CN214310475U - Be used for hydrology water resource monitoring devices - Google Patents

Abstract

The utility model discloses a device for monitoring hydrology and water resources, which comprises a monitoring control panel, an ammonia nitrogen monitor, a sample retaining device, an analysis sample injector, a five-parameter monitor, a water pump, a motor and a cabin; firstly move about through the screw in the control cabin, to the water source that needs the water intaking, the suction pump carries out work afterwards, the water inlet pipe mouth suction needs the water source, get into the electrode bucket afterwards, preliminary five parameters and chlorophyll a's monitoring, quality of water will continue to flow into the sand setting jar after the monitoring is accomplished, it carries out the data and reserves the appearance backup subsequently to reserve the appearance, quality of water gets into analysis system appearance ware and system appearance pump after the completion, get into ammonia nitrogen monitor through advancing the appearance cup at last, total phosphorus total nitrogen monitor and permanganate index monitor, retrieve rotary rod device in addition, the water pipe can drive the place that goes to need through the cabin and carry out the water intaking monitoring in the use, retrieve the rotary rod after the completion and retrieve the arrangement, in order to avoid soaking for a long time and lead to the live time to subtract weak in water.

Description

Be used for hydrology water resource monitoring devices

Technical Field

The utility model relates to a water resource monitoring field specifically is a be used for hydrology water resource monitoring devices.

Background

At present, along with the rapid development of economy, our living environment receives very big influence, and environmental protection work can not slow down, and especially present people are bigger and bigger to the demand of water resource, and the pollution that causes is also bigger and bigger more and more, and present hydrology monitoring devices are mostly placed in the bottom in addition, receive the impact of rivers very easily, take place the skew, can only fix the water source and get the water, can not obtain effectual effect to fixed water source monitoring, influence the monitoring result.

Therefore, the technical personnel in the field provide a hydrographic water resource monitoring device to solve the problems in the background art.

Disclosure of Invention

An object of the utility model is to provide a be used for hydrology water resource monitoring devices to solve the problem that proposes among the above-mentioned background art.

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

a device for monitoring hydrology and water resources comprises a monitoring control panel, an ammonia nitrogen monitor, a sample retention device, an analysis sample injector, a five-parameter monitor, a water pump, a motor and a cabin; an alarm lamp control plate is arranged outside the upper left side of the monitoring control plate, an alarm lamp is arranged above the alarm lamp control plate, a permanganate index monitor is arranged below the alarm lamp control plate, a total phosphorus and total nitrogen monitor is arranged on the right side of the permanganate index monitor, an ammonia nitrogen monitor is arranged on the right side of the total phosphorus and total nitrogen monitor, a sample inlet cup is arranged below the right side of the monitoring control plate, an analysis sample injector is arranged below the sample inlet cup, a sample preparation pump is arranged on the right side of the analysis sample injector, a support frame is arranged below the analysis sample injector, a sand settling cylinder is arranged on the left side of the analysis sample injector, a sample retaining device is fixedly arranged above the sand settling cylinder, an electrode barrel is arranged on the left side of the sand settling cylinder, a five-parameter monitor is arranged above the left side of the electrode barrel, a chlorophyll a monitor is arranged above the right side of the electrode barrel, and a water suction pump is fixedly connected below the electrode barrel, suction pump right side movable mounting has the pump aircraft nose, the handle is installed to the top of suction pump, the below fixed mounting of support frame has fixed case, the left side of fixed case is equipped with the motor, the upper and lower both ends of motor all are equipped with motor support frame, the water pipe is installed in motor support frame's left side, the recovery rotary rod is installed in the left side of water pipe, retrieve the left side below fixedly connected with screw of rotary rod, the below of screw is equipped with the cabin, the inside below swing joint in cabin has the rotary rod, the below fixed mounting of rotary rod has the micro-machine, the below fixed mounting of micro-machine has the control panel, the back mounted in cabin has the mouth of pipe of intaking, the externally mounted of mouth of intaking mouth of pipe has the fixer, the aircraft nose is installed to mouth of intaking mouth of pipe below, the inside fixed mounting of aircraft nose has high definition digtal camera.

As a further aspect of the present invention: below the nacelle is a control panel.

As a further aspect of the present invention: the motor is movably connected with the water pipe and can be detached.

As a further aspect of the present invention: the back of the engine room is provided with a water inlet pipe orifice which is fixed by a fixer.

As a further aspect of the present invention: the recycling rotary rod is movably connected with the water inlet pipe orifice.

As a further aspect of the present invention: the aircraft nose is installed to water inlet pipe mouth below, and the inside of aircraft nose is high definition digtal camera.

As a further aspect of the present invention: monitoring control panel, ammonia nitrogen monitor, total nitrogen monitor of total phosphorus, permanganate index monitor, alarm lamp control panel, chlorophyll a monitor, analysis injector, system appearance pump, five parameter monitoring ware, suction pump, electrode bucket, motor, high definition digtal camera, cabin, small-size motor and the inside of control panel are equipped with the singlechip, and all with external power source and singlechip electric connection, the model of singlechip is: STM 32.

