CN205317766U - Moisture separation device and fluid monitoring station - Google Patents

Abstract

The utility model provides a moisture separation device sets up in a fluid monitoring station. Moisture separation device contains a baffler, a collection box and an absorbent material. The baffler is an upper portion space and a lower part space with fluid monitoring station partition. The collection box sets up in the baffler below, wherein, a collection box lateral wall that contains a bottom and be connected with the bottom, top and the baffler of just collecting the box have a clearance within a definite time. Absorbent material sets up in collecting the box, in order to absorb the moisture. Above -mentioned moisture separation device can be prevented the lower part space moisture in the flow stopping body monitoring station and invade the upper portion space and cause the electron device in the space of upper portion to damage.

Description

Moisture barrier device and fluid inspection station

[technical field]

This utility model is relevant a kind of baffling device, particularly a kind of moisture barrier device and the fluid inspection station comprising this moisture barrier device.

[background technology]

The process of industry manufacture will necessarily produce waste water. In order to meet environmental regulation, just the monitoring index of waste water needs conformance with standard value to discharge. In order to monitor whether manufacturer meets environmental regulation, regulatory bodies also need the water quality monitoring water of releasing using as management foundation. Water of releasing in the past is to carry out pre-treatment control inspecting in the way of artificial sample chemical examination, but, artificial sample chemical examination is to belong to stochastical sampling, does not therefore have ageing, and cannot set up long-term observation data. Additionally, artificial sample chemical examination labor intensive, and water analysis somewhat expensive, it is not inconsistent economic benefit.

Relatively more feasible scheme is then for setting up the monitoring station of automatization in Water-quality Monitoring Points, to measure water quality data for a long time. But, Water-quality Monitoring Points is positioned at delivery pipe river outlet more, and therefore the electronic equipment of automatization is easily subject to moisture attack and damages. In view of this, dampness how is avoided to cause the electronic equipment damage in monitoring station to be the target that current pole need to be made great efforts.

[utility model content]

This utility model provides a kind of moisture barrier device and fluid inspection station, it is to utilize moisture barrier device that fluid inspection station is separated into upper space and lower space, and absorbing dampness by hygroscopic material, the dampness to reduce lower space invades upper space and causes the electronic installation in upper space to damage.

The moisture barrier device of this utility model one embodiment is disposed in a fluid monitoring station. Moisture barrier device comprises a baffler, a disposable box and a hygroscopic material. Fluid inspection station is divided into a upper space and a lower space by baffler. Disposable box is arranged at below baffler, and wherein, disposable box comprises the sidewall being connected bottom one and with bottom, and has a gap between the top of disposable box and baffler. Hygroscopic material is arranged in disposable box, to absorb dampness.

The fluid inspection station of another embodiment of this utility model comprises a housing, a moisture barrier device, a detecting device and a sampling fluids case. Moisture barrier device is arranged in housing. Moisture barrier device comprises a baffler, a disposable box and a hygroscopic material.Baffler will be divided into a upper space and a lower space in housing. Disposable box is arranged at below baffler, and wherein, disposable box comprises the sidewall being connected bottom one and with bottom, and has a gap between the top of disposable box and baffler. Hygroscopic material is arranged in disposable box, to absorb dampness. Detecting device has at least one sensor, and detecting device is arranged at the upper space in housing. Sampling fluids case extracts a fluid to be detected in sampling fluids case, measures a monitoring numerical value of fluid for sensor.

Appended graphic elaborate is coordinated below, when being easier to understand the purpose of this utility model, technology contents, feature and the effect reached thereof by specific embodiment.

[accompanying drawing explanation]

Fig. 1 is a schematic diagram, the moisture barrier device of display this utility model one embodiment.

Fig. 2 is a schematic diagram, the cross-section structure of the moisture barrier device of display this utility model one embodiment.

Fig. 3 is a schematic diagram, the fluid inspection station of display this utility model one embodiment.

