CN217543089U - On-line water quality analysis equipment - Google Patents

Abstract

The application provides an online water quality analysis device, which comprises a probe, an anti-blocking cage, a vertical rod and an electric cabinet; a power supply unit, a man-machine interaction module, a data receiving unit and a data sending unit are arranged in the electric cabinet; a plurality of water quality detection sensors are arranged in the probe; the probe is arranged in the anti-blocking cage, and the anti-blocking cage is connected with the vertical rod through a rope; the probe is electrically connected with the power supply unit, the plurality of water quality detection sensors are respectively in signal connection with the data receiving unit, and the data sending unit is in signal connection with the human-computer interaction module; the outer surface of the anti-blocking cage is uniformly provided with a plurality of thorns. Therefore, the technical scheme of the application can prolong the service life of equipment and improve the accuracy of water quality detection.

Description

On-line water quality analysis equipment

Technical Field

The application relates to the technical field of water quality analysis equipment, in particular to online water quality analysis equipment.

Background

Human beings can not leave water in life and production activities, and the quality of water quality is closely related to human health, so that water quality analysis is necessary. Water quality analysis uses chemical and physical methods to determine the content of various chemical components in water.

At present, when water quality analysis is carried out, a probe integrated with a water quality detection sensor can be deeply inserted into water to be detected, and various parameters in the water can be obtained by detecting the probe in real time through the sensor. However, because the existence of impurities cannot be avoided in water, the probe is placed in the water for a long time, the impurities can be blocked around the probe, so that the difference between the water quality around the probe and the water quality at other positions is larger, and the water quality result detected by the sensor can only reflect the water quality condition around the sensor but not the water quality conditions at other positions, so that the detection result is inaccurate.

SUMMERY OF THE UTILITY MODEL

The application provides an online water quality analysis equipment for solve among the prior art probe easily and block up, lead to the unsafe problem of water quality testing result.

The application provides an online water quality analysis device, which comprises a probe, an anti-blocking cage, a vertical rod and an electric cabinet;

a power supply unit, a man-machine interaction module, a data receiving unit and a data sending unit are arranged in the electric cabinet; a plurality of water quality detection sensors are arranged in the probe;

the probe is arranged in the anti-blocking cage, and the anti-blocking cage is connected with the vertical rod through a rope;

the probe is electrically connected with the power supply unit, the plurality of water quality detection sensors are respectively in signal connection with the data receiving unit, and the data sending unit is in signal connection with the human-computer interaction module;

the outer surface of the anti-blocking cage is uniformly provided with a plurality of thorns.

Optionally, the anti-blocking cage is a spherical structure, and the anti-blocking cage and the plurality of spines are integrally formed.

Optionally, a cylindrical storage structure adapted to the probe is fixedly connected to the inside of the anti-blocking cage, and each surface forming the storage structure is a mesh surface.

Optionally, a spring is fixedly arranged at two ends in the cylindrical receiving structure.

Optionally, the online water quality analysis equipment further comprises an automatic flushing device, wherein the automatic flushing device comprises a water pump, a timer, a controller and two spray heads; the time-recorder is connected with the controller electricity, and the controller is connected with the water pump electricity, and the water pump is fixed in electric cabinet, and the shower nozzle passes through the pipe connection with the water pump, and two shower nozzle symmetries set up on two surfaces that the structure is relative are accomodate to the column, and the shower nozzle orientation prevents stifled cage.

Optionally, the online water quality analysis device further comprises a solar panel, the solar panel is arranged at the top end of the electric cabinet, and the solar panel is electrically connected with the power supply unit.

Optionally, the online water quality analysis device further comprises an antenna, a cloud platform and a terminal;

the antenna is in signal connection with the data sending unit, the antenna is also in signal connection with the cloud platform, and the cloud platform is in signal connection with the terminal.

Optionally, the plurality of water quality detection sensors include at least one of a ph sensor, an oxidation-reduction potential sensor, a transparency sensor, a conductivity sensor, a turbidity sensor, a dissolved oxygen sensor, a temperature sensor, an ammonia nitrogen sensor, an ultraviolet chemical oxygen demand sensor, an ultraviolet nitrate sensor, a chlorophyll sensor, and a blue-green algae sensor.

