CN205317526U - Fluid sampling box and fluid monitoring station - Google Patents

Abstract

The utility model provides a fluid sampling box contains a box and a spoiler. The box has an influent stream mouth and a first discharge port. The spoiler sets up in the box to separate a first space and a second space with the box, wherein, influent stream mouth intercommunication to first space, just first discharge port feeds through to the second space, makes a fluid flow into first space via the influent stream mouth, and overflow to second space is after the discharge of first discharge port again. The reducible fluid of above -mentioned fluid sampling box is undulant to the fluidic accuracy is surveyed to the increasing amount. Also revea simultaneously a fluid monitoring station that contains above -mentioned fluid sampling box.

Description

Sampling fluids case and fluid inspection station

[technical field]

This utility model is relevant a kind of sampling box, particularly a kind of sampling fluids case and the fluid inspection station comprising this sampling fluids case.

[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.

In view of this, how automatically sampling and continuous way monitoring water quality are the targets that current pole need to be made great efforts.

[utility model content]

This utility model provides a kind of sampling fluids case and fluid inspection station, it can automatically be introduced and treat fluid measured, and flow into measurement space in an overflow manner, so can maintain fluid and steadily reach effect of immediately monitoring in order to detecting device continuous way measures the monitoring numerical value of fluid.

The sampling fluids case of this utility model one embodiment comprises a casing and a spoiler. Casing has a flow inlet and first row outlet. Spoiler is arranged in casing, casing to be separated out one first space and a second space, wherein the height of spoiler is lower than the Sidewall Height of casing, flow inlet is communicated to the first space, and first row outlet is to second space, make a fluid flow into the first space via flow inlet, then overflow is discharged through first row outlet to second space.

The fluid inspection station of another embodiment of this utility model comprises a sampling fluids case, an inflow pump and a detecting device. Sampling fluids case comprises a casing and a spoiler. Casing has a flow inlet and first row outlet. Spoiler is arranged in casing, casing to be separated out one first space and a second space, wherein, the height of spoiler is lower than the Sidewall Height of casing, flow inlet is communicated to the first space, and first row outlet is to second space, makes a fluid flow into the first space via flow inlet, then overflow is discharged through first row outlet to second space.Inflow pump connects with the flow inlet of sampling fluids case, with withdrawn fluid to the first space. Detecting device has at least one sensor, in order to measure a monitoring numerical value of the fluid of second space.

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 side view diagram, the sampling fluids case of display this utility model one embodiment.

Fig. 2 is a top view, the sampling fluids case without lid of display this utility model one embodiment.

Fig. 3 is side view diagram, shows the side-looking structure of the sampling fluids case of the AA line along Fig. 1.

Fig. 4 is a schematic diagram, the fluid inspection station of display this utility model one embodiment.

[symbol description]

10 sampling fluids casees

11 casings

111 flow inlet

111P influent stream pipe

111V influent stream valve

112 first row outlets

112P the first discharge pipe

112V the first dump valve

113 overflow outlets

113P overflow drain

113V overflow discharge valves

114 second row outlets

114P the second discharge pipe

114V the second dump valve 114

12 spoilers

121 overflow openings

13 casings rinse pipe

131 outlets

13V casing flushing valve

14 lids

141 detection mouths

20 detecting devices

21 sensors

30 communication units

40 generator units

50 moisture barrier devices

AP regulates pipe

AV regulates valve

P inflow pump

R1 the first inclined-plane

R2 the second inclined-plane

SP1 the first space

SP2 second space

W1 the first liquid level

W2 the second liquid level

[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 sampling fluids case 10 of an embodiment of the present utility model comprises casing 11 and a spoiler 12. Casing 11 has a flow inlet 111 and first row outlet 112. Spoiler 12 is arranged in casing 11, makes to be separated out an one first space S P1 and second space SP2 in casing 11. The flow inlet 111 of casing 11 is communicated to the first space S P1, and the first row outlet 112 of casing 11 is communicated to second space SP2, and the height of spoiler 12 is lower than the Sidewall Height of casing 11. So, when liquid level is higher than spoiler 12, namely fluid can overflow across spoiler 12. In an embodiment, refer to Fig. 3, spoiler 12 has an overflow openings 121, and so, when liquid level is higher than overflow openings 121, namely fluid can overflow across spoiler 12.

