CN219456546U - Novel hydrologic monitoring device - Google Patents

Abstract

The utility model discloses a novel hydrologic monitoring device which comprises a hydrologic monitoring device main body, wherein a mounting box is arranged on the hydrologic monitoring device main body, a solar charging controller, a telemetering terminal and a storage battery are mounted in the mounting box, a solar cell panel matched with the solar charging controller is further arranged on the hydrologic monitoring device main body, an upper mounting rod and a lower mounting rod are arranged on the hydrologic monitoring device main body, a connecting seat is arranged between the upper mounting rod and the lower mounting rod, a first positioning box and a second positioning box are respectively sleeved on the upper mounting rod and the lower mounting rod, and an electric heating belt is arranged in the hydrologic monitoring device main body. This novel hydrologic monitoring device has set up heating mechanism in, when freezing cold phase uses, can effectively avoid monitoring device to produce the inaccurate condition of monitoring result because of reasons such as low temperature, freezing, can effectually protect the processing to monitoring device simultaneously, guarantees hydrologic monitoring device's life.

Description

Novel hydrologic monitoring device

Technical Field

The utility model relates to the technical field of hydrologic monitoring, in particular to a novel hydrologic monitoring device.

Background

The hydrologic industry is continuously developed along with the development of national economy and society, great achievement is achieved, various hydrologic stations are built in China for more than 3 ten thousand places, and a hydrologic station network with complete projects including water level, flow, rainfall, water quality, groundwater, evaporation, sediment and the like and reasonable layout is formed. The hydrologic work also plays an important role in the aspects of water resource development and utilization, engineering construction management, agricultural irrigation, urban water, shipping and the like. The hydrologic monitoring system is suitable for hydrologic departments to monitor hydrologic parameters of rivers, lakes, reservoirs, channels, groundwater and the like in real time. The instrument and equipment for hydrologic test mainly includes patrol car, measuring ship, water level and rainfall self-recording equipment and flow sediment testing equipment. Hydrologic monitoring generally comprises three parts of information acquisition, information storage and information transmission. After hydrologic information is acquired by a sensor or manually, the hydrologic information is recorded and stored in a certain mode, and a certain mode is adopted by a measuring station needing real-time hydrologic information to be transmitted to related departments. The hydrologic monitoring system adopts a wireless communication mode to transmit monitoring data in real time, so that the working efficiency of hydrologic departments can be greatly improved.

The existing hydrologic monitoring device is low in external temperature and large in day and night temperature difference when being used in a freezing period, is extremely easy to freeze on the hydrologic monitoring device, so that the accuracy of monitoring of the hydrologic monitoring device is affected, even if the hydrologic monitoring device can be used at a low temperature, long-term freezing and thawing can cause damage to the hydrologic monitoring device, and the service life of the hydrologic monitoring device is affected.

Disclosure of Invention

The utility model aims to provide a novel hydrologic monitoring device, which aims to solve the problems that the hydrologic monitoring device in the market provided by the background technology can be damaged and the service life of the hydrologic monitoring device is influenced due to long-term freezing and thawing when the hydrologic monitoring device is used in a freezing period.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a novel hydrologic monitoring device, includes the hydrologic monitoring device main part, be equipped with the mounting box in the hydrologic monitoring device main part, and install solar charging controller, telemetering measurement terminal and battery in the mounting box, and still be equipped with in the hydrologic monitoring device main part with solar charging controller matched with solar cell panel, be equipped with mounting rod and lower mounting rod in the hydrologic monitoring device main part, and be equipped with the connecting seat between mounting rod and the lower mounting rod, it is equipped with first positioning box and second positioning box to go up the cover respectively on mounting rod and the lower mounting rod, and is equipped with last cassette and lower cassette respectively on first positioning box and the second positioning box, all be connected with the bracing piece between the lower cassette of going up mounting rod and lower mounting rod and first positioning box and second positioning box, hydrologic monitoring device main part lower extreme is equipped with the base, and base and lower mounting rod intercommunication, it is connected with the mount pad to go up mounting rod upper end one side, and the mount pad side is connected with the installation horizontal pole, be equipped with the electric heat belt in the hydrologic monitoring device main part.

