CN219935820U - Outdoor miniature water station - Google Patents

Abstract

The utility model relates to an outdoor miniature water station which comprises a cabinet, wherein a water collecting and distributing module, an analysis and monitoring module, a power distribution and control module and a reagent standard liquid pure water waste liquid storage module are arranged in the cabinet; the cabinet is internally provided with a first bin body, a second bin body, a third bin body and a fourth bin body, wherein the first bin body and the second bin body are positioned at two sides of the cabinet, and the third bin body and the fourth bin body are positioned at the front and rear positions of the cabinet; the water collecting and distributing module is located in the first bin body, the power distribution and control module is located in the second bin body, the analysis and monitoring module is located in the third bin body, and the reagent standard liquid pure water waste liquid storage module is located in the fourth bin body. The outdoor miniature water station designs the waterway and the circuit part in different bins by dividing the internal space of the cabinet, thus reducing the requirement on the insulation sealing property of the circuit and being beneficial to the long-term use stability and the system safety of the instrument.

Description

Outdoor miniature water station

Technical Field

The utility model belongs to the technical field of water quality monitoring, and particularly relates to an outdoor miniature water station.

Background

With the strengthening of national environmental protection policy, more and more rivers need to monitor their water quality, outdoor miniature station

And consequently, are generated; the outdoor miniature stations on the market at present have various forms on the premise of meeting basic test functions; in summary, the following technical problems exist:

waterway and circuit layout are together, and the insulating sealing requirement on the circuit is higher, and the long-term use stability and the system safety of the instrument are influenced.

Disclosure of Invention

In view of the above-mentioned problems in the prior art, the present utility model provides an outdoor miniature water station to solve at least one of the above-mentioned problems.

In order to achieve the above object, the present utility model provides the following technical solutions:

an outdoor miniature water station comprises a cabinet, wherein a water collecting and distributing module, an analysis and monitoring module, a power distribution and control module and a reagent standard liquid waste liquid storage module are arranged in the cabinet; the cabinet is internally provided with a first bin body, a second bin body, a third bin body and a fourth bin body, wherein the first bin body and the second bin body are positioned at two sides of the cabinet, and the third bin body and the fourth bin body are positioned at the front and rear positions of the cabinet; the water collecting and distributing module is located in the first bin body, the power distribution and control module is located in the second bin body, the analysis and monitoring module is located in the third bin body, and the reagent standard liquid waste liquid storage module is located in the fourth bin body.

Optionally, the water collecting and distributing module comprises: the sand setting device comprises a sand setting tank, wherein the bottom end of the sand setting tank is connected with a sample injection pipe, a first electric valve is arranged at the position, close to the bottom end of the sand setting tank, of the sample injection pipe, one end, which is not connected with the sand setting tank, of the sample injection pipe is connected with a drain pipe and a five-parameter tank sample injection pipe through a three-way joint, and a second electric valve is arranged on the drain pipe; the device comprises a first bypass pipe, a second bypass pipe and a third bypass pipe, wherein the first bypass pipe is provided with a fourth electric valve and a first manual regulating valve, the second bypass pipe is provided with a fifth electric valve and a second manual regulating valve, and the third bypass pipe is provided with a third manual regulating valve and a first check valve;

an overflow pipe is arranged on the grit chamber, and is connected with a five-parameter-chamber overflow pipe; the top of the grit chamber is connected with an air inlet pipe, and a fourth manual regulating valve and a sixth electromagnetic valve are arranged on the air inlet pipe.

Optionally, a fourth bypass pipe is further arranged on the sample inlet pipe, and a fifth manual adjusting valve and a second one-way valve are arranged on the fourth bypass pipe.

Optionally, a five-parameter pool is further arranged in the third bin, one end of the five-parameter pool sampling pipe, which is not connected with the three-way joint, is connected with the five-parameter pool, and the connection position is positioned at the bottom of the five-parameter pool; a third electric valve is arranged on the five-parameter pool sampling pipe; one end of the five-parameter pool overflow pipe, which is not connected with the overflow pipe, is connected with the five-parameter pool, and the connection position is positioned at the top of the five-parameter pool.