According to said structure, fluid to be detected can import the first space S P1 of casing 11 via the flow inlet 111 of casing 11, after filling the first space S P1, fluid namely overflow across spoiler 12 and overflow to second space SP2, the fluid of second space SP2 can export outside 112 discharge casings 11 via the first row of casing 11 after testing afterwards.Therefore, sampling fluids case 10 of the present utility model can with simple structure continuous sampling fluid, for instance waste water or water of releasing, and carries out immediately measuring and monitoring. Additionally, fluid to be detected is from the first space S P1 overflow to second space SP2, therefore, it is less that fluid flow to the fluctuation of the second space SP2 fluid caused, in other words, the interference that fluid fluctuation causes can be reduced when measuring monitoring index, and more stable measurement numerical value can be obtained. In an embodiment, the material of casing 11 and spoiler 12 is insulator. For example, the material of casing 11 and spoiler 12 can be high molecular polymer, for instance plastic cement, its can acid and alkali-resistance, weather-proof, without electric leakage and the doubt of electrification, so can be subject to external interference by measurement signal further.

In an embodiment, flow inlet 111 can lower than the minimum overflow height of spoiler 12, for instance the height of spoiler 12 or the minimum altitude of overflow openings 121. According to this structure, fluid influent stream, so will can reduce fluid influent stream and enter the first space S P1 of casing 11 fluctuation caused under the first liquid level W1 of the first space S P1 to the port of export of the first space S P1. In the embodiment shown in Fig. 1, fluid to be detected is to smoke with inflow pump P, the influent stream pipe 111P being connected to flow inlet 111 import the first space S P1 of casing 11. Influent stream pipe 111P further extends to the first space S P1, and the port of export of influent stream pipe 111P submerges under the first liquid level W1 down. According to this structure, the port of export of influent stream pipe 111P can be considered the flow inlet 111 of casing 11.

It is understood that the influent stream amount of influent stream pipe 111P can be controlled by by inflow pump P. In an embodiment, influent stream pipe 111P can arrange an influent stream valve 111V, so can be controlled the influent stream amount of influent stream pipe 111P by influent stream valve 111V. In an embodiment, connect with influent stream pipe 111P one can be arranged and regulate pipe AP, and regulating, pipe AP arrange an adjustment valve AV, so, by regulating the delivery flow of valve AV and controllable adjustable pipe AP, that is the shunt volume of influent stream pipe 111P. In other words, the influent stream amount of influent stream pipe 111P also can be controlled by adjusting adjustment valve AV.

In an embodiment, the first row of casing 11 exports 112 external one first discharge pipe 112P, and arranges one first dump valve 112V on the first discharge pipe 112P and can control the delivery flow of the first discharge pipe 112P that is the delivery flow of first row outlet 112. The first liquid level W1 height of casing 11 first space S P1 and the second liquid level W2 height of second space SP2 can be controlled by the influent stream amount of flow inlet 111 and the delivery flow of first row outlet 112 that control casing 11. In an embodiment, casing 11 has more an overflow outlet 113, and it is communicated to second space SP2. The height of overflow outlet 113 is less than or equal to the minimum overflow height of spoiler 12, and exports 112 higher than first row. According to this structure, the second liquid level W2 height of second space SP2 is by the first liquid level W1 height not higher than the first space S P1, to avoid the fluid reflux of second space SP2 to the first space S P1. Additionally, the mistake multi-fluid in second space SP2 will be discharged outside casing 11 via overflow outlet 113 overflow, to avoid fluid to overflow outside casing 11. It is understood that overflow outlet 113 can an external overflow drain 113P, and an overflow discharge valves 113V is set on overflow drain 113P, so can be controlled the overflow output of overflow drain 113P by overflow discharge valves 113V.In an embodiment, overflow drain 113P is connectable to the first discharge pipe 112P and is integrated into single outlet.

