CN210802993U - Water body monitoring equipment - Google Patents

Abstract

The utility model provides a water monitoring facilities, including box and the water monitoring devices of setting in the box, the box includes the base and sets up the apron on the base, be equipped with the baffle in the base, first cavity and second cavity are separated with the box to the baffle, water monitoring devices passes through the fixed plate to be fixed on the base, the fixed plate is established the second cavity, be equipped with water sampling probe device in the first cavity for survey the sample to the monitoring water. Compared with the prior art, the utility model provides a water monitoring facilities, it can detect quality of water in real time to take a sample in the degree of depth position of difference.

Description

Water body monitoring equipment

Technical Field

The utility model relates to an environmental protection technical field especially relates to a water monitoring facilities.

Background

Along with the increase of the intensity and the speed of water resource development and the increasing enhancement of the awareness of the ecological environment of people, the water quality and the environment are gradually emphasized at home and abroad. In the water quality monitoring work of environmental protection, water sample collection is an important link, and the water sample to be analyzed can represent to accurately reflect the concentration index of the water quality parameter. The existing method can only detect or adopt water quality at a certain depth, but the water quality conditions at different depth positions are different, so that the water quality environment is comprehensively mastered, water samples at different depths are required to be respectively sampled, and the operation is troublesome and often needs to be repeated.

Therefore, there is a need for a new water monitoring device to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel water monitoring facilities, it can detect quality of water in real time to take a sample in the degree of depth position of difference.

In order to achieve the purpose, the utility model provides a water monitoring device, including box and the water monitoring device of setting in the box, be equipped with the baffle in the box, first cavity and second cavity are separated with the box to the baffle, water monitoring device passes through the fixed plate to be fixed on the box, the fixed plate sets up the second cavity, be equipped with water sampling probe device in the first cavity for survey the sample to the monitoring water.

Furthermore, a plurality of water inlet holes which are arranged in an array are arranged on one side of the base.

Further, the upper cover of the water inlet hole is provided with a metal mesh layer, and the metal mesh layer comprises a honeycomb layer, a defoaming film and a water seepage layer which are sequentially stacked.

Furthermore, a fixing ring for fixing the water body monitoring device is arranged on the fixing plate.

Further, water sampling probe device includes lifter, driving motor, unwrapping wire ware, probe and sampler barrel, the lifter sets up in the box, the lifter by the driving motor drive, the probe sets up the lower extreme of lifter, the winding is provided with the connecting wire on the unwrapping wire ware, the lower extreme of connecting wire with the sampler barrel is connected, the unwrapping wire ware include the drum, with the coaxial first gear that sets up of drum and with the coaxial second gear that sets up of driving motor, the second gear with first gear meshes mutually.

Further, the probe adopts a PH monitoring probe.

Further, the water monitoring device comprises an ammonia nitrogen monitor and a COD monitor which are arranged in parallel.

Compared with the prior art, the utility model discloses a water monitoring facilities can take a sample to the water of the different degree of depth, and the sampling is comprehensive, has improved the accuracy of sample, has alleviateed the work degree of difficulty of sampling personnel, and can detect through water detection device real-time online, obtains the water quality testing data in detection waters in real time, convenient and fast, and easy operation improves work efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is the utility model discloses water monitoring facilities's schematic structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, a water monitoring device includes a tank 1 and a water monitoring device 2 disposed in the tank 1, the tank 1 provides a receiving space for placing the water monitoring device 2, and the water monitoring device can be placed in a monitored water area for monitoring. The water body monitoring device 2 comprises an ammonia nitrogen monitor 21 and a COD monitor 22 which are arranged in parallel.

The box body 1 comprises a base 11 and a cover plate (not shown) arranged on the base 11, and the base and the cover plate form a sealed box body structure.

The water body monitoring device is characterized in that a partition plate 12 is arranged in the base 11, the partition plate 12 divides the box body 1 into a first cavity 10 and a second cavity 20, a water body sampling probe device 14 is arranged in the first cavity 10, the water body monitoring device 2 is installed in the second cavity 20, the water body monitoring device 2 is fixed on the base 11 through a fixing plate 13, the fixing plate 13 is arranged in the second cavity 20, and the water body sampling probe device 14 is used for detecting and sampling a monitoring water body.

A plurality of water inlet holes 110 arranged in an array are arranged on one side of the base 11. The inlet opening 110 is used to facilitate water immersion of the area to be monitored into the second chamber 20 and to fill the second chamber so that the water monitoring device 2 can better monitor the area.