Compared with the prior art, the beneficial effects of the utility model are that:

1-the utility model discloses contain cabin and screw device, will control the cabin and move about through the screw in the use, to the water source that needs the water intaking, the suction pump carries out work afterwards, the water source that the intake pipe mouth suction needs.

2-the utility model contains an alarm device, and the alarm device can be controlled to give an alarm if the water quality is abnormal or the alarm lamp control panel is polluted in the using process.

3-the utility model discloses contain and retrieve rotary rod device, the water pipe can drive the place that removes needs through the cabin and carry out the water intaking monitoring in the use, retrieves the rotary rod after accomplishing and retrieves the arrangement to soak for a long time and lead to the live time to subtract the weak point in the water.

Drawings

Fig. 1 is a schematic structural diagram of a hydrological and water resource monitoring device.

Fig. 2 is a schematic structural diagram of a motor and a recycling rotary rod used in a hydrographic water resource monitoring device.

FIG. 3 is a schematic view of a back structure of a nacelle used in a hydronic water resource monitoring device.

Fig. 4 is an enlarged schematic view of the structure of the interior of the cabin, namely a in fig. 1, in the hydronic water resource monitoring device.

In the figure: 1-monitoring control board, 2-ammonia nitrogen monitor, 3-total phosphorus and total nitrogen monitor, 4-permanganate index monitor, 5-alarm lamp, 6-alarm lamp control board, 7-sample retaining device, 8-chlorophyll a monitor, 9-sample feeding cup, 10-analysis sample feeding device, 11-sample preparation pump, 12-support frame, 13-five parameter monitor, 14-handle, 15-water pump, 16-pump head, 17-electrode barrel, 18-sand settling cylinder, 19-motor, 20-motor support frame, 21-water pipe, 22-fixing box, 23-recovery rotating rod, 24-fixer, 25-water inlet pipe orifice, 26-head, 27-high definition camera, 28-propeller, 29-cabin, 30-rotating rod, 31-small motor, 32-control board.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, in an embodiment of the present invention, a device for monitoring hydrology and water resource includes a monitoring control board 1, an ammonia nitrogen monitor 2, a sample retaining device 7, an analysis sample injector 10, a five-parameter monitor 13, a water pump 15, a motor 19 and a cabin 29; an alarm lamp control plate 6 is arranged outside the upper portion of the left side of the monitoring control plate 1, an alarm lamp 5 is arranged above the alarm lamp control plate 6, a permanganate index monitor 4 is arranged below the alarm lamp control plate 6, a total phosphorus and total nitrogen monitor 3 is arranged on the right side of the permanganate index monitor 4, an ammonia nitrogen monitor 2 is arranged on the right side of the total phosphorus and total nitrogen monitor 3, a sample inlet cup 9 is arranged below the right side of the monitoring control plate 1, an analysis sample injector 10 is arranged below the sample inlet cup 9, a sample preparation pump 11 is arranged on the right side of the analysis sample injector 10, a support frame 12 is arranged below the analysis sample injector 10, a sand settling cylinder 18 is arranged on the left side of the analysis sample injector 10, a sample retaining device 7 is fixedly arranged above the sand settling cylinder 18, an electrode barrel 17 is arranged on the left side of the sand settling cylinder 18, a five-parameter monitor 13 is arranged above the left side of the electrode barrel 17, a chlorophyll a monitor 8 is arranged above the right side of the electrode barrel, a water pump 15 is fixedly connected below the electrode barrel 17, a pump head 16 is movably mounted at the right side of the water pump 15, a handle 14 is mounted above the water pump 15, a fixed box 22 is fixedly mounted below the supporting frame 12, a motor 19 is arranged at the left side of the fixed box 22, motor supporting frames 20 are respectively arranged at the upper end and the lower end of the motor 19, a water pipe 21 is mounted at the left side of the motor supporting frame 20, a recovery rotating rod 23 is mounted at the left side of the water pipe 21, a propeller 28 is fixedly connected below the left side of the recovery rotating rod 23, a cabin 29 is arranged below the propeller 28, a rotating rod 30 is movably connected below the interior of the cabin 29, a small motor 31 is fixedly mounted below the rotating rod 30, a control panel 32 is fixedly mounted below the small motor 31, a water inlet pipe orifice 25 is mounted at the back of the cabin 29, a fixer 24 is mounted outside the water inlet pipe orifice 25, and a machine head 26 is mounted below the water inlet pipe orifice 25, a high-definition camera 27 is fixedly mounted inside the head 26.

Below the nacelle 29 is a control panel 32.

The motor 19 is movably connected with the water pipe 21 and can be detached.

The back of the cabin 29 is provided with a water inlet nozzle 25, and the water inlet nozzle 25 is fixed by a fixer 24.

The recycling rotary rod 23 is movably connected with the water inlet pipe orifice 25.

A machine head 26 is arranged below the water inlet pipe orifice 25, and a high-definition camera 27 is arranged inside the machine head 26.

