, and the stability of the whole equipment on the water surface is ensured. The upright post 212 of the main upright frame 21 is provided with a spring clip 29 for clamping the cable, and the spring clip can fix the cable of the solar panel, so that the cable abrasion caused by the water surface shaking of the equipment in the field work is reduced; and the cable is fixed during convenient installation and maintenance, so that the connector of the cable is prevented from falling into water.

The top plate 211, the main cross beam 22, the side cross beams 25 and the long slotted holes 24 on the fixing plate 233 of the main vertical frame are arranged at intervals, so that the fixing position can be conveniently adjusted, and the strength of the fixing plate is also ensured. The ends of the slotted holes formed at the upper ends of the top plates of the main cross beam 22, the side cross beams 25, the fixed plate 233 and the hanging plate 232 are openings 26.

One side of the slotted hole on the top plate 211 and the fixing plate 233 of the main vertical frame is bent downwards, two sides of the slotted hole on the main beam 22 are bent downwards to form a flange 27, and the bolt cap 20 screwed in the slotted hole is prismatic.

Footing 213 is connected to the bottom of upright post 212, the mounting groove is established on the body 1 upper surface, footing 213 screw is installed in the mounting groove, the installation is firm.

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 (10)

1. The utility model provides a body support for water quality monitoring, includes support (2) of installation on body (1), its characterized in that: the support includes main grudging post (21), main beam (22) and stores pylon (23), main grudging post (21) are including roof (211) and the perpendicular stand (212) that connects downwards in roof both ends, stores pylon (23) are including the perpendicular inverted L type hanger plate (232) that connects upwards of layer board both ends of being the layer board (231) of L type and layer board both ends, main grudging post (21) are respectively installed to the body bilateral symmetry, connect with main beam (22) between two main grudging posts (21) homonymy ends, two stores pylon (23) are hung and connect to main beam (22) below, layer board (231) of two stores pylons set up in opposite directions, form the instrument box and press from both sides and put the platform, support (2) top surface is used for installing solar panel.

2. The floating body bracket for monitoring water quality according to claim 1, which is characterized in that: the long slotted holes (24) in the plate length direction are formed in the outer side edge of the top plate (211) of the main vertical frame, the main cross beam (22) and the top surface of a hanging frame hanging plate (232), the long slotted holes (24) in the two ends of the top plate (211) and the main cross beam (22) are overlapped and fixed through bolts, the long slotted hole in the top surface of the hanging plate (232) is fixed in the long slotted hole (24) in the main cross beam (22) through bolts, and the side edge of a solar panel is fixed in the long slotted hole (24) in the top plate of the main vertical frame or the main vertical frame through bolts.

3. The floating body bracket for monitoring water quality according to claim 1, which is characterized in that: the top edges of the side plates of the supporting plate (231) are externally connected with horizontal fixing plates (233), two side beams (25) are respectively erected at the same side ends of the two fixing plates (233), and the two side beams (25) with L-shaped end faces are arranged back to clamp the middle instrument box.

4. The floating body bracket for water quality monitoring according to claim 3, characterized in that: and long slotted holes (24) in the plate length direction are formed in the bottom plates of the fixing plate (233) and the side beam (25), and the long slotted holes are overlapped and fixed by bolts.

5. The floating body bracket for water quality monitoring according to claim 2 or 4, wherein: the long slotted holes (24) on the top plate (211), the main cross beam (22), the side cross beam (25) and the fixing plate (233) of the main vertical frame are arranged at intervals, and the ends of the long slotted holes formed in the upper end parts of the top plates of the main cross beam (22), the side cross beam (25), the fixing plate (233) and the hanging plate (232) are openings (26).

6. The floating body support for water quality monitoring according to claim 2 or 4, wherein: one side of a slotted hole on a top plate (211) and a fixed plate (233) of the main vertical frame is bent downwards, two sides of the slotted hole on the main beam (22) are bent downwards to form flanges (27), and a bolt cap (20) screwed in the slotted hole is prismatic.

7. The floating body bracket for water quality monitoring according to claim 1, which is characterized in that: diagonal hanging and carrying plates (28) for fixing the sensors are arranged on the upright columns (212) on the oblique opposite sides of the two main upright frames (21), fixing holes are formed in the hanging and carrying plates (28), and the middle point of the connecting line of the fixing holes in the two upright columns is located on the central shaft of the floating body (1).

8. The floating body bracket for water quality monitoring according to claim 7, which is characterized in that: the hanging and carrying plate (28) is provided with fixing holes at intervals with different heights.

9. The floating body bracket for monitoring water quality according to claim 1, which is characterized in that: and the upright post (212) of the main upright frame (21) is provided with a spring clip (29) for clamping the cable.

10. The floating body bracket for monitoring water quality according to claim 1, which is characterized in that: footing (213) is connected to stand (212) bottom, and the mounting groove is established to body (1) upper surface, and footing (213) screw is twisted and is adorned in the mounting groove.

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