The upper cover of the water inlet hole 110 is provided with a metal mesh layer 111, the metal mesh layer 111 is used for preventing solid foreign matters in water from entering the box body, and the metal mesh layer 111 comprises a honeycomb layer 1111, a defoaming film 1112 and a water seepage layer 1113 which are sequentially overlapped. Honeycomb layer 1111 is used for reducing the whirl that produces when rivers get into the box, and defoaming membrane 1112 can eliminate the foam of water, prevents that the foam from influencing the monitoring result, and water seepage layer 1113 makes things convenient for the submergence of water.

The fixing plate 13 is used for fixing the water body monitoring device 2. Fixing rings 131 are provided at both sides of the opening portion 130. The fixing rings 131 are used for fixing the ammonia nitrogen monitor 21 and the COD monitor 22 respectively.

The water body sampling probe device 14 comprises a lifting rod 141, a driving motor 142, a pay-off device 143, a probe 144 and a sampling cylinder 145, wherein the lifting rod 141 is arranged in the box body 1, one end of the lifting rod 141 is connected with an output shaft of the driving motor 142, the probe 144 is arranged at the other end of the lifting rod 141, a connecting wire is wound on the pay-off device 143, and one end of the connecting wire is connected with the sampling cylinder 145. The lifting rod 141 adopts a planetary ball screw. The probe 144 is an online monitoring probe, which can be connected to a remote control end, and the position detected by the probe can be controlled by the remote control end according to the change of the PH value of the water body detected by the probe.

The thread winder 143 includes a thread reel 1431, a first gear 1432 coaxially disposed with the thread reel 1431, and a second gear 1433 coaxially disposed with the driving motor 142, the second gear 1433 being engaged with the first gear 1432. When driving motor drive lifter descended, because the first gear of second gear drive rotates, the drum began the unwrapping wire operation, when the lifter withdrawal, the drum began the receipts line operation to can make things convenient for the sampler barrel to get into appointed water level and take a sample.

Specifically, water monitoring facilities places in the monitoring waters, and quality of water flows in through the inlet opening to through metal mesh layer, guarantee that quality of water stably flows in the box, water monitoring devices carries out ammonia nitrogen and COD monitoring to the quality of water that flows in the box, and driving motor drive lifter descends so that the PH value in the probe monitoring waters, and the while unwrapping wire ware is also put into the waters of probe place position with the sampling tube under driving motor's drive and is taken a sample.

Compared with the prior art, the utility model discloses a water monitoring facilities can take a sample to the water of the different degree of depth, and the sampling is comprehensive, has improved the accuracy of sample, has alleviateed the work degree of difficulty of sampling personnel, and can detect through water detection device real-time online, obtains the water quality testing data in detection waters in real time, convenient and fast, and easy operation improves work efficiency.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. A water body monitoring device, its characterized in that: the water body sampling device comprises a box body and a water body monitoring device arranged in the box body, wherein a partition plate is arranged in the box body, the partition plate separates a first cavity and a second cavity from the box body, the water body monitoring device is fixed on the box body through a fixing plate, the fixing plate is arranged in the second cavity, and a water body sampling probe device is arranged in the first cavity and used for detecting and sampling a monitoring water body.

2. The water body monitoring apparatus of claim 1, wherein: and a plurality of water inlet holes arranged in an array are formed in one side of the box body.

3. The water body monitoring apparatus of claim 2, wherein: the water inlet hole upper cover is provided with a metal mesh layer, and the metal mesh layer comprises a honeycomb layer, a defoaming film and a water seepage layer which are sequentially stacked.

4. The water body monitoring apparatus of claim 1, wherein: and the fixing plate is provided with a fixing ring for fixing the water body monitoring device.

5. The water body monitoring apparatus of claim 1, wherein: the water body sampling probe device includes lifter, driving motor, unwrapping wire ware, probe and sampler barrel, the lifter sets up in the box, the lifter by the driving motor drive, the probe sets up the lower extreme of lifter, the winding is provided with the connecting wire on the unwrapping wire ware, the lower extreme of connecting wire with the sampler barrel is connected, the unwrapping wire ware include the drum, with the coaxial first gear that sets up of drum and with the coaxial second gear that sets up of driving motor, the second gear with first gear meshes mutually.

6. The water body monitoring apparatus of claim 5, wherein: the probe adopts a PH monitoring probe.

7. The water body monitoring apparatus of any one of claims 1-6, wherein: the water body monitoring device comprises an ammonia nitrogen monitor and a COD monitor which are arranged in parallel.

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