CN210720372U - Water resource monitoring device suitable for field - Google Patents

Abstract

The utility model relates to the technical field of water resource monitoring, and provides a water resource monitoring device suitable for the field, which comprises a water resource monitoring device body, wherein a PH value tester, an ozone detector and a TDS-water quality test pen are arranged inside the water resource monitoring device body, the ozone detector is positioned between the PH value tester and the TDS-water quality test pen, a control room is arranged at the top end of the water resource monitoring device body, a water storage box is arranged at the bottom of the water resource monitoring device body, a water pump is arranged inside the water storage box, the water resource monitoring device is arranged to be portable, and a solar cell panel is arranged to supply power for the monitoring device, when monitoring device is used for monitoring field water resource, the field water resource is monitored by carrying the water resource monitoring device through a handle belt, so as to be suitable for field water resource monitoring, and when detecting field water resource is solved, water resource monitoring devices is not portable, detects comparatively difficult problem.

Description

Water resource monitoring device suitable for field

Technical Field

The utility model relates to a water resource monitoring technology field, in particular to water resource monitoring devices suitable for it is open-air.

Background

The water resource monitoring is used for monitoring water intake of a self-contained well, water inflow and outflow of a water plant, open channel flow, underground water level, water quality of a water source place, remote water selling management of the water resource and the like by a water department, plays an important role in effectively protecting the water resource, reasonably utilizing the water resource and strengthening the social water saving consciousness, and the quantity and the quality of surface water and underground water change along with time and space, and the dynamic change is a result of comprehensive effects of various natural factors and human factors. By monitoring the water resource, the dynamic change of the water quantity and the water quality can be known in time, and the change rule of the water quantity and the water quality can be mastered, so that a scientific basis is provided for developing and utilizing water resources and protecting schemes. The quantity and quality monitoring of water resources is implemented through a dynamic monitoring network of water resources. In order to make the monitoring result more accurate, the existing hydrological station, rainfall station and meteorological station (station) are often listed in a water resource dynamic monitoring network. The water quantity monitoring method is simple and easy to implement, and a water resource monitoring device can be used when water resources are monitored.

However, the existing water resource monitoring has some defects when detecting field water resources, for example, when detecting the field water resources, the water resource monitoring device is inconvenient to carry and is difficult to detect; and the position of the field water source is inconvenient for the staff to go forward, and the monitoring device cannot be directly used for monitoring, so that the sampling water monitoring is inconvenient.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem who exists among the prior art, the utility model provides a be applicable to open-air water resource monitoring devices to solve water resource monitoring devices portable not and the problem of taking the monitoring of appearance water not convenient for.

A water resource monitoring device suitable for it is open-air, including water resource monitoring device body, the internally mounted of water resource monitoring device body has PH value tester, ozone detector and TDS-water quality test pen, ozone detector is located between PH value tester and TDS-water quality test pen, the control room is installed on the top of water resource monitoring device body, and the bottom of water resource monitoring device body installs the retaining box, the internally mounted of retaining box has the water pump, the water inlet of water pump is connected with sample water extraction pipe.

Further, solar cell panel is installed to one side of water resource monitoring devices body, the internally mounted of control room has wireless transceiver, battery and dc-to-ac converter, be provided with the signal transmission antenna on the wireless transceiver, solar cell panel and inverter electric connection, PH value tester, ozone detector and TDS-water quality test pen all with wireless transceiver electric connection, inverter, wireless transceiver and water pump all with battery electric connection.

Preferably, a water pipe storage box is installed on one side surface wall of the water storage box.

Further, handle belts are installed on two side walls of the water resource monitoring device body.

Furthermore, the outer surface wall edge of the water resource monitoring device body is provided with a clamping convex block, the inner surface wall edge of the water storage box is provided with a clamping groove matched with the clamping convex block, and the water resource monitoring device body is connected with the water storage box through the clamping convex block and the clamping groove in a clamping mode.

The technical effects of the utility model reside in that:

1. the utility model discloses set water resource monitoring devices to portable to it is portable to be equipped with solar cell panel and for the monitoring devices power supply, carry out the time measuring to open-air water resource, through the handle area with it carry can, with being applicable to open-air water resource monitoring, solved when examining open-air water resource, water resource monitoring devices is not portable, detects comparatively difficult problem.