Optionally, the analysis and monitoring module comprises a first water quality analyzer, a second water quality analyzer, a third water quality analyzer, a fourth water quality analyzer and a fifth water quality analyzer; the first water quality analyzer, the second water quality analyzer, the third water quality analyzer, the fourth water quality analyzer and the fifth water quality analyzer are respectively connected with the grit chamber, and the five-parameter analyzer is connected with the five-parameter chamber; the first analyzer is a chemical oxygen demand water quality analyzer, the second analyzer is a total phosphorus water quality analyzer, the third analyzer is a total nitrogen water quality analyzer, the fourth analyzer is an ammonia nitrogen water quality analyzer, and the fifth analyzer is a permanganate index water quality analyzer.

Optionally, the power distribution and control module comprises a controller and a power supply, wherein the controller is respectively connected with the power supply, the first electric valve, the second electric valve, the third electric valve, the fourth electric valve, the fifth electric valve and the sixth electric valve.

Optionally, the power supply includes a battery and a UPS, the battery is connected to the UPS, and the UPS is connected to the controller.

Optionally, the reagent standard solution waste liquid pure water storage module comprises five groups of reagent containers, each group of reagent containers comprises a reagent container, a standard solution container, a pure water container and a waste liquid container, and each group of reagent containers is connected with a corresponding water quality analyzer.

Optionally, an air compressor and a water pump are further arranged in the fourth bin body.

Optionally, the first bin body, the second bin body, the third bin body and the fourth bin body are all provided with bin gates.

According to the outdoor miniature water station provided by the utility model, the waterway and the circuit part are designed in different bins by dividing the internal space of the cabinet, so that the requirement on the insulation tightness of the circuit is reduced, and the long-term use stability and the system safety of an instrument are facilitated.

Drawings

FIG. 1 is a schematic view showing the overall structure of an outdoor miniature water station according to an embodiment;

FIG. 2 shows a front view of the front door of FIG. 1 with the front door open;

FIG. 3 shows a left side view of the left side door of FIG. 1 when open;

FIG. 4 shows a right side view of the right side door of FIG. 1 with the door open;

FIG. 5 shows a rear view of the rear door of FIG. 1 with the rear door open;

FIG. 6 shows a schematic diagram of a waterway portion;

the reference numerals in the drawings:

the device comprises a cabinet 1, a first bin body 1-1, a second bin body 1-2, a third bin body 1-3, a fourth bin body 1-4, a sand settling tank 2, a sample injection pipe 3, a first electric valve 4, a three-way joint 5, a drain pipe 6, a five-parameter tank sample injection pipe 7, a second electric valve 8, a first bypass pipe 9, a second bypass pipe 10, a third bypass pipe 11, a fourth electric valve 12, a first manual regulating valve 13, a fifth electric valve 14, a second manual regulating valve 15, a third manual regulating valve 16, a first one-way valve 17, an overflow pipe 18, a five-parameter tank overflow pipe 19, an air inlet pipe 20, a fourth manual regulating valve 21, a sixth electromagnetic valve 22, a fourth bypass pipe 23, a fifth manual regulating valve 24, a second one-way valve 25, a five-parameter tank 26, a third electric valve 27, a first water quality analyzer 28, a second water quality analyzer 29, a third water quality analyzer 30, a fourth water quality analyzer 31, a fifth analyzer 32, a controller 33, a battery 34, a reagent container 35, a water pump 37, a water pump 36 and an air compressor 38.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an outdoor miniature water station in the embodiment includes a cabinet 1, in which a water collecting and distributing module, an analysis and monitoring module, a power distribution and control module and a reagent standard liquid waste liquid storage module are arranged; a first bin body 1-1, a second bin body 1-2, a third bin body 1-3 and a fourth bin body 1-4 are arranged in the cabinet, the first bin body and the second bin body are positioned at two sides of the cabinet, and the third bin body and the fourth bin body are positioned at front and rear positions of the cabinet; the water collecting and distributing module is located in the first bin body, the power distribution and control module is located in the second bin body, the analysis and monitoring module is located in the third bin body, and the reagent standard liquid pure water waste liquid storage module is located in the fourth bin body.

According to the outdoor miniature water station, the waterway and the circuit part are designed in different bins by dividing the internal space of the cabinet, so that the requirement on the insulation sealing performance of the circuit is reduced, and the long-term use stability and the system safety of the instrument are facilitated.