According to the online water quality analysis equipment provided by the embodiment of the application, the anti-blocking cage outside the probe is additionally arranged, so that part of impurities are effectively prevented from entering the anti-blocking cage, the impurities are prevented from being accumulated around the probe, and the probe is prevented from being rubbed and impacted by other objects around the probe. Meanwhile, thorns are arranged on the outer surface of the anti-blocking cage, so that impurities in water are further effectively blocked. Compare in prior art and not set up stifled device, this application technical scheme sets up the thorn prevent stifled cage, not only can prolong the life of equipment, can also reduce debris and pile up around the probe to reduce quality of water around the probe and the gap of other position department quality of water, improve the quality of water detection accuracy.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of an online water quality analysis apparatus according to an embodiment of the present application;

FIG. 2 is a schematic external view of an anti-clogging cage according to another embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an electrical cabinet according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an electrical cabinet according to another embodiment of the present application;

fig. 5 is a schematic view of an internal structure of the anti-blocking cage according to an embodiment of the present application.

In the figure: the intelligent anti-blocking device comprises a probe 1, an anti-blocking cage 2, a vertical rod 3, an electric cabinet 4, a power supply unit 5, a data receiving unit 6, a data sending unit 7, a man-machine interaction module 8, a thorn 9, a sprayer 10, a timer 11, a controller 12, a water pump 13, a solar cell panel 14, an antenna 18, a cloud platform 19, a terminal 20, a spring 21 and a columnar storage structure 22.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application are clearly and completely described below, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. In addition, it should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Fig. 1 is an online water quality analyzing apparatus according to an embodiment of the present application. As shown in figure 1, the online water quality analysis equipment comprises a probe 1, an anti-blocking cage 2, a vertical rod 3 and an electric cabinet 4.

With reference to fig. 3, a power supply unit 5, a human-computer interaction module 8, a data receiving unit 6 and a data sending unit 7 are arranged in the electric cabinet 4; a plurality of water quality detection sensors are arranged in the probe 1.

The probe 1 set up in prevent stifled cage 2 is interior, prevent stifled cage 2 through the rope with montant 3 is connected.

The probe 1 is electrically connected with the power supply unit 5, the plurality of water quality detection sensors are respectively in signal connection with the data receiving unit 6, and the data sending unit 7 is in signal connection with the human-computer interaction module 8.

Referring to fig. 2, a plurality of stabs 9 are uniformly arranged on the outer surface of the anti-blocking cage 2.

The working principle of the online water quality analysis equipment is as follows:

fixing the vertical rod 3 at the bank side in advance;

putting the probe 1 into the anti-blocking cage 2;

the anti-blocking cage 2 is placed in water to be detected, and in order to facilitate the retraction of the anti-blocking cage 2, the anti-blocking cage 2 is connected with a shore vertical rod 3 through a rope;

the water flows through the anti-blocking cage 2, the anti-blocking cage 2 blocks sundries in the water, and the impurities are blocked outside the anti-blocking cage 2 and cannot pass through the anti-blocking cage 2;

for example, the debris of elongated shape such as little branch, little stick can block through preventing stifled cage 2 body, can block through the thorn 9 of preventing stifled cage 2 outside to the great shape of area such as rectangle, circular, oval, for example, oval leaf can be stabbed when preventing stifled cage 2 in the flowing through, and stops on thorn 9 to be blocked outside preventing stifled cage 2.

The water with less impurities flows to a water quality detection sensor;

the probe 1 is electrically connected with a power supply unit 5 in the electric cabinet 4, after the probe is electrified, each water quality detection sensor in the probe 1 detects corresponding parameters of water quality in real time, and a detection result is sent to a data receiving unit 6;

the data receiving unit 6 sends the detection result to the data sending unit 7, the data sending unit 7 sends the detection result to the human-computer interaction module 8, and the human-computer interaction module 8 displays the detection result to achieve online real-time display of the detection result.