In an embodiment, the bottom of the first space S P1 of casing 11 can comprise at least one first inclined-plane R1. According to this structure, Shen Dian impurity bottom the first space S P1 or mud can concentrate on the relative low points of the first inclined-plane R1 along the first inclined-plane R1, so can be easier to remove impurity or the mud of bottom. For example, casing 11 has more a second row outlet 114, and it is communicated to the first space S P1. The setting of second row outlet 114 is located proximate to the bottom of the first space S P1, it is advantageous to person, near the relative low points of the first inclined-plane R1. So, the impurity of bottom or mud can export 114 discharges via second row. It is understood that second row outlet 114 is arranged at the minimum point bottom the first space S P1, fluid so can be completely exhausted out when safeguarding casing, to avoid the situation of hydrops. In an embodiment, 114 external one second discharge pipe 114P can be exported in second row, and one second dump valve 114V is set on the second discharge pipe 114P, by the delivery flow adjusting the second dump valve 114V and can controlling the second discharge pipe 114P. For example, the second discharge pipe 114P can be adjusted to less delivery flow at ordinary times, makes the impurity of bottom or mud to discharge slowly, and produces the suction of flows downward, to reduce the chance of impurities at bottom or Mud up-floating. Or, when maintaining, the second discharge pipe 114P can be adjusted to bigger delivery flow, quickly to discharge impurity or the mud of bottom.

In like manner, the bottom of the second space SP2 of casing 11 can comprise at least one second inclined-plane R2, makes the impurity bottom second space SP2 or mud concentrate on the relative low points of the second inclined-plane R2 along the second inclined-plane R2. It is understood that the relative low points that the setting of first row outlet 112 is located proximate to the second inclined-plane R2 can be discharged impurity or the mud of bottom and reduce its floating. Same, first row outlet 112 minimum points being arranged at bottom second space SP2 can avoid the situation of hydrops.

In an embodiment, sampling fluids case 10 of the present utility model more comprises a casing and rinses pipe 13, and it is arranged in casing 11. Casing rinses the position that arranges of pipe 13 and is higher than spoiler 12, and casing rinses pipe 13 and comprises multiple outlet 131. Casing flushing pipe 13 is arranged along the inwall of casing 11, and casing rinses the outlet 131 inwall towards casing 11 of pipe 13, makes the fluids from outlet 131 ejection can rinse the inwall of casing 11. For example, casing rinses pipe 13 and is connected with influent stream pipe 111P, makes the fluid that casing flushing pipe 13 can directly be taken in influent stream pipe 111P to rinse the inwall of casing 11. In an embodiment, a casing flushing valve 13V can be set and rinse on pipe 13 in casing, to control the water yield of casing flushing pipe 13. If it is understood that when the fluid of influent stream contains interfacial agent and produces more foam, the outlet 131 of now casing flushing pipe 13 can spray, towards foam, the functions that also have froth breaking.

In an embodiment, sampling fluids case 10 of the present utility model more comprises a lid 14, and it covers casing 11. Lid 14 has at least one detection mouth 141 corresponding to second space SP2, and such sensing element can pass through to detect mouth 141 and measure the monitoring index of second space SP2.

Refer to Fig. 4, the fluid inspection station of this utility model one embodiment comprises sampling fluids case 10, inflow pump P and a detecting device 20.The detailed construction of sampling fluids case 10 is not as it was previously stated, repeat them here. Inflow pump P connects with the flow inlet 111 of sampling fluids case 10, to extract fluid to be detected the first space S P1 to casing 11. Detecting device 20 has at least one sensor 21. In an embodiment, sensor 21 measures the monitoring numerical value of the fluid of the second space SP2 of casing 11 via the detection mouth 141 of lid 14. 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.

The index value that detecting device 20 measures can be stored in storage device built-in in fluid inspection station, 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 of the present utility model more comprises a communication unit 30, 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 30. For example, communication unit 30 may utilize the modes such as wired area network, radio area network, mobile communication network and transmits the data server to far-end.

In an embodiment, fluid inspection station of the present utility model more comprises a generator unit 40, and itself and detecting device 20 are electrically connected. Generator unit 40 can self-generating, to produce the power supply needed for detecting device 20. For example, generator unit 40 can be solar module, wind-driven generator, hydroelectric generator or above combination.

In order to save space, in an embodiment, detecting device 20 may be disposed at the top of sampling fluids case 10. Preferably, a detecting device 20 and moisture barrier device 50 can be set between sampling fluids case 10. Moisture barrier device 50 can prevent dampness from entering in detecting device 20 electronic installation such as grade, to avoid dampness to cause electronic installation to damage, and then increases the reliability at fluid inspection station and reduces maintenance frequency.