Monitoring control panel 1, ammonia nitrogen monitor 2, total nitrogen monitor 3 of total phosphorus, permanganate index monitor 4, alarm lamp control panel 6, chlorophyll a monitor 8, analysis injector 10, system appearance pump 11, five parameter monitor 13, suction pump 15, electrode bucket 17, motor 19, high definition digtal camera 27, cabin 29, small motor 31 and control panel 32's inside is equipped with the singlechip, and all with external power source and singlechip electric connection, the model of singlechip is: STM 32.

The utility model discloses a theory of operation is: firstly, the control cabin 29 moves through the propeller 28, the water source needs to be taken, then the water suction pump works, the water inlet pipe orifice 25 pumps the needed water source, then the water source enters the electrode barrel, the primary five-parameter and chlorophyll a monitoring are carried out, the water quality continues to flow into the sand settling cylinder 18 after the monitoring is completed, then the sample reserving device 7 carries out data sample reserving backup, the water quality enters the analysis sample preparing device 10 and the sample preparing pump 11 after the completion, finally the water quality enters the ammonia nitrogen monitor 2, the total phosphorus and total nitrogen monitor 3 and the permanganate index monitor 4 through the sample inlet cup 9, and if the water quality is abnormal or the alarm lamp control panel 6 is polluted, the alarm 5 is controlled to give an alarm.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A device for monitoring hydrology and water resources comprises a monitoring control panel (1), an ammonia nitrogen monitor (2), a sample retention device (7), an analysis sample injector (10), a five-parameter monitor (13), a water pump (15), a motor (19) and a cabin (29); the device is characterized in that an alarm lamp control plate (6) is mounted outside the upper portion of the left side of a monitoring control plate (1), an alarm lamp (5) is mounted above the alarm lamp control plate (6), a permanganate index monitor (4) is mounted below the alarm lamp control plate (6), a total phosphorus and total nitrogen monitor (3) is mounted on the right side of the permanganate index monitor (4), an ammonia nitrogen monitor (2) is mounted on the right side of the total phosphorus and total nitrogen monitor (3), a sample inlet cup (9) is mounted below the right side of the monitoring control plate (1), an analysis sample injector (10) is mounted below the sample inlet cup (9), a sample preparation pump (11) is mounted on the right side of the analysis sample injector (10), a support frame (12) is mounted below the analysis sample injector (10), a sand settling cylinder (18) is arranged on the left side of the analysis sample injector (10), and a sample retention device (7) is fixedly mounted above the sand settling cylinder (18), an electrode barrel (17) is installed on the left side of a sand settling cylinder (18), a five-parameter monitor (13) is installed above the left side of the electrode barrel (17), a chlorophyll a monitor (8) is installed above the right side of the electrode barrel, a water suction pump (15) is fixedly connected below the electrode barrel (17), a pump head (16) is movably installed on the right side of the water suction pump (15), a handle (14) is installed above the water suction pump (15), a fixed box (22) is fixedly installed below a support frame (12), a motor (19) is arranged on the left side of the fixed box (22), motor support frames (20) are respectively arranged at the upper end and the lower end of the motor (19), a water pipe (21) is installed on the left side of the motor support frame (20), a recovery rotary rod (23) is installed on the left side of the water pipe (21), a propeller (28) is fixedly connected below the left side of the recovery rotary rod (23), and a cabin lower portion (29) of the propeller (28) is arranged below the cabin, the inside below swing joint of cabin (29) has rotary rod (30), the below fixed mounting of rotary rod (30) has small motor (31), the below fixed mounting of small motor (31) has control panel (32), the back mounted of cabin (29) has water inlet pipe mouth (25), the externally mounted of water inlet pipe mouth (25) has fixer (24), aircraft nose (26) are installed to water inlet pipe mouth (25) below, the inside fixed mounting of aircraft nose (26) has high definition digtal camera (27).

2. The hydronic water resource monitoring device as claimed in claim 1, characterized in that below the nacelle (29) is a control panel (32).

3. The device for monitoring the hydrology and water resources is characterized in that the motor (19) is movably connected with the water pipe (21) and is detachable.

4. A hydronic water resource monitoring device as claimed in claim 1, wherein the back of the nacelle (29) is a water inlet nozzle (25), the water inlet nozzle (25) being fixed by a holder (24).

5. The hydrographic water resource monitoring device according to claim 1, wherein the recovery rotating rod (23) is movably connected with the water inlet nozzle (25).

6. The hydrographic water resource monitoring device according to claim 1, wherein a head (26) is installed below the water inlet pipe orifice (25), and a high-definition camera (27) is arranged inside the head (26).

7. The device for monitoring the hydrology and water resource as claimed in claim 1, wherein the monitoring control board (1), the ammonia nitrogen monitor (2), the total phosphorus and total nitrogen monitor (3), the permanganate index monitor (4), the alarm lamp control board (6), the chlorophyll a monitor (8), the analysis sample injector (10), the sample preparation pump (11), the five-parameter monitor (13), the water pump (15), the electrode barrel (17), the motor (19), the high-definition camera (27), the cabin (29), the small motor (31) and the control board (32) are internally provided with a single chip microcomputer, and are electrically connected with an external power supply and the single chip microcomputer, and the single chip microcomputer is of the type: STM 32.

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