2. The utility model discloses set up the retaining box in water resource monitoring devices bottom, can go into the water retaining box with the water resource of field discovery through the water pump, rethread PH value tester, ozone detector and TDS-3 water quality testing pen monitor, and the position of having solved open-air water source is not convenient for the staff forward time, can not directly monitor with monitoring devices, is not convenient for take the problem of appearance water monitoring.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a side sectional view of the present invention;

FIG. 3 is an internal structural view of the present invention;

FIG. 4 is a schematic view of the connection between the water resource monitoring device body and the water storage box of the present invention;

fig. 5 is a circuit block diagram of the present invention;

the water resource monitoring device comprises a handle belt 1, a water resource monitoring device body 2, a water storage box 3, a solar cell panel 4, a control room 5, a signal transmission antenna 6, a wireless transceiver 7, a storage battery 8, a PH value tester 9, an ozone detector 10, a TDS-3 water quality testing pen 11, a water pump 12, a sample water extraction pipe 13, a water pipe storage box 14, a clamping lug 15, a clamping groove 16 and an inverter 17.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in figures 1 to 5, a water resource monitoring device suitable for it is open-air, including water resource monitoring device body 2, the internally mounted of water resource monitoring device body 2 has pH value tester 9, ozone detector 10 and TDS-3 water quality testing pen 11, ozone detector 10 is located between pH value tester 9 and TDS-3 water quality testing pen 11, control room 5 is installed on the top of water resource monitoring device body 2, and water storage box 3 is installed to the bottom of water resource monitoring device body 2, the internally mounted of water storage box 3 has water pump 12, the water inlet of water pump 12 is connected with appearance water extraction pipe 13, set up water storage box 3 and control room 5 on monitoring device, carry when going open-air monitoring.

Preferably, solar cell panel 4 is installed to one side of water resource monitoring devices body 2, the internally mounted of control room 5 has wireless transceiver 7, battery 8 and inverter 17, be provided with signal transmission antenna 6 on wireless transceiver 7, solar cell panel 4 absorbs solar energy and turns into the electric energy, and turn into usable electricity through inverter 17 and store in battery 8, solar cell panel 4 and inverter 17 electric connection, the PH value tester 9, ozone detector 10 and TDS-3 water quality testing pen 11 all with wireless transceiver 7 electric connection, inverter 17, wireless transceiver 7 and water pump 12 all with battery 8 electric connection, wireless transceiver 7 is DMX512 wireless transceiver, water pump 12 model is DPS-60W.

Preferably, a water pipe storage box 14 is mounted on one side surface wall of the water storage box 3, and after use, the sample water extraction pipe 13 can be stored in the water pipe storage box 14.

Preferably, handle area 1 is all installed to the both sides wall of water resource monitoring devices body 2, carries water resource monitoring devices body 2 through handle area 1.

Preferably, the exterior wall edge of the water resource monitoring device body 2 is provided with a clamping convex block 15, the interior wall edge of the water storage box 3 is provided with a clamping groove 16 matched with the clamping convex block 15, the water resource monitoring device body 2 and the water storage box 3 are connected through the clamping convex block 15 and the clamping groove 16 in a clamping manner, and the water storage box 3 is conveniently taken down to be cleaned.

During operation, switch on relevant electrical component and battery 8, carry it to the place that needs the monitoring water source in the field through handle area 1, the dc-to-ac converter 17 turns into the electric energy that solar cell panel 4 produced and stores in battery 8 with the available electricity, be convenient for monitoring devices power supply, start water pump 12 with the pump of open-air water source pump in going into retaining box 3, monitor the water source through PH value tester 9, ozone detector 10 and TDS-3 water quality test pen 11, and through wireless transceiver 7 with the data transmission of monitoring to monitor person's user side, so that the analysis of storage box.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a water resource monitoring devices suitable for it is open-air, includes water resource monitoring devices body (2), the internally mounted of water resource monitoring devices body (2) has pH value tester (9), ozone detector (10) and TDS-3 water quality test pen (11), ozone detector (10) are located between pH value tester (9) and TDS-3 water quality test pen (11), its characterized in that, control room (5) are installed on the top of water resource monitoring devices body (2), and the bottom of water resource monitoring devices body (2) installs retaining box (3), the internally mounted of retaining box (3) has water pump (12), the water inlet of water pump (12) is connected with sample water extraction pipe (13).

2. The water resource monitoring device applicable to the field of claim 1, wherein a solar cell panel (4) is installed on one side of the water resource monitoring device body (2), a wireless transceiver (7), a storage battery (8) and an inverter (17) are installed inside the control room (5), a signal transmission antenna (6) is arranged on the wireless transceiver (7), the solar cell panel (4) is electrically connected with the inverter (17), the pH value tester (9), the ozone detector (10) and the TDS-3 water quality testing pen (11) are electrically connected with the wireless transceiver (7), and the inverter (17), the wireless transceiver (7) and the water pump (12) are electrically connected with the storage battery (8).

3. A water resource monitoring device as claimed in claim 1, wherein a water pipe receiving box (14) is mounted on one side surface wall of the water storage box (3).

4. The water resource monitoring device applicable to the field is characterized in that handle belts (1) are mounted on two side walls of the water resource monitoring device body (2).

5. The water resource monitoring device applicable to the field according to claim 1, wherein a locking protrusion (15) is disposed at an edge of an outer wall of the water resource monitoring device body (2), a locking groove (16) matched with the locking protrusion (15) is disposed at an edge of an inner wall of the water storage box (3), and the water resource monitoring device body (2) and the water storage box (3) are locked and connected through the locking protrusion (15) and the locking groove (16).

Images