Preferably, the top of the installation box is of an inclined structure, the lower end of the installation box is connected with an installation frame through bolts, and the installation frame is welded and fixed with the upper box seat.

Preferably, the upper ends of the upper box seats are inclined surfaces, and the inclined surfaces at the upper ends of the upper box seats are welded with a through second threading hole seat.

Preferably, the second threading hole seat of the first positioning box is connected with the solar panel through a screw rod, and the second threading hole seat of the second positioning box is connected with the installation box in a penetrating manner.

Preferably, the upper box seat is in sealing connection with the lower box seat through a flange structure, the upper box seat is fixedly welded with the upper mounting rod and the lower mounting rod, and the lower box seat is movably connected with the upper mounting rod and the lower mounting rod through penetration.

Preferably, the side surfaces of the upper mounting rod and the lower mounting rod are welded with first threading hole seats, and the first threading hole seats are connected with the upper box seat and the lower box seat in a clamping manner.

Preferably, the electric heating belt sequentially passes through the base, the lower mounting rod, the second positioning box, the mounting box, the second positioning box, the lower mounting rod, the upper mounting rod, the first positioning box, the mounting cross rod, the upper mounting rod, the lower mounting rod and the base.

Compared with the prior art, the utility model has the beneficial effects that: this novel hydrologic monitoring device has set up heating mechanism in, when freezing cold phase uses, can effectively avoid monitoring device to produce the inaccurate condition of monitoring result because of reasons such as low temperature, freezing, can effectually protect the processing to monitoring device simultaneously, guarantees hydrologic monitoring device's life. This novel hydrologic monitoring device carries out the installation fixed processing of wire and electric heat area through the positioning box, and the positioning box comprises last cassette seat and lower cassette seat, not only can be used for the installation location of installation case, and the maintenance that carries on wire and electric heat area that can be convenient is handled, makes things convenient for hydrologic monitoring device's use.

Drawings

FIG. 1 is a schematic diagram of a novel hydrologic monitoring device according to the present utility model;

FIG. 2 is an enlarged schematic view of the structure of the novel hydrologic monitoring device of FIG. 1A;

fig. 3 is a schematic diagram of a connection structure between a mounting rod and a second positioning box of the novel hydrologic monitoring device.

Fig. 4 is a schematic diagram of a connection structure between a second positioning box and a mounting frame of the novel hydrologic monitoring device.