According to the online water quality analysis equipment provided by the embodiment of the application, the anti-blocking cage 2 outside the probe 1 is additionally arranged, so that part of sundries are effectively prevented from entering the anti-blocking cage 2, the sundries are prevented from being accumulated around the probe 1, and the probe 1 is prevented from being rubbed and impacted by other objects around. Meanwhile, the outer surface of the anti-blocking cage 2 is provided with the thorns 9, so that impurities in water are further effectively blocked. Compare and do not set up in prior art and prevent stifled device, this application technical scheme sets up the thorn prevent stifled cage, not only can prolong the life of equipment, can also reduce debris and pile up around probe 1 to reduce quality of water and locate the difference of quality of water around probe 1 and other positions, improve the water quality testing accuracy.

In addition, the online water quality analysis equipment provided by the embodiment of the application directly detects water quality through the water quality detection sensor, and compared with the detection through a reagent and test paper, the online water quality analysis equipment provided by the embodiment of the application is convenient and simple to operate and high in efficiency.

It should be noted here that the density of the net constituting the anti-blocking cage 2 may be determined according to actual conditions, for example, the water to be measured is in public places, and thus, sundries are likely to be accumulated, and the net may be set to be a net with a higher density, for example, the density of the net of the anti-blocking cage 2 is set to be the net with the density at the central position in fig. 2; if the object to be measured is not located in public, where the accumulation of impurities is relatively slow, a net with a lower density can be used, for example, a net with a density of the net of the plugging prevention cage 2 set to the density at the edge position in fig. 2.

It should be noted that, in fig. 2, nets of two densities are shown on the same anti-blocking cage, which is only for convenience of description, and the nets of the same anti-blocking cage 2 have the same density in practical use.

Further, the density of the thorns 9 on the outer surface of the anti-blocking cage 2 can be determined according to the characteristics of the sundries, for example, the sundries with larger area in the water to be detected are more, the sundries with smaller area are less, the density of the thorns 9 is high, and if the sundries with larger area and the sundries with smaller area in the water to be detected are more, the density of the thorns 9 is low.

Of course, the density of the net of the anti-blocking cage 2 and the density of the barbs 9, such as the water flow speed, may also be set according to other situations, and the embodiment of the present invention is not limited and is not described in detail herein.

Optionally, the human-computer interaction module 8 may be a display screen, and further may be a touch screen.

Optionally, referring to fig. 2, the anti-blocking cage 2 is a spherical structure, and the anti-blocking cage 2 is integrally formed with the plurality of spines 9.

Compared with the arrangement of the anti-blocking cage 2 in other shapes, for example, the anti-blocking cage is in a cuboid shape, the anti-blocking cage 2 is arranged in a spherical shape, the spherical surface has a certain radian, so that sundries can easily flow away along with water, the accumulation of the sundries on the surface of the anti-blocking cage 2 is reduced, the possibility that the sundries enter the anti-blocking cage 2 and are accumulated around the probe 1 is reduced, the difference between the water quality around the probe 1 and the water quality at other positions is reduced, and the water quality detection accuracy is improved.

Optionally, referring to fig. 5, a cylindrical receiving structure 22 adapted to the probe 1 is fixedly connected in the anti-blocking cage 2, and each surface constituting the cylindrical receiving structure 22 is a mesh surface.

The columnar housing structure 22 houses the probe 1 therein, prevents collision of the probe 1, and plays a role of protecting the probe 1. Furthermore, the columnar accommodating structure 22 is set to be net-shaped, so that impurities can be prevented from contacting the probe 1 again, and the anti-blocking effect is achieved.

Optionally, the anti-blocking cage and the barbs may be made of stainless steel.

Alternatively, referring to fig. 5, springs 21 are fixedly disposed at both ends in the cylindrical receiving structure 22.

When the water quality detection sensor is placed in the cylindrical containing structure 22, the spring 21 can be firstly pressed to shorten the spring 21 so as to leave enough space for placing the probe 1 in the cylindrical containing structure 22; after insertion, the spring 21 is released, the spring 21 expands and presses the probe 1 to secure the probe 1 in the cylindrical receiving structure 22.

When the probe 1 needs to be removed, the spring 21 is first pressed to shorten the spring 21, so that enough space is left for the probe 1 to be easily removed.