In this embodiment, the water collection and distribution module, the analysis and monitoring module, the power distribution and control module and the reagent standard liquid waste liquid storage module may use the existing structure, and in this embodiment, the applicant further makes the following design for the water collection and distribution module, see fig. 3 and 6, where the water collection and distribution module includes: the sand setting tank 2, the bottom of the sand setting tank is connected with a sample injection pipe 3, a first electric valve 4 is arranged at the position of the sample injection pipe close to the bottom of the sand setting tank, one end of the sample injection pipe, which is not connected with the sand setting tank, is connected with a drain pipe 6 and a five-parameter tank sample injection pipe 7 through a three-way joint 5, and a second electric valve 8 is arranged on the drain pipe; the feeding pipe is provided with a first bypass pipe 9, a second bypass pipe 10 and a third bypass pipe 11, the first bypass pipe is provided with a fourth electric valve 12 and a first manual regulating valve 13, the second bypass pipe is provided with a fifth electric valve 14 and a second manual regulating valve 15, and the third bypass pipe is provided with a third manual regulating valve 16 and a first check valve 17; an overflow pipe 18 is arranged on the grit chamber, and a five-parameter-chamber overflow pipe 19 is connected to the overflow pipe; the top of grit chamber is connected with intake pipe 20, be provided with fourth manual control valve 21 and sixth solenoid valve 22 on the intake pipe, still be provided with fourth bypass pipe 23 on the sampling pipe, be provided with fifth manual control valve 24 and second check valve 25 on the fourth bypass pipe, generally, foretell manual control valve is close to the setting of sampling pipe.

When the water sampling and distributing module is used, one end of the five-parameter pool sampling pipe which is not connected with the three-way joint is connected with the five-parameter pool 26, and the connection position is positioned at the bottom of the five-parameter pool; a third electric valve 27 is arranged on the five-parameter pool sampling pipe; one end of the five-parameter pool overflow pipe, which is not connected with the overflow pipe, is connected with the five-parameter pool, and the connection position is positioned at the top of the five-parameter pool. The five-parameter pool can be arranged in the third bin body. This structure forms the water route part of outdoor miniature water station, and water route part is after the installation, and ozone generator is connected to intake pipe 20, and air compressor machine is connected to first bypass pipe, and the tap water pipe is connected to the second bypass pipe, and sampling device is connected to the third bypass pipe, and the fourth bypass pipe is as reserve, influences the water station work when preventing valve damage on the third bypass pipe, and water route part theory of operation is as follows:

1. discharge of

The first electric valve 4, the second electric valve 8 and the third electric valve 27 are opened, and the sand setting tank and the five-parameter tank are discharged to test water samples last time;

after the discharge is completed; the first electrically operated valve 4, the second electrically operated valve 8 and the third electrically operated valve 27 are closed;

2. cleaning

The fourth electric valve 12 is opened, the third electric valve 27 is opened, and the five-parameter pipeline and the five-parameter pool are cleaned; after the cleaning is finished, the third electric valve 27 is closed, the first electric valve 4 is opened, and the sand basin and the pipeline are cleaned; after the cleaning is finished, the first electric valve 4 is closed, and the second electric valve 8 starts to clean the discharge pipeline;

after the air compressor is cleaned, tap water cleaning is started, and the cleaning flow is the same as that above;

after the cleaning is completed, the first electric valve 4, the second electric valve 8, the third electric valve 27, the fourth electric valve 12, and the fifth electric valve 17 are closed;

3. rinsing and washing

Washing the pipeline with a water sample; the third bypass pipe is connected with a water pump, the fourth bypass pipe is connected with a water pump, the water pump is started (the third manual adjusting valve can adjust the sample injection speed) by using the third bypass pipe as an example, the third electric valve 27 is started, the sample injection of the five-parameter pool is started, the third electric valve 27 is closed after the sample injection of the five-parameter pool is finished, and the five-parameter analyzer measures the water sample in the five-parameter pool; at the moment, the first electric valve 4 is opened, the sand basin starts to sample, after the sand basin finishes sample injection, the water pump stops working, and the first electric valve 4 is closed;

4. sample injection

Simultaneous sample injection and rinsing process

5. Standing still

Standing the grit chamber for 30 minutes, and starting an ozone generator to remove algae and sterilize a water sample in the grit chamber;

6. sample feeding

The analyzer starts to extract settled sand Chi Shuiyang and starts settled sand Chi Shuiyang measurement;

the structure has the following advantages:

the sample injection path of the water sample is shortest, and the reliability is high;

the pipeline, the grit chamber and the five-parameter tank are cleaned by using compressed air in combination with tap water, dead angles are avoided during cleaning, the compressed air can generate high-pressure driving force on attachments attached to the pipeline, the grit chamber or the five-parameter tank, and the adhesive force of the attachments is destroyed, so that the attachments can be taken away during cleaning by using tap water, and the cleaning effect is good;

the five-parameter pool keeps the original shape of the water sample as much as possible, and the test is closer to the true value;

it should be noted that the first manual adjustment valve 13 and the second manual adjustment valve 15 are generally opened, and are closed only when the corresponding electric valve fails, so as to facilitate maintenance.