In the figure: 1. a hydrologic monitoring device body; 2. mounting a cross bar; 3. a mounting base; 4. a solar cell panel; 5. a first positioning box; 6. a support rod; 7. a mounting box; 8. a solar charge controller; 9. a telemetry terminal; 10. a storage battery; 11. a mounting frame; 12. a box base is arranged on the upper box seat; 13. a lower box seat; 14. a second positioning box; 15. a base; 16. an upper mounting rod; 17. a connecting seat; 18. an electric heating belt; 19. a lower mounting rod; 20. a first threading hole seat; 21. and a second threading hole seat.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the novel hydrologic monitoring device comprises a hydrologic monitoring device main body 1, wherein a mounting box 7 is arranged on the hydrologic monitoring device main body 1, a solar charging controller 8, a telemetering terminal 9 and a storage battery 10 are arranged in the mounting box 7, a solar cell panel 4 matched with the solar charging controller 8 is also arranged on the hydrologic monitoring device main body 1, an upper mounting rod 16 and a lower mounting rod 19 are arranged on the hydrologic monitoring device main body 1, a connecting seat 17 is arranged between the upper mounting rod 16 and the lower mounting rod 19, a first positioning box 5 and a second positioning box 14 are respectively sleeved on the upper mounting rod 16 and the lower mounting rod 19, an upper box seat 12 and a lower box seat 13 are respectively arranged on the first positioning box 5 and the second positioning box 14, the top of the mounting box 7 is of an inclined structure, a mounting rack 11 is connected at the lower end of the mounting box 7 through bolts, the mounting rack 11 is welded and fixed with the upper box seat 12, the bottom of the structural installation box 7 can be horizontally installed through the installation frame 11, the inclined structure at the top of the installation box 7 can be used for drainage treatment, the upper ends of the upper box seats 12 are inclined surfaces, the inclined surfaces at the upper ends of the upper box seats 12 are welded with a through second threading hole seat 21, the structural upper box seats 12 can be used for drainage treatment through the inclined surfaces at the upper ends, the second threading hole seat 21 is used for threading treatment of the electric heating belt 18 and wires, the electric heating belt 18 is of the existing self-temperature limiting electric heating belt structure, a heating element which is formed between two parallel wires and keeps continuous parallelism is connected with the support rods 6 between the upper installation rod 16 and the lower installation rod 19 and the lower box seats 13 of the first positioning box 5 and the second positioning box 14, the lower end of the hydrologic monitoring device main body 1 is provided with the base 15, the base 15 is communicated with the lower installation rod 19, the second threading hole seat 21 of the first positioning box 5 is connected with the solar cell panel 4 through a screw rod, the second threading hole seat 21 of the second positioning box 14 is connected with the installation box 7 in a penetrating way, the solar cell panel 4 of the structure directly or indirectly converts solar radiation energy into electric energy through absorbing sunlight or photochemical effect, the solar cell panel 4 is connected with the solar charging controller 8 through a wire, the telemetering terminal 9 can be powered, the upper box seat 12 is connected with the lower box seat 13 in a sealing way through a flange structure, the upper box seat 12 is welded and fixed with the upper installation rod 16 and the lower installation rod 19, the lower box seat 13 is connected with the upper installation rod 16 and the lower installation rod 19 in a penetrating and movable way, the upper box seat 12 of the structure is fixed on the upper installation rod 16 and the lower installation rod 19, the installation treatment of the solar cell panel 4 and the installation box 7 can be facilitated, meanwhile, the upper box seat 12 and the lower box seat 13 are not connected, so that the installation treatment of wires and an electric heating belt 18 can be facilitated, after the hydrologic monitoring device main body 1 is installed, the lower box seat 13 can be fixed, the supporting rod 6 plays a role in stabilizing the lower box seat 13, the lower box seat 13 is detachable, the wires and the electric heating belt 18 are easy to overhaul and maintain, the side surfaces of the upper mounting rod 16 and the lower mounting rod 19 are welded with the first threading hole seat 20, the first threading hole seat 20 is in clamping connection with the upper box seat 12 and the lower box seat 13, the first threading hole seat 20 plays a role in installing and positioning the upper box seat 12 and the lower box seat 13, so that the first positioning box 5 and the second positioning box 14 are easy to fix, one side of the upper end of the upper mounting rod 16 is connected with the mounting seat 3, the side surface of the mounting seat 3 is connected with the mounting cross rod 2, the electric heating belt 18 is arranged in the hydrologic monitoring device main body 1, the electric heating belt 18 passes through the base 15, the lower mounting rod 19, the second positioning box 14, the mounting box 7, the second positioning box 14, the lower mounting rod 19, the upper mounting rod 16, the first positioning box 5, the mounting cross rod 2, the upper mounting rod 16, the lower mounting rod 19 and between the base 15 in sequence, the electric heating belt 18 can heat the passing region, so that the situation that the monitoring result of the hydrologic monitoring device body 1 is inaccurate due to low temperature, freezing and the like can be effectively avoided when the hydrologic monitoring device body 1 is used in a freezing period, and meanwhile, the hydrologic monitoring device body 1 can be effectively protected, and the service life of the hydrologic monitoring device body 1 is ensured.