Summary, sampling fluids case of the present utility model and fluid inspection station can automatically be introduced and be treated fluid measured, and flow into measurement space in an overflow manner, so can maintain fluid and steadily reach effect of immediately monitoring in order to detecting device continuous way measures the monitoring numerical value of fluid. Additionally, the design on the outlet of box bottom and inclined-plane can concentrate the impurity of bottom or mud to be discharged and prevent impurity or Mud up-floating. Again, casing is made with insulant, can avoid the disturbance of electronic signal that casing electric leakage or electrification cause.

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 (18)

1. a sampling fluids case, it is characterised in that comprise:

One casing, it has a flow inlet and first row outlet; And

One spoiler, it is arranged in this casing, this casing to be separated out one first space and a second space, wherein the height of this spoiler is lower than the Sidewall Height of this casing, this flow inlet is communicated to this first space, and this first row outlet is to this second space, makes a fluid flow into this first space via this flow inlet, then overflow is discharged through the outlet of this first row to this second space.

2. sampling fluids case as claimed in claim 1, it is characterised in that this casing has more an overflow outlet, and it is communicated to this second space, and the height of this overflow outlet is less than or equal to the minimum overflow height of this spoiler, and higher than the outlet of this first row.

3. sampling fluids case as claimed in claim 1, it is characterised in that more comprise:

One first dump valve, it is arranged at the outlet of this first row, to control the delivery flow of this first row outlet.

4. sampling fluids case as claimed in claim 1, it is characterised in that this casing has more a second row outlet, and it is communicated to this first space, wherein the setting of this second row outlet is located proximate to the bottom in this first space.

5. sampling fluids case as claimed in claim 4, it is characterised in that more comprise:

One second dump valve, it is arranged at the outlet of this second row, to control the delivery flow of this second row outlet.

6. sampling fluids case as claimed in claim 4, it is characterised in that the bottom in this first space of this casing comprises at least one first inclined-plane, and the setting of this second row outlet is located proximate to the relative low points on this first inclined-plane.

7. sampling fluids case as claimed in claim 1, it is characterised in that the bottom of this second space of this casing comprises at least one second inclined-plane, and the setting of this first row outlet is located proximate to the relative low points on this second inclined-plane.

8. sampling fluids case as claimed in claim 1, it is characterised in that this flow inlet is lower than the minimum overflow height of this spoiler.

9. sampling fluids case as claimed in claim 1, it is characterised in that this spoiler has an overflow openings.

10. sampling fluids case as claimed in claim 1, it is characterised in that the material of this casing and this spoiler is insulator.

11. sampling fluids case as claimed in claim 1, it is characterised in that more comprise:

One influent stream pipe, it extends to this first space via this flow inlet, and the port of export of this influent stream pipe is down.

12. sampling fluids case as claimed in claim 11, it is characterised in that more comprise:

One regulates pipe, and it connects with this influent stream pipe; And

One regulates valve, and it is arranged at this adjustment pipe to control the delivery flow of this adjustment pipe.

13. sampling fluids case as claimed in claim 1, it is characterised in that more comprise:

One casing rinses pipe, and it is arranged in this casing, and higher than spoiler, it is characterised in that this casing rinses pipe and comprises multiple outlet, and it is towards the foam in the inwall or this casing of this casing.

14. sampling fluids case as claimed in claim 1, it is characterised in that more comprise:

One lid, it covers this casing, and has at least one detection mouth corresponding to this second space.

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

Such as sampling fluids case one of as described in arbitrary in claim 1 to 14;

One inflow pump, it connects with this flow inlet of this sampling fluids case, to extract this fluid to this first space; And

One detecting device, it has at least one sensor, and it is in order to measure a monitoring numerical value of this fluid of this second space.

16. fluid inspection station as claimed in claim 15, 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.

17. fluid inspection station as claimed in claim 15, 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.

18. fluid inspection station as claimed in claim 15, it is characterised in that this detecting device is arranged at the top of this sampling fluids case, and arranges a moisture barrier device between this detecting device and this sampling fluids case.