CN107272533A - Mechanical switch coordinates the water treatment facilities and its method of work of intelligent control TDS values - Google Patents

Abstract

The present invention discloses the water treatment facilities and its method of work that mechanical switch coordinates intelligent control TDS values, including source waste water tank is provided with entrance point and the port of export；Element kit is provided with source water inlet end, the concentrated water port of export and pure water inlet end；The entrance point that the concentrated water port of export of element kit passes through one the 3rd pipeline connection to source waste water tank；The pure water inlet end of element kit is communicated to pure water tank；The port of export of source waste water tank is by the entrance point of one first pipeline connection to booster pump, the source water inlet end that the port of export of booster pump passes through one second pipeline connection to element kit；Condensate tank of dehumidifier is used to sense the water level in the source waste water tank；Pipeline TDS detection modules are located at the second pipeline, and pipeline TDS detection modules are located between booster pump and element kit.The condensate tank of dehumidifier of the present invention is connectable to control system, and when water level is less than setting water level value, control booster pump is stopped, it is to avoid the idle running of booster pump causes damage to booster pump.

Description

Mechanical switch coordinates the water treatment facilities and its method of work of intelligent control TDS values

Technical field

Coordinate the water of intelligent control TDS values the present invention relates to the technical field of water treatment facilities, more particularly to mechanical switch Processing unit and its method of work.

Background technology

TDS (Total dissolved solids, abridge TDS), also known as dissolvability solid amount, units of measurement is milli G/l (mg/L), it shows in 1 liter of water dissolved with how many mg/litre (mg/L) soluble solid.

Existing water-purifying device produces the ratio of concentrated water and water purification, concentrated water and water purification that after filter, can separate Example is waste water ratio.Existing water-purifying device typically directly excludes concentrated water, is unfavorable for the protection of water resource.To avoid the situation Occur, now design mechanical switch coordinate intelligent control TDS values water treatment facilities and its method recycle concentrated water, first pass through by Concentrated water is introduced into the waste water tank of source to be reconciled with source water, and reduces waste strength, is then filtered again, it is to avoid water resource waste, Also each component on filter material and pipeline can be protected to a certain extent, extension filter core, water pump service life.

The content of the invention

In view of the above-mentioned problems, water treatment facilities and its method of work that mechanical switch coordinates intelligent control TDS values are now provided, Concentrated water can be recycled, it is to avoid the waste of water resource, and to a certain extent to each component on filter material and pipeline Protected, extension filter core, water pump service life.

To achieve these goals, the technical scheme taken is as follows：

Mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, including：

Source waste water tank, the source waste water tank is provided with entrance point and the port of export；

Element kit, the element kit is provided with source water inlet end, the concentrated water port of export and pure water inlet end；The filter core group The entrance point that the concentrated water port of export of part passes through one the 3rd pipeline connection to the source waste water tank；The element kit The pure water inlet end is communicated to pure water tank；

Booster pump, the import that the port of export of the source waste water tank passes through one first pipeline connection to the booster pump End, the source water inlet end that the port of export of the booster pump passes through one second pipeline connection to the element kit；

Condensate tank of dehumidifier, the condensate tank of dehumidifier is used to sense the water level in the source waste water tank

Pipeline TDS detection modules, the pipeline TDS detection modules are located at second pipeline, and the pipeline TDS is examined Module is surveyed to be located between the booster pump and the element kit.

Above-mentioned mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, including：The water level detecting dress Flow control switch is set to, the flow control switch is located at first pipeline, and the flow control switch is located at institute State between source waste water tank and the booster pump.

Above-mentioned mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, the condensate tank of dehumidifier is water Bit switch.

Above-mentioned mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, the condensate tank of dehumidifier is water Compress switch.

Above-mentioned mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, in addition to：Waste water magnetic valve, institute Waste water magnetic valve is stated on the 3rd pipeline.

Above-mentioned mechanical switch coordinates the water treatment facilities of intelligent control TDS values, wherein, in addition to：Control system, it is described Control system connects the waste water magnetic valve, the booster pump, the condensate tank of dehumidifier and pipeline TDS detection moulds respectively Block.

Mechanical switch coordinates the method for work of the water treatment facilities of intelligent control TDS values, wherein, including above-mentioned any one The mechanical switch coordinates the water treatment facilities of intelligent control TDS values, and the method for work includes：

Control system described first presets T1, T2 and T3 value (T3 is maximum) first, secondly the pipeline TDS detections Module detects initial value T0, and the last control system sets the halt mode of different quality according to T0 values；

The halt mode includes：

1st, as T0≤T1, booster pump is controlled to be stopped by the condensate tank of dehumidifier；

2nd, as T1 ＜ T0≤T2, presetting shutdown TDS value Ts, the inspection of pipeline TDS detection modules separated in time are passed through Real-time TDS value Tc in test tube road, as Tc >=Ts, booster pump is stopped；

3rd, as T0 ＞ T3 or Tc ＞ T3, booster pump is stopped；

Meanwhile, it is described when the condensate tank of dehumidifier detects the water level of the source waste water tank less than setting water level value Condensate tank of dehumidifier sends a signal to the control system, and the booster pump is closed in the control system control.