In this embodiment, the analysis and monitoring module includes a first water quality analyzer 28, a second water quality analyzer 29, a third water quality analyzer 30, a fourth water quality analyzer 31, and a fifth water quality analyzer 32; the first water quality analyzer, the second water quality analyzer, the third water quality analyzer, the fourth water quality analyzer and the fifth water quality analyzer are respectively connected with the sand sedimentation tank, and the five-parameter analyzer is connected with the five-parameter tank; the first analyzer is a chemical oxygen demand water quality analyzer, the second analyzer is a total phosphorus water quality analyzer, the third analyzer is a total nitrogen water quality analyzer, the fourth analyzer is an ammonia nitrogen water quality analyzer, and the fifth analyzer is a permanganate index water quality analyzer. Wherein, five parameter analyzer is: the PH water quality analyzer, the temperature water quality analyzer, the dissolved oxygen water quality analyzer, the conductivity water quality analyzer and the turbidity water quality analyzer are arranged on the five parameter pool, and the PH water quality analyzer and the temperature water quality analyzer can be arranged together, which are well known to those skilled in the art and are not described herein. In the structure, five parameter pools: the water sample is not subjected to any treatment for five-parameter measurement (PH, temperature, turbidity, dissolved oxygen and conductivity), the original shape of the water sample is kept, and the test is closer to a true value; grit chamber: the water sample reaches the grit chamber through the pipeline, and is subjected to standing grit, ozone sterilization and algae removal for measurement by an analyzer (chemical oxygen demand, total phosphorus, total nitrogen, ammonia nitrogen and permanganate index), so that the interference on the test is reduced, and the test is closer to a true value;

in this embodiment, the power distribution and control module includes a controller 33 and a power source, where the controller is connected to the power source, the first electric valve, the second electric valve, the third electric valve, the fourth electric valve, the fifth electric valve, and the sixth electric valve, respectively. The power supply can only use the existing power supply to supply power, preferably the power supply comprises a battery 34 and a UPS, the battery is connected with the UPS, the UPS is connected with the controller, the UPS provides stable power for the system through the mains supply under the normal condition, meanwhile, the battery is charged, and under the condition of no mains supply, the battery discharges to temporarily supply power for the system, so that the stability of power supply is improved. The controller is used for replacing the original control mode of the PLC and the industrial personal computer, so that the structure is simpler and the space is saved.

In this embodiment, the reagent standard solution and waste liquid storage module includes five groups of reagent containers 35, each group of reagent containers includes a reagent container, a standard solution container, a pure water container and a waste liquid container, and each group of reagent containers is connected with a corresponding water quality analyzer to provide necessary conditions for the working of the water quality analyzer.

During actual manufacturing, the air compressor 36 and the water pump 37 can be arranged in the fourth bin body, the ozone generator is arranged in the first bin body, and bin gates 38 are arranged on the first bin body, the second bin body, the third bin body and the fourth bin body, so that corresponding modules can be maintained and overhauled conveniently.

It should be noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not necessarily referring to the same embodiment. Furthermore, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

It should be readily understood that the terms "on … …", "above … …" and "above … …" in this disclosure should be interpreted in the broadest sense such that "on … …" means not only "directly on something", but also includes "on something" with intermediate features or layers therebetween, and "above … …" or "above … …" includes not only the meaning "on something" or "above" but also the meaning "above something" or "above" without intermediate features or layers therebetween (i.e., directly on something).

