CN210108779U - Water quality turbidity monitoring analyzer based on Internet of things - Google Patents

Abstract

The utility model discloses a water turbidity monitoring analyzer based on the Internet of things, which comprises a collecting mechanism for collecting water quality and an analyzing mechanism arranged on the collecting mechanism, wherein the collecting mechanism comprises a first mounting plate, a water collecting box arranged in the middle of the first mounting plate, a water collecting channel arranged in the water collecting box, a water collecting pipe arranged in the water collecting channel, a water collecting screw rod arranged in the water collecting pipe, a water lifting nut sleeved on the water collecting screw rod, a water collecting motor arranged in the water collecting box, a water storage box communicated with the water collecting pipe, an analyzing plug inserted in the water storage box, a wire arranging box connected with the analyzing plug through wires, and the analyzing mechanism comprises a second mounting plate, a lifting motor arranged on the second mounting plate, and a lifting screw rod with the top arranged at the driving end of the lifting motor and the bottom penetrating through the first mounting plate, and an internet of things box connected with the whole line box; this quality of water turbidity monitoring analysis appearance based on thing networking monitoring accuracy is high, and gather water data safety.

Description

Water quality turbidity monitoring analyzer based on Internet of things

Technical Field

The utility model relates to a monitoring facilities technical field especially relates to a quality of water turbidity monitoring analysis appearance based on thing networking.

Background

The water quality monitoring is a process for monitoring and measuring the types of pollutants in the water body, the concentrations and the variation trends of various pollutants and evaluating the water quality condition. The monitoring range is very wide, and the monitoring range comprises uncontaminated and contaminated natural water (rivers, lakes, seas and underground water), various industrial drainage and the like. The main monitoring projects can be divided into two main categories: one is a comprehensive index reflecting the water quality conditions, such as temperature, chroma, turbidity, pH value, conductivity, suspended matters, dissolved oxygen, chemical oxygen demand, biochemical oxygen demand and the like; the other is some toxic substances, such as phenol, cyanogen, arsenic, lead, chromium, cadmium, mercury, organic pesticides and the like. In order to objectively evaluate the water quality of rivers and oceans, it is sometimes necessary to measure the flow velocity and flow rate in addition to the above-mentioned monitoring items.

In water, once heavy metals such as mercury, cadmium, lead, chromium, metalloid arsenic and the like exceed the standard, the water pollution is easily caused. Heavy metals are very difficult to biodegrade, but can be enriched by thousands of times under the biological amplification action of a food chain and finally enter a human body, so that the monitoring of the content of the heavy metals in the water body is very important for the life and property safety of people at present.

The problem that the water quality of different depths and the inconvenient collection of the relatively poor department of topography such as the terrain is steeper, bank ground slip exists in current water turbidity monitoring analysis appearance based on thing networking, has not only influenced the degree of accuracy of water turbidity monitoring, and the operation personnel still have the potential safety hazard when gathering the water sample.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims at providing a water quality turbidity monitoring analysis appearance based on thing networking that turbidity monitoring degree of accuracy is high, and gather water data safety.

The utility model provides a technical scheme that its technical problem adopted is:

a water quality turbidity monitoring analyzer based on the Internet of things comprises a collecting mechanism used for collecting water quality, an analyzing mechanism arranged on the collecting mechanism and used for controlling the collecting mechanism to lift, wherein the collecting mechanism comprises a first mounting plate, a water collecting box arranged in the middle of the first mounting plate, a water collecting channel arranged in the water collecting box, a water collecting pipe arranged in the water collecting channel, a water collecting screw rod arranged in the water collecting pipe, a water lifting nut sleeved on the water collecting screw rod, a water collecting motor arranged in the water collecting box and used for driving the water collecting screw rod to rotate, a water storage box communicated with the water collecting pipe, an analyzing plug inserted in the water storage box, a wire arranging box connected with the analyzing plug through a wire, a lifting motor arranged on the second mounting plate, and a lifting motor driving end arranged at the top of the lifting motor, The bottom runs through the lifting screw of first mounting panel to reach the thing networking box of being connected with whole line box.

Furthermore, the week side of water lifting nut is fixed with the rubber circle, the rubber circle is with the inner wall looks butt of adopting the water pipe, the top of retaining box is for opening the setting, through the rotation of adopting the water screw rod, drives the water lifting nut and promotes to promote the water source and monitor in the retaining box.

Furthermore, water channel, water production pipe and water production screw rod all are equipped with three groups, and be triangle-shaped equipartition in the retaining box, each the length of water production screw rod is according to increasing progressively the setting, and the water that oozes at the retaining box top is via water channel discharge.

Further, open threaded hole on the first mounting panel, the screw hole uses the water production box to be the symmetry setting as the center, the lifting screw penetrates to the threaded hole in and forms the linkage with first mounting panel, the bottom of lifting screw is equipped with spacing piece of supporting, spacing diameter of supporting the piece is greater than the screw hole, the lifting screw via the rotation in the screw hole to drive the water production box and carry out first mounting panel and go up and down, the first mounting panel of lift drive water production box and go up and down, spacing piece of supporting then avoids the lifting screw to rotate and deviate from the screw hole.