The good effect that above-mentioned technology has compared with prior art is：

1st, pipeline TDS detection modules of the invention are by detecting T0 values, when T0 values are less than T1, by condensate tank of dehumidifier control Booster pump processed is shut down, as far as possible to recycle source water, it is to avoid to waste water source more.When T0 or Tc reach limit value, booster pump can stop Only work, protect element kit, it is to avoid element kit high loaded process.When T0 is more than T3, TDS values are too high in water, the filter core group Part can not play effective filtration, in order to ensure water purification water quality, answer the water of direct replacement source waste water tank.

2nd, condensate tank of dehumidifier of the invention is connectable to control system, when water level is less than setting water level value, control Booster pump is stopped, it is to avoid the idle running of booster pump causes damage to booster pump.

Brief description of the drawings

Fig. 1 coordinates the water treatment facilities of intelligent control TDS values and its work of method of work for the mechanical switch of the present invention Schematic diagram；

Fig. 2 coordinates the water treatment facilities of intelligent control TDS values and its water level of method of work for the mechanical switch of the present invention Detection means is the schematic diagram of water level switch；

Fig. 3 coordinates the water treatment facilities of intelligent control TDS values and its water level of method of work for the mechanical switch of the present invention Detection means is the schematic diagram of hydraulic pressure switch.

In accompanying drawing：1st, source waste water tank；11st, the first pipeline；2nd, element kit；3rd, booster pump；31st, the second pipeline；4th, flow Controlling switch；5th, pipeline TDS detection modules；6th, pure water tank；71st, water level switch；72nd, hydraulic pressure switch；8th, waste water magnetic valve.

Embodiment

The invention will be further described with specific embodiment below in conjunction with the accompanying drawings, but not as limiting to the invention.

Fig. 1 coordinates the water treatment facilities of intelligent control TDS values and its work of method of work for the mechanical switch of the present invention Schematic diagram.Fig. 2 coordinates the water treatment facilities of intelligent control TDS values and its water level inspection of method of work for the mechanical switch of the present invention Survey the schematic diagram that device is water level switch.Fig. 3 for the present invention mechanical switch coordinate intelligent control TDS values water treatment facilities and The condensate tank of dehumidifier of its method of work is the schematic diagram of hydraulic pressure switch.

Refer to shown in Fig. 1 to Fig. 3, in a kind of preferred embodiment, show that mechanical switch coordinates intelligent control TDS The water treatment facilities of value, including：

Source waste water tank 1, source waste water tank 1 is provided with entrance point and the port of export.

Element kit 2, element kit 2 is provided with source water inlet end, the concentrated water port of export and pure water inlet end；Element kit 2 The entrance point that the concentrated water port of export passes through one the 3rd pipeline connection to source waste water tank 1；The pure water inlet end connection pure water of element kit 2 Case 6.

Booster pump 3, the port of export of source waste water tank 1 is communicated to the entrance point of booster pump 3, booster pump by one first pipeline 11 3 port of export is communicated to the source water inlet end of element kit 2 by one second pipeline 31.

Condensate tank of dehumidifier 4, the water level that condensate tank of dehumidifier 4 is used in induction source waste water tank 1.

Pipeline TDS detection modules 5, pipeline TDS detection modules 5 are located at the second pipeline 31, and pipeline TDS detection modules 5 Between booster pump 3 and element kit 2.

Preferred embodiments of the present invention are the foregoing is only, embodiments of the present invention and protection model is not thereby limited Enclose.

Further, in a kind of preferred embodiment, including：Condensate tank of dehumidifier 4 is flow control switch, and flow control is opened Close and be located at the first pipeline 11, and flow control switch is located between source waste water tank 1 and booster pump 3.While flow control switch Be electrically connected connected control system.Flow control switch is by sensing the flow by the first pipeline 11, when flow is less than preset value, stream Amount controlling switch can make booster pump 3 be stopped.

Further, in a kind of preferred embodiment, when condensate tank of dehumidifier is water level switch 71, water level switch 71 passes through inspection Water level in survey source waste water tank 1, and water level switch 71 is electrically connected to control system；When the water level in detection source waste water tank 1 is small When 71 default water level of water level switch, when water level is less than predetermined water level value, control booster pump is stopped；Water level switch 71 can be condenser type, electronic type, electric pole type, photo-electric and float-ball type, comprising above water level detection switch but be not limited to this A little modes.

Further, in a kind of preferred embodiment, when condensate tank of dehumidifier is hydraulic pressure switch 72, hydraulic pressure switch 72 passes through sense Know the change of hydraulic pressure, carry out the surplus of water in induction source waste water tank 1, and hydraulic pressure switch 72 is electrically connected to control system；Work as detection When hydraulic pressure in source waste water tank 1 is less than 72 default hydraulic pressure of hydraulic pressure switch, control booster pump 3 is stopped.

