TWM524934U - Moisture barrier device and fluid monitoring station - Google Patents

Abstract

A moisture barrier device is disposed within a fluid monitoring station. The moisture barrier device includes a baffle plate, a box and an absorbent material. The fluid monitoring station is divided into an upper space and a lower space by the baffle plate. The box is disposed below the baffle plate, wherein the box includes a bottom and a sidewall connecting the bottom and between the top of the box and the baffle plate has a gap. The absorbent material is disposed in the box to absorb moisture. The foregoing moisture barrier device can prevent moisture in the lower space of the fluid monitoring station from invading the upper space to cause damage to electronic devices in the upper space.

Description

Moisture barrier and fluid monitoring station

The present invention relates to a barrier device, and more particularly to a moisture barrier device and a fluid monitoring station including the moisture barrier device.

Waste water is inevitably produced in the process of industrial manufacturing. In order to comply with environmental regulations, monitoring indicators for wastewater must meet standard values for emissions. In order to monitor whether manufacturers comply with environmental regulations, the regulatory authorities also need to monitor the quality of the discharged water as a basis for management. In the past, the discharge water was pre-processed and controlled by manual sampling and testing. However, the manual sampling test was random sampling, so it was not time-sensitive and could not establish long-term observation data. In addition, manual sampling and testing are labor intensive, and water quality analysis is expensive and inconsistent with economic benefits.

A more feasible solution is to set up an automated monitoring station at the water quality monitoring point to measure water quality data over a long period of time. However, water quality monitoring points are mostly located at the confluence of the discharge pipe, so the automated electronic equipment is easily damaged by moisture erosion. In view of this, how to avoid the damage of electronic equipment in the monitoring station caused by moisture is the goal that is currently in great need.

The present invention provides a moisture barrier device and a fluid monitoring station for separating a fluid monitoring station into an upper space and a lower space by using a moisture blocking device, and absorbing moisture by the moisture absorbing material to reduce moisture intrusion in the lower space. The upper space causes damage to the electronic device in the upper space.

The moisture barrier device of one embodiment of the present invention is disposed in a fluid monitoring station. The moisture barrier device comprises a barrier plate, a collection box and a moisture absorbing material. The baffle partitions the fluid monitoring station into an upper space and a lower space. The collecting box is disposed under the baffle, wherein the collecting box comprises a bottom and a side wall connected to the bottom, and a gap is formed between the top of the collecting box and the baffle. The hygroscopic material is disposed in the collection box to absorb moisture.

The fluid monitoring station of another embodiment of the present invention includes a housing, a moisture blocking device, a detecting device, and a fluid sampling box. The moisture barrier device is disposed in the housing. The moisture barrier device comprises a barrier plate, a collection box and a moisture absorbing material. The baffle partitions the interior of the housing into an upper space and a lower space. The collecting box is disposed under the baffle, wherein the collecting box comprises a bottom and a side wall connected to the bottom, and a gap is formed between the top of the collecting box and the baffle. The hygroscopic material is disposed in the collection box to absorb moisture. The detecting device has at least one sensor, and the detecting device is disposed in an upper space inside the casing. The fluid sampling tank extracts a fluid to be detected in the fluid sampling tank for monitoring the value of one of the sensor measuring fluids.

In the following, the specific embodiments and the accompanying drawings are explained in detail, and it is easier to understand the purpose, technical content, characteristics and effects achieved by the present invention.

The various embodiments of the present invention will be described in detail below with reference to the drawings. In addition to the detailed description, the present invention may be widely practiced in other embodiments, and any alternatives, modifications, and equivalent changes of the described embodiments are included in the scope of the present invention. quasi. In the description of the specification, a number of specific details are provided for the reader to have a more complete understanding of the present invention; however, the present invention may be implemented without omitting some or all of the specific details. In addition, well-known steps or elements are not described in detail to avoid unnecessarily limiting the present invention. The same or similar elements in the drawings will be denoted by the same or similar symbols. It is to be noted that the drawings are for illustrative purposes only and do not represent the actual dimensions or quantities of the components. Some of the details may not be fully drawn in order to facilitate the simplicity of the drawings.