[symbol description]

10 moisture barrier devices

100 fluid inspection stations

11 bafflers

111 sliding trays

12 disposable boxes

Bottom 121

122 sidewalls

123 handles

124 protuberances

13 hygroscopic materials

14 connectors

141 sliding parts

20 detecting devices

21 sensors

30 sampling fluids casees

31 flow inlet

31P influent stream pipe

31V influent stream valve

32 outlets

32P discharge pipe

32V dump valve

33 spoilers

34 lids

40 communication units

50 generator units

DSP lower space

G gap

SP1 influent stream space

SP2 measures space

USP upper space

[detailed description of the invention]

Hereinafter will be described each embodiment of the present utility model, and coordinate graphic illustratively. Except the plurality of detailed description, this utility model also can be performed in other embodiment widely, and the replacement easily of any described embodiment, amendment, equivalence change are included in scope of the present utility model, and are as the criterion with claim. In the description of description, in order to make reader that this utility model to have more complete understanding, it is provided that many specific detail; But, this utility model is likely under the premise of clipped or whole specific detail, still can implement. Moreover, it is well known that step or element be not described in details, to avoid this utility model is formed unnecessary restriction. In graphic, same or similar element will represent with same or like symbol. It is specifically intended that the graphic use being only signal, size that not representation element is actual or quantity, some details is likely to not draw completely, in the hope of graphic succinct.

Refer to Fig. 1 to Fig. 3, the moisture barrier device 10 of an embodiment of the present utility model is disposed in a fluid monitoring station 100, causes damage to reduce dampness to invade the electronic installation in fluid inspection station 100. For example, fluid inspection station 100 comprises a housing 101, and namely detecting device 20 electronic installation such as grade is arranged in housing 101. Moisture barrier device 10 comprises baffler 11, disposable box 12 and a hygroscopic material 13. Baffler 11 will be divided into an a upper space USP and lower space DSP in the housing 101 at fluid inspection station 100. Appropriately designed baffler 11 can reduce dampness and enter upper space USP from lower space DSP. In an embodiment, the material of baffler 11 can be a high molecular polymer. For example, baffler 11 can be the high molecular polymer of foaming structure.

Disposable box 12 is arranged at the lower section of baffler 11, i.e. lower space DSP.Disposable box 12 comprises bottom one 121 and the sidewall 122 being connected with bottom 121, to define an accommodation space. Having a clearance G between the top of disposable box 12 and baffler 11, making accommodation space is an open state. Hygroscopic material 13 is arranged in the accommodation space of disposable box 12, to absorb dampness. In an embodiment, hygroscopic material 13 can be reusable hygroscopic material. Reuse consequently, it is possible to absorption dampness reaches after saturated hygroscopic material 13 may utilize the drying means such as Exposure to Sunlight, drying removal dampness, to reduce the consumption of hygroscopic material 13.

According to said structure, baffler 11 can reduce dampness and enter upper space USP from lower space DSP. Additionally, the available hygroscopic material 13 of the dampness of lower space DSP is absorbed, to reduce the humidity of lower space DSP, so can prevent dampness from entering upper space USP from lower space DSP further. In other words, the electronic installation being arranged at upper space USP can reduce the situation damaged because of moisture attack, to reduce maintenance manpower and the cost at fluid inspection station 100.

Referring again to Fig. 1 and Fig. 2, in an embodiment, moisture barrier device 10 of the present utility model more comprises a connection piece 14, and it is arranged at the lower surface of baffler 11. Disposable box 12 is arranged at and is positioned at the lower space DSP below baffler 11 on connector 14. In an embodiment, connector 14 comprises a sliding part 141, and the sidewall 122 of disposable box 12 comprises a protuberance 124. Protuberance 124 is corresponding to the sliding part 141 of connector 14, and is slidably disposed on sliding part 141. For example, sliding part 141 can be a slide rail or groove, and the protuberance 124 of disposable box 12 can be located on relative sliding part 141 and slide. According to this structure, disposable box 12 and can extract out along the direction of sliding part 141, in order to dry or change the hygroscopic material 13 in disposable box 12. In an embodiment, disposable box 12 has leader 123, and it is arranged at outside the sidewall 122 of disposable box 12. User can pass through handle 123 and exert a force, and disposable box 12 is extracted out along the direction of sliding part 141 easily. In short, namely disposable box 12 is similar to drawer structure relative to sliding part 141. Same, in an embodiment, baffler 11 has a sliding tray 111. So, namely baffler 11 or moisture barrier device 10 are slidably disposed in fluid inspection station 100.