Further, spatially relative terms, such as "below," "beneath," "above," "over," and the like, may be used herein for ease of description to describe one element or feature's relationship to another element or feature as illustrated. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may have other orientations (rotated 90 degrees or at other orientations), and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An outdoor miniature water station comprises a cabinet 1, wherein a water collecting and distributing module, an analysis and monitoring module, a power distribution and control module and a reagent standard liquid waste liquid storage module are arranged in the cabinet; it is characterized in that the method comprises the steps of,

a first bin body (1-1), a second bin body (1-2), a third bin body (1-3) and a fourth bin body (1-4) are arranged in the cabinet, the first bin body and the second bin body are positioned at two sides of the cabinet, and the third bin body and the fourth bin body are positioned at the front and rear positions of the cabinet;

the water collecting and distributing module is located in the first bin body, the power distribution and control module is located in the second bin body, the analysis and monitoring module is located in the third bin body, and the reagent standard liquid pure water waste liquid storage module is located in the fourth bin body.

2. The outdoor micro water station of claim 1, wherein the water collection and distribution module comprises: the sand setting device comprises a sand setting tank (2), wherein the bottom end of the sand setting tank is connected with a sample injection pipe (3), a first electric valve (4) is arranged at the position, close to the bottom end of the sand setting tank, of the sample injection pipe, one end, which is not connected with the sand setting tank, of the sample injection pipe is connected with a drain pipe (6) and a five-parameter tank sample injection pipe (7) through a three-way joint (5), and a second electric valve (8) is arranged on the drain pipe;

a first bypass pipe (9), a second bypass pipe (10) and a third bypass pipe (11) are arranged on the sample inlet pipe, a fourth electric valve (12) and a first manual regulating valve (13) are arranged on the first bypass pipe, a fifth electric valve (14) and a second manual regulating valve (15) are arranged on the second bypass pipe, and a third manual regulating valve (16) and a first one-way valve (17) are arranged on the third bypass pipe;

an overflow pipe (18) is arranged on the grit chamber, and a five-parameter-chamber overflow pipe (19) is connected to the overflow pipe;

the top of the grit chamber is connected with an air inlet pipe (20), and a fourth manual regulating valve (21) and a sixth electromagnetic valve (22) are arranged on the air inlet pipe.

3. The outdoor miniature water station according to claim 2, wherein a fourth bypass pipe (23) is further provided on the feed pipe, and a fifth manual adjustment valve (24) and a second one-way valve (25) are provided on the fourth bypass pipe.

4. The outdoor miniature water station according to claim 2, wherein a five-parameter pool (26) is further arranged in the third bin body, one end of the five-parameter pool sample inlet pipe, which is not connected with the three-way joint, is connected with the five-parameter pool, and the connection position is positioned at the bottom of the five-parameter pool; a third electric valve (27) is arranged on the five-parameter pool sampling pipe;

one end of the five-parameter pool overflow pipe, which is not connected with the overflow pipe, is connected with the five-parameter pool, and the connection position is positioned at the top of the five-parameter pool.

5. The outdoor micro water station of claim 4, wherein the analysis monitoring module comprises a first water quality analyzer (28), a second water quality analyzer (29), a third water quality analyzer (30), a fourth water quality analyzer (31), a fifth water quality analyzer (32), and a five parameter analyzer;

the first water quality analyzer, the second water quality analyzer, the third water quality analyzer, the fourth water quality analyzer and the fifth analyzer are respectively connected with the grit chamber, and the five-parameter analyzer is connected with the five-parameter chamber;

the first analyzer is a chemical oxygen demand water quality analyzer, the second analyzer is a total phosphorus water quality analyzer, the third analyzer is a total nitrogen water quality analyzer, the fourth analyzer is an ammonia nitrogen water quality analyzer, and the fifth analyzer is a permanganate index water quality analyzer.

6. The outdoor micro water station of claim 5, wherein the power distribution and control module comprises a controller (33) and a power source, the controller being connected to the power source, the first electrically operated valve, the second electrically operated valve, the third electrically operated valve, the fourth electrically operated valve, the fifth electrically operated valve, and the sixth electrically operated valve, respectively.

7. The outdoor micro water station of claim 6, wherein the power source comprises a battery (34) and a UPS, the battery being connected to the UPS, the UPS being connected to the controller.

8. The outdoor micro water station of claim 6, wherein the reagent standard pure water waste storage module comprises five sets of reagent containers (35), each set of reagent containers comprising a reagent container, a standard liquid container, a pure water container, and a waste container, each set of reagent containers being connected to a corresponding water quality analyzer.

9. The outdoor miniature water station according to claim 8, wherein an air compressor (36) and a water pump (37) are also provided in the fourth compartment.

10. The outdoor miniature water station of claim 8, wherein said first, second, third and fourth housings are each provided with a door (38).