When the probe 1 is detached or attached, the spring 21 at one end portion may be pressed, or the springs 21 at both end portions may be simultaneously pressed, so long as a sufficient space is formed to allow the probe 1 to be inserted or detached.

The specific shape of the columnar housing structure 22 is adapted to the shape of the probe 1, for example, when the probe 1 is a quadrangular prism, the columnar housing structure 22 is also a quadrangular prism, and when the probe 1 is a cylindrical shape, the columnar housing structure 22 is also a cylindrical shape.

The springs 21 at the two ends in the columnar storage structure 22 not only can make the probe 1 convenient to disassemble and assemble, but also can fasten the probe 1, so that the probe 1 is not easy to loosen and fall. Meanwhile, when encountering external collision, the spring 21 can also effectively buffer the collision force, thereby playing the role of protecting the probe 1.

In addition, compared with the case where the spring 21 is provided at one end portion, the spring 21 at both end portions can be simultaneously pressed to allow a more sufficient space for inserting or removing the probe 1, and the probe 1 can be more effectively fastened when the probe 1 is stored.

Optionally, referring to fig. 3 in combination with fig. 5, the online water quality analysis apparatus further includes an automatic flushing device, where the automatic flushing device includes a water pump 13, a timer 11, a controller 12, and two nozzles 10; timer 11 with controller 12 electricity is connected, controller 12 with water pump 13 electricity is connected, water pump 13 is fixed in electric cabinet 4, shower nozzle 10 with water pump 13 passes through the pipe connection, two shower nozzles 10 symmetry sets up on two surfaces that structure 22 is relative are accomodate to the column, shower nozzle 10 orientation prevent stifled cage 2.

The operating personnel sets for time-recorder 11 and washes the time, and every time presets time controller 12 and will control water pump 13 and begin work, and water pump 13 will be water supply pipe to the shower nozzle 10 of aquatic through the pipeline, washes through shower nozzle 10 and prevents stifled cage 2.

Furtherly, shower nozzle 10 is rotatable shower nozzle, and stifled cage 2 is prevented to the orientation, and two rotatable shower nozzles 10 spun hydroenergy cover wholly prevent stifled cage 2, reach and prevent stifled cage 2 comprehensive abluent effect.

Optionally, an automatic flushing assembly of the probe 1 may also be provided. The probe 1 is automatically flushed within a preset time, so that the accumulation of impurities around the probe 1 is reduced, the difference between the water quality around the probe 1 and the water quality at other positions is reduced, and the accuracy of water quality detection is improved.

Optionally, referring to fig. 3, the online water quality analyzing apparatus further includes a solar panel 14, the solar panel 14 is disposed at the top end of the electric cabinet 4, and the solar panel 14 is electrically connected to the power supply unit 5.

The solar energy is clean energy, not only is environment-friendly, but also reduces the cost. Meanwhile, the solar cell panel 14 is small in size, movable and easy to install.

Optionally, referring to fig. 4, the online water quality analysis device further includes an antenna 18, a cloud platform 19, and a terminal 20;

the antenna 18 is in signal connection with the data sending unit 7, the antenna 18 is also in signal connection with the cloud platform 19, and the cloud platform 19 is in signal connection with the terminal 20.

When the device is used, the data sending unit 7 receives the detection result from the data receiving unit 6, and sends the received detection result to the cloud platform 19 through the antenna 18, the cloud platform 19 pushes the detection result to the terminal 20, or the terminal 20 requests to download the detection result from the cloud platform 19.

Optionally, the plurality of water quality detection sensors include at least one of a ph sensor, an oxidation-reduction potential sensor, a transparency sensor, a conductivity sensor, a turbidity sensor, a dissolved oxygen sensor, a temperature sensor, an ammonia nitrogen sensor, an ultraviolet chemical oxygen demand sensor, an ultraviolet nitrate sensor, a chlorophyll sensor, and a blue-green algae sensor.

The type of the water quality sensor installed on the probe 1 can be determined according to the requirements, for example, when environmental protection enterprises need to detect whether water quality can be discharged, a pH value sensor, an ammonia nitrogen sensor and the like can be installed to ensure that waste water can be safely discharged. If the sensor is a turbidity sensor, a dissolved oxygen sensor, a temperature sensor, an ammonia nitrogen sensor and the like of an aquaculture enterprise, a good living environment of aquatic organisms is ensured.