Referring to FIG. 1 to FIG. 3, the moisture barrier device 10 of one embodiment of the present invention is disposed in a fluid monitoring station 100 to reduce damage caused by moisture intruding into the electronic device in the fluid monitoring station 100. For example, the fluid monitoring station 100 includes a housing 101, and the electronic device such as the detecting device 20 is disposed in the housing 101. The moisture barrier device 10 includes a barrier plate 11, a collection box 12, and a moisture absorbing material 13. The baffle 11 partitions the interior of the housing 101 of the fluid monitoring station 100 into an upper space USP and a lower space DSP. A suitably designed baffle 11 reduces moisture from entering the upper space USP from the lower space DSP. In an embodiment, the material of the baffle 11 may be a high molecular polymer. For example, the barrier layer 11 may be a high molecular polymer of a foamed structure.

The collecting box 12 is disposed below the baffle plate 11, that is, the lower space DSP. The collection box 12 includes a bottom portion 121 and side walls 122 connected to the bottom portion 121 to define an accommodation space. A gap G is formed between the top end of the collecting box 12 and the baffle plate 11, so that the accommodating space is in an open state. The moisture absorbing material 13 is disposed in the accommodating space of the collecting box 12 to absorb moisture. In one embodiment, the absorbent material 13 can be a resorptive material that can be reused. In this way, the moisture absorbing material 13 that absorbs moisture up to saturation can be reused by removing the moisture by a drying method such as drying, drying, or the like to reduce the consumption of the moisture absorbing material 13.

According to the above structure, the baffle plate 11 can reduce moisture from entering the upper space USP from the lower space DSP. In addition, the moisture of the lower space DSP can be absorbed by the moisture absorbing material 13 to reduce the humidity of the lower space DSP, so that moisture can be further prevented from entering the upper space USP from the lower space DSP. In other words, the electronic device disposed in the upper space USP can reduce the damage due to moisture erosion, thereby reducing the maintenance manpower and cost of the fluid monitoring station 100.

Referring to FIG. 1 and FIG. 2 again, in an embodiment, the moisture barrier device 10 of the present invention further includes a connecting member 14 disposed on the lower surface of the baffle plate 11. The collecting box 12 is disposed on the connecting member 14 and located in the lower space DSP below the baffle plate 11. In one embodiment, the connector 14 includes a sliding portion 141, and the sidewall 122 of the collection box 12 includes a projection 124. The protruding portion 124 corresponds to the sliding portion 141 of the connecting member 14 and is slidably disposed on the sliding portion 141. For example, the sliding portion 141 can be a sliding rail or a groove, and the protruding portion 124 of the collecting box 12 can slide across the opposite sliding portion 141. According to this configuration, the cartridge 12 can be collected in the direction of the sliding portion 141 to facilitate drying or replacement of the moisture absorbing material 13 in the collecting box 12. In one embodiment, the collection box 12 has a handle 123 disposed outside the side wall 122 of the collection box 12. The user can easily pull the collection box 12 in the direction of the sliding portion 141 by applying a force by the handle 123. In short, the collection box 12 is similar to the sliding portion 141 in a drawer structure. Similarly, in an embodiment, the baffle 11 has a sliding slot 111. As such, the baffle 11 or the moisture barrier device 10 can be slidably disposed within the fluid monitoring station 100.

Referring to FIG. 3, the fluid monitoring station 100 of the present embodiment includes a housing 101, a moisture blocking device 10, a detecting device 20, and a fluid sampling tank 30. The moisture barrier device 10 is disposed in the casing 101 to divide the space inside the casing 101 into an upper space USP and a lower space DSP. The detailed structure of the moisture barrier device 10 is as described above, and will not be described herein. The detecting device 20 is disposed in the upper space USP in the casing 101. The detection device 20 has at least one sensor 21 to measure the monitored value of the fluid. For example, the detection device 20 can measure one or more indicators of pH, Suspended Substance (SS), conductivity, temperature, Chemical Oxygen Demand (COD), and heavy metals.