Further, in a kind of preferred embodiment, in addition to：Waste water magnetic valve 8, waste water magnetic valve 8 is located at the 3rd pipeline On 31.

Further, in a kind of preferred embodiment, in addition to：Control system (not shown), control system connects respectively Connect waste water magnetic valve 8, booster pump 3, condensate tank of dehumidifier and pipeline TDS detection modules 5.

The present invention also has following operation principle on the basis of the above, continuing with referring to shown in Fig. 1 to Fig. 3：Control first System presets T1, T2 and T3 value (T3 is maximum) first, and secondly the detection of pipeline TDS detection modules 5 initial value T0, is finally controlled System processed sets the halt mode of different quality according to T0 values；

Halt mode includes：

As T0≤T1, booster pump 3 is controlled to be stopped by condensate tank of dehumidifier；

Now the water level of source waste water tank 1 is by condensate tank of dehumidifier control, it is to avoid to the energy and water waste.

2nd, as T1 ＜ T0≤T2, examined by the presetting separated in time of shutdown TDS value Ts, pipeline TDS detection module 5 Real-time TDS value Tc in test tube road, as Tc >=Ts, booster pump 3 is stopped；

At this time, it may be necessary to be changed to the water of source waste water tank 1, it is to avoid element kit 2 is chronically at high load capacity working condition.

3rd, as T0 ＞ T3 or Tc ＞ T3, booster pump 3 is stopped；

Now the water of source waste water tank 1 can not be filtered effectively, and TDS values are too high in water, in order to ensure water purification water quality, be needed straight Connect the water of replacing source waste water tank 1.

In addition, when condensate tank of dehumidifier detects the water level of source waste water tank 1 less than setting water level value, condensate tank of dehumidifier Booster pump 3 is closed in control, it is to avoid the idle running of booster pump 3 causes damage to booster pump 3.

Preferred embodiments of the present invention are these are only, embodiments of the present invention and protection domain is not thereby limited, it is right For those skilled in the art, it should can appreciate that all utilization description of the invention and being equal made by diagramatic content replace Change and obviously change resulting scheme, should be included in protection scope of the present invention.

Claims (7)

1. mechanical switch coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that including：

Source waste water tank, the source waste water tank is provided with entrance point and the port of export；

Element kit, the element kit is provided with source water inlet end, the concentrated water port of export and pure water inlet end；The element kit The entrance point that the concentrated water port of export passes through one the 3rd pipeline connection to the source waste water tank；The element kit it is described Pure water inlet end is communicated to pure water tank；

Booster pump, the port of export of the source waste water tank passes through the entrance point of one first pipeline connection to the booster pump, institute The port of export for stating booster pump passes through the source water inlet end of one second pipeline connection to the element kit；

Condensate tank of dehumidifier, the condensate tank of dehumidifier is used to sense the water level in the source waste water tank；

Pipeline TDS detection modules, the pipeline TDS detection modules are located at second pipeline, and pipeline TDS detection moulds Block is located between the booster pump and the element kit.

2. mechanical switch according to claim 1 coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that institute Condensate tank of dehumidifier is stated for flow control switch, the flow control switch is located at first pipeline, and the flow control System switch is located between the source waste water tank and the booster pump.

3. mechanical switch according to claim 1 coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that institute Condensate tank of dehumidifier is stated for water level switch.

4. mechanical switch according to claim 1 coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that institute Condensate tank of dehumidifier is stated for hydraulic pressure switch.

5. mechanical switch according to claim 1 coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that also Including：Waste water magnetic valve, the waste water magnetic valve is on the 3rd pipeline.

6. mechanical switch according to claim 1 coordinates the water treatment facilities of intelligent control TDS values, it is characterised in that also Including：Control system, the control system connects the waste water magnetic valve, the booster pump, the condensate tank of dehumidifier respectively With the pipeline TDS detection modules.

7. mechanical switch coordinates the water treatment facilities and its method of work of intelligent control TDS values, it is characterised in that will including right The water treatment facilities of mechanical switch cooperation intelligent control TDS values described in any one in 1 to 6 is sought, the method for work includes：

Control system described first presets T1, T2 and T3 value (T3 is maximum) first, secondly the pipeline TDS detection modules Initial value T0 is detected, the last control system sets the halt mode of different quality according to T0 values；

The halt mode includes：

1st, as T0≤T1, booster pump is controlled to be stopped by the condensate tank of dehumidifier；

2nd, as T1 ＜ T0≤T2, presetting shutdown TDS values Ts, the pipeline TDS detection modules separated in time inspection are passed through Real-time TDS value Tc in test tube road, as Tc >=Ts, booster pump is stopped；

3rd, as T0 ＞ T3 or Tc ＞ T3, booster pump is stopped；

Meanwhile, when the condensate tank of dehumidifier detects the water level of the source waste water tank less than setting water level value, the water level Detection means sends a signal to the control system, and the booster pump is closed in the control system control.