Working principle: when the novel hydrological monitoring device is used, firstly, a water level gauge, a rain gauge and other mechanisms for hydrological monitoring are installed on a hydrological monitoring device main body 1, then an installation cross rod 2 is fixed with an upper installation rod 16 through an installation seat 3, then a solar charging controller 8, a telemetering terminal 9 and a storage battery 10 are installed in an installation box 7, the installation box 7 is fixed on an installation frame 11, the installation box 7 is connected with a second threading hole seat 21 in a clamping way, then the threading treatment of wires is carried out through the second threading hole seat 21, then a solar cell panel 4 is installed on the second threading hole seat 21 of a first positioning box 5, then an electric heating belt 18 sequentially passes through a base 15, a lower installation rod 19, a second positioning box 14, the installation box 7, the second positioning box 14, the lower installation rod 19, the upper installation rod 16, the first positioning box 5, the installation cross rod 2, the upper installation rod 16, the lower installation rod 19 and the base 15, after the wires and the electric heating belt 18 are installed, the lower box seat 13 is moved relative to the upper mounting rod 16 and the lower mounting rod 19, the first threading hole seat 20 plays a role in positioning the lower box seat 13, the lower box seat 13 can be fixed with the upper box seat 12, then the supporting rod 6 is fixed between the lower box seat 13 and the upper mounting rod 16 and the lower mounting rod 19, the upper mounting rod 16 and the lower mounting rod 19 are connected by the connecting seat 17, when the hydrological monitoring device body 1 is used, the installation protection treatment of the wires can be carried out through the first positioning box 5 and the second positioning box 14, when the hydrological monitoring device body 1 is used in a freezing period, the power supply of the electric heating belt 18 can be opened, so that each part in the hydrological monitoring device body 1 is heated by the electric heating belt 18, the water-proof device body 1 is frozen to influence the service life, thereby completing a series of works.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. The utility model provides a novel hydrologic monitoring device, includes hydrologic monitoring device main part (1), be equipped with install bin (7) on hydrologic monitoring device main part (1), and install solar charging controller (8), telemetering measurement terminal (9) and battery (10) in install bin (7), and still be equipped with on hydrologic monitoring device main part (1) with solar charging controller (8) matched with solar cell panel (4), its characterized in that: be equipped with installation pole (16) and lower installation pole (19) on hydrologic monitoring device main part (1), and go up and be equipped with connecting seat (17) between installation pole (16) and lower installation pole (19), go up and be equipped with first positioning box (5) and second positioning box (14) on installation pole (19) respectively, and be equipped with on first positioning box (5) and second positioning box (14) respectively and go up case seat (12) and lower case seat (13), all be connected with bracing piece (6) between lower case seat (13) of installation pole (16) and lower installation pole (19) and first positioning box (5) and second positioning box (14), hydrologic monitoring device main part (1) lower extreme is equipped with base (15), and base (15) and lower installation pole (19) intercommunication, go up installation pole (16) upper end one side and be connected with mount pad (3), and mount pad (3) side-to-face is connected with installation (2), be equipped with in hydrologic monitoring device (1) electric heat band (18).

2. The novel hydrologic monitoring device according to claim 1, wherein: the top of the installation box (7) is of an inclined structure, the lower end of the installation box (7) is connected with an installation frame (11) through bolts, and the installation frame (11) is welded and fixed with the upper box seat (12).

3. The novel hydrologic monitoring device according to claim 1, wherein: the upper ends of the upper box seats (12) are inclined surfaces, and the inclined surfaces at the upper ends of the upper box seats (12) are welded with a through second threading hole seat (21).

4. A novel hydrologic monitoring device according to claim 3, characterized in that: the second threading hole seat (21) of the first positioning box (5) is connected with the solar panel (4) through a screw rod, and the second threading hole seat (21) of the second positioning box (14) is connected with the mounting box (7) in a penetrating manner.

5. The novel hydrologic monitoring device according to claim 1, wherein: the upper box seat (12) is in sealing connection with the lower box seat (13) through a flange structure, the upper box seat (12) is fixedly welded with the upper mounting rod (16) and the lower mounting rod (19), and the lower box seat (13) is movably connected with the upper mounting rod (16) and the lower mounting rod (19) through penetration.

6. The novel hydrologic monitoring device according to claim 1, wherein: the side surfaces of the upper mounting rod (16) and the lower mounting rod (19) are welded with a first threading hole seat (20), and the first threading hole seat (20) is connected with the upper box seat (12) and the lower box seat (13) in a clamping mode.

7. The novel hydrologic monitoring device according to claim 1, wherein: the electric heating belt (18) sequentially passes through the base (15), the lower mounting rod (19), the second positioning box (14), the mounting box (7), the second positioning box (14), the lower mounting rod (19), the upper mounting rod (16), the first positioning box (5), the mounting cross rod (2), the upper mounting rod (16), the lower mounting rod (19) and the base (15).