The fluid sampling tank 30 can extract a fluid to be detected into the fluid sampling tank 30 for the sensor 21 to measure the monitored value of the fluid. For example, the fluid sampling tank 30 includes an inlet port 31 through which the fluid to be detected can be extracted and injected into the fluid sampling tank 30 via an inlet pipe 31P that communicates with the inlet port 31. The fluid sampling tank 30 further includes a row of outlets 32 that discharge fluid from the fluid sampling tank 30 through a discharge tube 32P that communicates with the discharge port 32. The fluid is continuously introduced from the inlet port 31 and discharged from the discharge port 32. Thus, the detecting device 20 can continuously measure the monitored value of the fluid. In an embodiment, the inlet pipe 31P may be provided with an inlet valve 31V, so that the inlet flow rate of the inlet pipe 31P can be controlled by the inlet valve 31V. Similarly, the discharge pipe 32P can be provided with a discharge valve 32V, so that the discharge amount of the discharge pipe 32P can be controlled by the discharge valve 32V. In one embodiment, the fluid sampling tank 30 is disposed in the lower space DSP of the housing 101. This simplifies the station design of the fluid monitoring station 100 and reduces the volume of the station.

In one embodiment, the fluid sampling tank 30 further includes a spoiler 33. The spoiler 33 divides the fluid sampling tank 30 into an inflow space SP1 and a measurement space SP2, wherein the inflow port 31 communicates with the inflow space SP1, and the discharge port 32 and the measurement space SP2. The fluid introduced from the inlet port 31 is first filled into the inflow space SP1, and then overflows through the baffle plate 33 and overflows to the measurement space SP2, so that the liquid level fluctuation of the measurement space SP2 can be reduced, so that the detecting device 20 A more stable measurement value can be obtained. In one embodiment, the fluid sampling tank 30 includes a cover 34 that covers the fluid sampling tank 30 to reduce moisture generation and to reduce external interference with the sensor 21.

The index values measured by the detecting device 20 can be stored in a built-in storage device in the fluid monitoring station 100, such as a memory, a hard disk, a compact disc, a magnetic tape, or the like. Alternatively, the indicator value measured by the detecting device 20 can also be uploaded to the remote server. In one embodiment, the fluid monitoring station 100 of the present invention further includes a communication unit 40 electrically connected to the detecting device 20. The communication unit 40 can transmit the monitored value of the fluid measured by the detecting device 20 to the remote server. For example, the communication unit 40 can transmit data to a remote server by using a wired area network, a wireless area network, a mobile communication network, or the like.

In one embodiment, the fluid monitoring station 100 of the present invention further includes a power generating unit 50 electrically connected to the detecting device 20. The power generation unit 50 can generate electricity by itself to generate the power required by the detection device 20. For example, the power generating unit 50 can be a solar battery module, a wind power generator, a hydroelectric generator, or a combination thereof.

In summary, a fluid blocking device is disposed in the fluid monitoring station of the present invention to divide the fluid monitoring station into an upper space and a lower space, and the moisture blocking device prevents moisture in the lower space from entering the upper space, thereby avoiding being disposed at the upper portion. Electronic devices in the space, such as detection devices, displays, etc., are damaged by moisture intrusion. In addition, the removable design collection box facilitates the user to replenish, replace or dry the absorbent material in the collection box.

The embodiments described above are only for explaining the technical idea and characteristics of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement them according to the scope of the patent. That is, the equivalent changes or modifications made by the people in accordance with the spirit revealed by this creation should still be covered by the scope of the patent of this creation.

10‧‧‧Moisture barrier
100‧‧‧ Fluid Monitoring Station
11‧‧‧Baffle
111‧‧‧ sliding slot
12‧‧‧Collection box
121‧‧‧ bottom
122‧‧‧ side wall
123‧‧‧Handle
124‧‧‧Protruding
13‧‧‧Hydrautic materials
14‧‧‧Connecting parts
141‧‧‧Sliding section
20‧‧‧Detection device
21‧‧‧ Sensors
30‧‧‧Fluid sampling box
31‧‧‧Inlet
31P‧‧‧ Inflow tube
31V‧‧‧ Inflow valve
32‧‧‧Export
32P‧‧‧Draining tube
32V‧‧‧ discharge valve
33‧‧‧Baffle
34‧‧‧ Cover
40‧‧‧Communication unit
50‧‧‧Power generation unit
DSP‧‧‧low space
G‧‧‧ gap
SP1‧‧‧ Inflow space
SP2‧‧‧Measurement space
USP‧‧‧Upper space

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view showing a moisture barrier device of an embodiment of the present invention. Fig. 2 is a schematic view showing the cross-sectional structure of the moisture barrier device of an embodiment of the present invention. Figure 3 is a schematic view showing a fluid monitoring station of an embodiment of the present invention.