Further, whole line box is including the whole line ware that can change back by oneself and encircle the electric wire on whole line ware, and the electric wire in whole line ware can be elongated, makes things convenient for the installation of thing networking box to take, the middle part of second mounting panel is equipped with the electric wire jack, in the electric wire in whole line box accessed thing networking box via the electric wire jack, avoid electric wire circuit alternately chaotic.

Further, the thing networking box is including the treater, and install the 433MHz wireless module in the treater, receives the quality of water data information that the analysis plug fed back through the treater, and data transmission to remote terminal in with the treater through 433MHz wireless module simultaneously, finally with quality of water turbidity information analysis to remote terminal's display screen on.

The utility model has the advantages that:

through the design of the acquisition mechanism, under the action of the water acquisition motor, the water acquisition screw is inserted into the water body and matched with the water lifting nut to take water, and the taken water source is stored in the water storage box for acquisition and analysis, so that the acquisition and analysis difficulty of the deep water body is greatly reduced, and the water quality analysis is simpler and more convenient; meanwhile, an analysis mechanism is also matched, and an operator only needs to stand at a safe position to control the on-off of the water sampling motor and the lifting motor, so that the water sampling operation can be completed, and the condition that the operator slips into lake water due to steep terrain and bank land slip when collecting water samples, so that the life danger is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a water turbidity monitoring analyzer based on the internet of things;

fig. 2 is a front view of the water turbidity monitoring analyzer based on the internet of things;

fig. 3 is the utility model relates to a water collection schematic structure diagram of quality of water turbidity monitoring analysis appearance based on thing networking.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Example 1

Referring to fig. 1-3, a water turbidity monitoring analyzer based on internet of things comprises a collecting mechanism 1 for collecting water quality, and an analyzing mechanism 2 arranged on the collecting mechanism 1 and used for controlling the lifting of the collecting mechanism 1, wherein the collecting mechanism 1 comprises a first mounting plate 3, a water collecting box 4 arranged in the middle of the first mounting plate 3, a water collecting channel 5 arranged in the water collecting box 4, a water collecting pipe 6 arranged in the water collecting channel 5, a water collecting screw 7 arranged in the water collecting pipe 6, a water lifting nut 8 sleeved on the water collecting screw 7, a water collecting motor 9 arranged in the water collecting box 4 and used for driving the water collecting screw 7 to rotate, a water storage box 10 communicated with the water collecting pipe 6, an analyzing plug 11 inserted in the water storage box 10, and a wire arranging box 12 connected with the analyzing plug 11 through wires, the analyzing mechanism 2 comprises a second mounting plate 13, and a lifting motor 14 arranged on the second mounting plate 13, a lifting screw 15 with the top mounted at the driving end of the lifting motor 14 and the bottom penetrating through the first mounting plate 3, and an internet of things box 16 connected with the whole line box 12.

The week side of water lifting nut 8 is fixed with rubber circle 17, the inner wall looks butt of rubber circle 17 and water sampling pipe 6, the top of retaining box 10 is for opening the setting, through the rotation of adopting water screw 7, drives water lifting nut 8 and promotes to promote the water source to monitor in retaining box 10, adopt water passageway 5, adopt water pipe 6 and adopt water screw 7 all be equipped with three groups, and be triangle-shaped equipartition in retaining box 10, each adopt the length of water screw 7 to be and increase progressively the setting according to this, the water that oozes at retaining box 10 top is via through-hole discharge water passageway 5, through the water screw 7 of adopting of three different lengths of group, can gather the water of the different degree of depth and carry out the comparison to reach the higher quality of water heavy metal content data of accuracy.

The utility model discloses a water sampling box, including first mounting panel 3, the last screw hole 18 that opens of first mounting panel 3, screw hole 18 uses water sampling box 4 to be the symmetry setting as the center, lifting screw 15 penetrates and forms the linkage with first mounting panel 3 in the screw hole 18, lifting screw 15's bottom is equipped with spacing piece 19 of supporting, spacing diameter of supporting piece 19 is greater than screw hole 18, and lifting screw 15 is via the rotation in screw hole 18 to drive water sampling box 4 and carry out first mounting panel 3 and go up and down, the lift of first mounting panel 3 drives water sampling box 4 and goes up and down in the lump, and spacing piece 19 of supporting then avoids lifting screw 15 to rotate and deviate from screw hole 18.

The wire arrangement box 12 comprises a wire arrangement device capable of automatically rotating back and wires surrounding the wire arrangement device, the wires in the wire arrangement device can be lengthened, the installation and taking of the box 16 of the internet of things are convenient, the middle part of the second mounting plate 13 is provided with an electric wire jack 20, the electric wires in the whole wire box 12 are connected into the box 16 of the internet of things through the electric wire jack 20, the cross disorder of electric wire circuits is avoided, the box 16 of the internet of things comprises a processor 21 and a 433MHz wireless module 22 arranged in the processor 21, receives the water quality data information fed back by the analysis plug 11 through the processor 21, meanwhile, the data in the processor is transmitted to a remote terminal through a 433MHz wireless module, and finally the water quality turbidity information is analyzed to a display screen of the remote terminal, in the present embodiment, the internet of things box 16 is FBOX-WIFI, but other models or configurations with equivalent effect may be used.