Refer to Fig. 3, the fluid inspection station 100 of this utility model one embodiment comprises housing 101, moisture barrier device 10, detecting device 20 and a sampling fluids case 30. Moisture barrier device 10 is arranged in housing 101, is upper space USP and lower space DSP by the spatial separation in housing 101. The detailed construction of moisture barrier device 10 is not as it was previously stated, repeat them here. Detecting device 20 is arranged at the upper space USP in housing 101. Detecting device 20 has at least one sensor 21, to measure the monitoring numerical value of fluid. For example, detecting device 20 can measure pH value, suspended solid material (SuspendedSubstance, SS), electric conductivity, temperature, COD (ChemicalOxygenDemand, COD), one or more index in heavy metal.

Sampling fluids case 30 can extract a fluid to be detected in sampling fluids case 30, measures the monitoring numerical value of fluid for sensor 21. For example, sampling fluids case 30 comprises a flow inlet 31, and inflow pump P can extract fluid to be detected, and injects sampling fluids case 30 via the influent stream pipe 31P connected with flow inlet 31.Sampling fluids case 30 more comprises an outlet 32, and fluid in sampling fluids case 30 can be discharged by it via the discharge pipe 32P connected with outlet 32. Constantly introducing fluid from flow inlet 31, then discharge from outlet 32, so, namely detecting device 20 measures the monitoring numerical value of fluid serially. In an embodiment, influent stream pipe 31P can arrange an influent stream valve 31V, so can be controlled the influent stream amount of influent stream pipe 31P by influent stream valve 31V. In like manner, discharge pipe 32P can arrange a dump valve 32V, so can be controlled the output of discharge pipe 32P by dump valve 32V. In an embodiment, sampling fluids case 30 is arranged at the lower space DSP of housing 101, so can simplify the station body design at fluid inspection station 100, and can reduce the volume of station body.

In an embodiment, sampling fluids case 30 more comprises a spoiler 33. Sampling fluids case 30 is divided into an influent stream space S P1 and and measures space S P2 by spoiler 33, and wherein, flow inlet 31 influent stream space S P1 connects, and outlet 32 and measurement space S P2. The fluid introduced from flow inlet 31 can first fill influent stream space S P1, overflow across spoiler 33 afterwards again and overflow to measuring space S P2, so can reduce the liquid fluctuating measuring space S P2, make detecting device 20 can obtain relatively stable measurement numerical value. In an embodiment, sampling fluids case 30 comprises a lid 34, and it covers sampling fluids case 30 and produces to reduce dampness, it is possible to reduce the interference of outer bound pair sensor 21.

The index value that detecting device 20 measures can be stored in storage device built-in in fluid inspection station 100, for instance memorizer, hard disk, CD, tape etc. Or, the index value that detecting device 20 measures also can be uploaded to the server of far-end. In an embodiment, fluid inspection station 100 of the present utility model more comprises a communication unit 40, and itself and detecting device 20 are electrically connected. The monitoring numerical value of the fluid that detecting device 20 measures can be sent to the server of far-end by communication unit 40. For example, communication unit 40 may utilize the modes such as wired area network, radio area network, mobile communications network and transfers data to the server of far-end.

In an embodiment, fluid inspection station 100 of the present utility model more comprises a generator unit 50, and itself and detecting device 20 are electrically connected. Generator unit 50 can self-generating, to produce the power supply needed for detecting device 20. For example, generator unit 50 can be solar module, wind-driven generator, hydroelectric generator or above combination.

Summary, one moisture barrier device is set in fluid inspection station of the present utility model, fluid inspection station to be separated into upper space and lower space, and moisture barrier device can prevent the dampness of lower space from entering upper space, thus avoid the electronic installation being arranged in upper space, for instance detecting device, display etc. damage because dampness invades. In addition, swapping type design disposable box be conducive to user supplement, change or dry disposable box in hygroscopic material.