10‧‧‧Moisture barrier

11‧‧‧Baffle

111‧‧‧ sliding slot

12‧‧‧Collection box

121‧‧‧ bottom

122‧‧‧ side wall

124‧‧‧Protruding

13‧‧‧Hydrautic materials

14‧‧‧Connecting parts

141‧‧‧Sliding section

G‧‧‧ gap

Claims (20)

A moisture barrier device is disposed in a fluid monitoring station, the moisture barrier device comprising: a barrier baffle partitioning the fluid monitoring station into an upper space and a lower space; a collection box disposed at the Under the baffle, wherein the collecting box comprises a bottom and a side wall connected to the bottom, and a gap is formed between the top of the collecting box and the baffle; and a moisture absorbing material is disposed in the collecting box to absorb moisture. The moisture barrier device of claim 1, further comprising: a connecting member disposed on a lower surface of the baffle, wherein the collecting box is disposed on the connecting member. The moisture barrier device of claim 2, wherein the connecting member comprises a sliding portion, the side wall of the collecting box comprises a protruding portion, and the protruding portion is slidably disposed on the sliding portion. The moisture barrier device of claim 3, wherein the collection box has a handle disposed outside the side wall of the collection box. The moisture barrier device of claim 1, wherein the barrier baffle has a sliding slot for slidably disposed within the fluid monitoring station. The moisture barrier device of claim 1, wherein the material of the barrier is a high molecular polymer. The moisture barrier device of claim 1, wherein the barrier layer is a foamed structure. The moisture barrier device of claim 1, wherein the moisture absorbing material is a reusable hygroscopic material. A fluid monitoring station comprising: a casing; a moisture barrier device disposed in the casing, the moisture barrier device comprising: a barrier baffle partitioning the casing into an upper space and a lower space; a collecting box disposed under the baffle, wherein the collecting box comprises a bottom and a side wall connected to the bottom, and a gap between the top of the collecting box and the baffle; and a moisture absorbing material, the setting In the collection box, to absorb moisture; a detecting device having at least one sensor disposed in the upper space in the housing; and a fluid sampling box for extracting a fluid to be detected In the fluid sampling tank, the sensor is used to measure the value of one of the fluids. The fluid monitoring station of claim 9, wherein the fluid sampling tank is disposed in the lower space within the housing. The fluid monitoring station of claim 9, wherein the fluid sampling tank comprises a spoiler that divides the fluid sampling tank into an inflow space and a measurement space, and the fluid overflows from the inflow space Flow to the measurement space for measurement. The fluid monitoring station of claim 9, further comprising: a communication unit electrically connected to the detecting device for transmitting the monitored value of the fluid to a server. The fluid monitoring station of claim 9, further comprising: a power generating unit electrically connected to the detecting device for generating a power source required by the detecting device. The fluid monitoring station of claim 9, wherein the moisture blocking device further comprises a connecting member disposed on a lower surface of the blocking plate, and the collecting box is disposed on the connecting member. The fluid monitoring station of claim 14, wherein the connecting member comprises a sliding portion, the side wall of the collecting box comprises a protruding portion, and the protruding portion is slidably disposed on the sliding portion. The fluid monitoring station of claim 15, wherein the collection box has a handle disposed outside the side wall of the collection box. The fluid monitoring station of claim 9, wherein the baffle has a sliding slot for slidably disposed within the housing. The fluid monitoring station of claim 9, wherein the material of the barrier is a high molecular polymer. The fluid monitoring station of claim 9, wherein the barrier is a foamed structure. The fluid monitoring station of claim 9, wherein the moisture absorbing material is a reusable hygroscopic material.