Optionally, a glass window corresponding to the human-computer interaction module 8 is provided on the electric cabinet 4.

Therefore, data displayed on the human-computer interaction module 8 can be directly observed through the window, and convenience of checking the data by workers is improved.

Optionally, the glass window is sealed by a sealant.

After the sealing glue is used for sealing, water and wind can be prevented from entering the electric cabinet 4, the influence of the water and the wind on devices in the electric cabinet 4 is reduced, and the service life of the devices is prolonged.

Optionally, an alarm device may be further provided on the electrical cabinet 4, and the alarm device is connected to the data transmission unit 7.

The alarm device receives the detection data sent by the data sending unit 7, determines whether the detection result is qualified according to the detection data, and generates an alarm if the detection result is not qualified.

Further, the alarm device may include an audio sound generator, a light source, and the like.

Optionally, wireless data transmission modules may be disposed in the water quality detection sensor, the data receiving unit 6, the data sending unit 7, the terminal 20, and the cloud platform 19, so that when data transmission is required between devices or equipment, the wireless data transmission can be implemented through the wireless data transmission modules.

Furthermore, the Wireless data transmission module can be Bluetooth, wireless Fidelity (Wireless Fidelity, WIFI for short), mobile data and the like. The specific type used can be determined according to actual conditions. For example, mobile data can be used for long distances, and Bluetooth or WIFI can be used for short distances.

In the description of the present application, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Finally, it should be noted that all the contents not described in the technical solutions of the present application can be implemented by using the prior art. In addition, the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (8)

1. An on-line water quality analysis device is characterized by comprising a probe, an anti-blocking cage, a vertical rod and an electric cabinet;

a power supply unit, a man-machine interaction module, a data receiving unit and a data sending unit are arranged in the electric cabinet; a plurality of water quality detection sensors are arranged in the probe;

the probe is arranged in the anti-blocking cage, and the anti-blocking cage is connected with the vertical rods through ropes;

the probe is electrically connected with the power supply unit, the water quality detection sensors are respectively in signal connection with the data receiving unit, and the data sending unit is in signal connection with the human-computer interaction module;

the outer surface of the anti-blocking cage is uniformly provided with a plurality of thorns.

2. The on-line water quality analysis device of claim 1, wherein the anti-blocking cage is a spherical structure, and the anti-blocking cage and the plurality of spines are integrally formed.

3. The on-line water quality analysis equipment according to claim 2, wherein a cylindrical storage structure matched with the probe is fixedly connected in the anti-blocking cage, and each surface forming the storage structure is a net surface.

4. The on-line water quality analysis device of claim 3, wherein springs are fixedly arranged at two ends in the columnar storage structure.

5. The online water quality analysis equipment according to claim 3, further comprising an automatic flushing device, wherein the automatic flushing device comprises a water pump, a timer, a controller and two nozzles; the time-recorder with the controller electricity is connected, the controller with the water pump electricity is connected, the water pump is fixed in the electricity cabinet, the shower nozzle with the water pump passes through the pipe connection, two shower nozzle symmetries set up on two surfaces that the structure is relative are accomodate to the column, the shower nozzle orientation prevent stifled cage.

6. The on-line water quality analysis device of claim 5, further comprising a solar panel disposed at the top end of the electric cabinet, wherein the solar panel is electrically connected to the power supply unit.

7. The online water quality analysis device according to claim 6, further comprising an antenna, a cloud platform, and a terminal;

the antenna is in signal connection with the data sending unit, the antenna is also in signal connection with the cloud platform, and the cloud platform is in signal connection with the terminal.

8. The on-line water quality analyzing apparatus according to any one of claims 1 to 7, wherein the plurality of water quality detecting sensors include at least one of a pH sensor, an oxidation-reduction potential sensor, a transparency sensor, a conductivity sensor, a turbidity sensor, a dissolved oxygen sensor, a temperature sensor, an ammonia nitrogen sensor, an ultraviolet chemical oxygen demand sensor, an ultraviolet nitrate sensor, a chlorophyll sensor, and a blue-green algae sensor.

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