Instructions for use:

when the water collecting device is used, the second mounting plate 13 is fixed at a safe position, then the lifting motor 14 on the second mounting plate 13 is started, the lifting screw 15 rotates forwards, the first mounting plate 3 is lifted to a proper position, the water collecting motor 9 in the first mounting plate 3 is started, the water collecting screw 7 rotates forwards, the water lifting nut 8 is lowered out of the water collecting pipe 6, the water collecting screw 7 is controlled to rotate backwards after the water permeates into the water collecting pipe 6, the water lifting nut 8 is lifted to the bottom of the water storage box 10, at the moment, the water collected in the water storage box 10 collects data through the analysis plug 11 and is transmitted into the Internet of things box 16, after the water collecting device is used, the lifting screw 15 is controlled to rotate backwards, the first mounting plate 3 is lifted, the water collecting screw 7 is controlled to rotate forwards, the water is discharged, and the water collecting can be completed.

The utility model has the advantages that:

through the design of the acquisition mechanism, under the action of the water acquisition motor, the water acquisition screw is inserted into the water body and matched with the water lifting nut to take water, and the taken water source is stored in the water storage box for acquisition and analysis, so that the acquisition and analysis difficulty of the deep water body is greatly reduced, and the water quality analysis is simpler and more convenient; meanwhile, an analysis mechanism is also matched, and an operator only needs to stand at a safe position to control the on-off of the water sampling motor and the lifting motor, so that the water sampling operation can be completed, and the condition that the operator slips into lake water due to steep terrain and bank land slip when collecting water samples, so that the life danger is reduced.

The above embodiments of the present invention are not right the utility model discloses the limited protection scope, the utility model discloses an embodiment is not limited to this, all kinds of basis according to the above-mentioned of the utility model discloses an under the above-mentioned basic technical thought prerequisite of the utility model, right according to ordinary technical knowledge and the conventional means in this field the modification, replacement or the change of other multiple forms that above-mentioned structure made all should fall within the protection scope of the utility model.

Claims (6)

1. The utility model provides a quality of water turbidity monitoring analysis appearance based on thing networking, including the collection mechanism that is used for gathering quality of water, and set up in collection mechanism, be used for controlling the analysis mechanism who gathers the mechanism and go up and down, its characterized in that: the collection mechanism comprises a first mounting plate, a water collection box arranged in the middle of the first mounting plate, a water collection channel arranged in the water collection box, a water collection pipe arranged in the water collection channel, a water collection screw arranged in the water collection pipe, a water lifting nut sleeved on the water collection screw, a water storage box arranged in the water collection box and used for driving the water collection screw to rotate, an analysis plug inserted into the water storage box, and a wire arrangement box connected with the analysis plug through wires, wherein the analysis mechanism comprises a second mounting plate, a lifting motor arranged on the second mounting plate, a lifting screw arranged at the top of the lifting motor and used for penetrating through the first mounting plate at the driving end and the bottom of the lifting motor, and a box connected with the wire arrangement box and used for the Internet of things.

2. The water turbidity monitoring analyzer based on the internet of things as claimed in claim 1, which is characterized in that: the periphery of the water lifting nut is fixedly provided with a rubber ring, the rubber ring is abutted against the inner wall of the water sampling pipe, and the top of the water storage box is opened.

3. The water turbidity monitoring analyzer based on the internet of things as claimed in claim 2, which is characterized in that: the water sampling channels, the water sampling pipes and the water sampling screw rods are all provided with three groups and evenly distributed in the water storage box in a triangular shape, and the length of each water sampling screw rod is sequentially increased.

4. The water turbidity monitoring analyzer based on the internet of things as claimed in claim 1, which is characterized in that: the water collecting box is characterized in that the first mounting plate is provided with a threaded hole, the threaded hole is symmetrically arranged by taking the water collecting box as a center, the lifting screw penetrates into the threaded hole to be linked with the first mounting plate, the bottom of the lifting screw is provided with a limiting abutting block, and the diameter of the limiting abutting block is larger than that of the threaded hole.

5. The water turbidity monitoring analyzer based on the internet of things as claimed in claim 1, which is characterized in that: the wire arrangement box comprises a wire arrangement device capable of automatically rotating back and wires surrounding the wire arrangement device, wherein wire jacks are arranged in the middle of the second mounting plate, and the wires in the wire arrangement box are connected into the Internet of things box through the wire jacks.

6. The water turbidity monitoring analyzer based on the internet of things as claimed in claim 5, wherein: the thing networking box is including the treater, and install the 433MHz wireless module in the treater.

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