Embodiment described above is only for technological thought of the present utility model and feature are described, its purpose will appreciate that the content of this utility model and implements according to this making those skilled in the art, when can not with restriction the scope of the claims of the present utility model, namely the equalization generally made according to the spirit that this utility model is disclosed changes or modifies, and must be encompassed in the scope of the claims of the present utility model.

Claims (20)

1. a moisture barrier device, it is disposed in a fluid monitoring station, it is characterised in that this moisture barrier device comprises:

One baffler, this fluid inspection station is divided into a upper space and a lower space by it;

One disposable box, it is arranged at below this baffler, and wherein this disposable box comprises the sidewall being connected bottom one and with bottom this, and has a gap between the top of this disposable box and this baffler; And

One hygroscopic material, it is arranged in this disposable box, to absorb dampness.

2. moisture barrier device as claimed in claim 1, it is characterised in that more comprise:

A connection piece, it is arranged at the lower surface of this baffler, and wherein, this disposable box is arranged at this connector.

3. moisture barrier device as claimed in claim 2, it is characterised in that this connector comprises a sliding part, and this sidewall of this disposable box comprises a protuberance, and this protuberance is slidably disposed in this sliding part.

4. moisture barrier device as claimed in claim 3, it is characterised in that this disposable box has leader, and it is arranged at this side-wall outer side of this disposable box.

5. moisture barrier device as claimed in claim 1, it is characterised in that this baffler has a sliding tray, to be slidably disposed in this fluid inspection station.

6. moisture barrier device as claimed in claim 1, it is characterised in that the material of this baffler is high molecular polymer.

7. moisture barrier device as claimed in claim 1, it is characterised in that this baffler is foaming structure.

8. moisture barrier device as claimed in claim 1, it is characterised in that this hygroscopic material is reusable hygroscopic material.

9. a fluid inspection station, it is characterised in that comprise:

One housing;

One moisture barrier device, it is arranged in this housing, and this moisture barrier device comprises:

One baffler, it will be divided into a upper space and a lower space in this housing;

One disposable box, it is arranged at below this baffler, and wherein, this disposable box comprises the sidewall being connected bottom one and with bottom this, and has a gap between the top of this disposable box and this baffler; And

One hygroscopic material, it is arranged in this disposable box, to absorb dampness;

One detecting device, it has at least one sensor, and this detecting device is arranged at this upper space in this housing; And

One sampling fluids case, it extracts a fluid to be detected in this sampling fluids case, measures a monitoring numerical value of this fluid for this sensor.

10. fluid inspection station as claimed in claim 9, it is characterised in that this sampling fluids case is arranged at this lower space in this housing.

11. fluid inspection station as claimed in claim 9, it is characterized in that, this sampling fluids case comprises a spoiler, and this sampling fluids case is divided into an influent stream space and and measures space by it, and this fluid is to measure from this influent stream space overflow to this measurement space.

12. fluid inspection station as claimed in claim 9, it is characterised in that more comprise:

One communication unit, it is electrically connected with this detecting device, in order to transmit this monitoring numerical value of this fluid to a server.

13. fluid inspection station as claimed in claim 9, it is characterised in that more comprise:

One generator unit, it is electrically connected with this detecting device, in order to produce the power supply needed for this detecting device.

14. fluid inspection station as claimed in claim 9, it is characterised in that this moisture barrier device more comprises a connection piece, and it is arranged at the lower surface of this baffler, and this disposable box is arranged at this connector.

15. fluid inspection station as claimed in claim 14, it is characterised in that this connector comprises a sliding part, and this sidewall of this disposable box comprises a protuberance, and this protuberance is slidably disposed in this sliding part.

16. fluid inspection station as claimed in claim 15, it is characterised in that this disposable box has leader, and it is arranged at this side-wall outer side of this disposable box.

17. fluid inspection station as claimed in claim 9, it is characterised in that this baffler has a sliding tray, to be slidably disposed in this housing.

18. fluid inspection station as claimed in claim 9, it is characterised in that the material of this baffler is high molecular polymer.

19. fluid inspection station as claimed in claim 9, it is characterised in that this baffler is foaming structure.

20. fluid inspection station as claimed in claim 9, it is characterised in that this hygroscopic material is reusable hygroscopic material.