CN204008540U - The aobvious controller in a kind of ultrapure water machine Si road four - Google Patents

Abstract

The utility model discloses the aobvious controller in a kind of ultrapure water machine Si road four, it relates to the controller technology field of ultrapure water machine, circuit board by circuit respectively with the first conductivity meter, the second conductivity meter, the first resistivity meter is connected with one end of the second resistivity meter, the other end first probe of the first conductivity meter connects, the first probe is arranged in first-stage reverse osmosis pipeline, the corresponding line controller of circuit board is connected with the first solenoid valve, according to the corresponding pipeline rout of signal controlling, the other end second probe of the second conductivity meter connects, the second probe is installed in two-pass reverse osmosis pipeline, the corresponding line controller of circuit board is connected with the second solenoid valve, it can realize omnidistance Monitoring and Controlling, realizing four tunnels controls, and be provided with water quality parameter, realize the water quality detection control in each stage, in the time that water quality does not meet default index, main frame can be reported to the police and automatically be adjusted and repair, in the time cannot repairing, equipment will be shut down and report to the police, prompting maintenance or replacing consumptive material.

Description

The aobvious controller in a kind of ultrapure water machine Si road four

Technical field

The utility model relates to the aobvious controller in a kind of ultrapure water machine Si road four, belongs to the controller technology field of ultrapure water machine.

Background technology

Ultrapure water machine, adopts the methods such as pre-service, reverse osmosis technology, super purification process and rear class processing, the conducting medium in water is almost removed completely, again by water, the colloidal material of dissociation, gas and organism are not all removed to the very water treatment facilities of low degree.Current existing ultrapure water machine is all to adopt the two aobvious controllers of two-way to control, and sort controller can show the water quality of RO pure water and UP ultrapure water.But can not really accomplish that all flow processs all monitor, and can not accurately judge the water quality in each stage, therefore use and there is certain limitation performance.

Utility model content

For the problems referred to above, the technical problems to be solved in the utility model is to provide the aobvious controller in a kind of ultrapure water machine Si road four.

The aobvious controller in ultrapure water machine Si of the present utility model road four, it comprises the first probe, the first conductivity meter, the second probe, the second conductivity meter, the 3rd probe, the first resistivity meter, the 4th probe, the second resistivity meter, circuit board, the first solenoid valve, the second solenoid valve, the 3rd solenoid valve and the 4th solenoid valve, circuit board by circuit respectively with the first conductivity meter, the second conductivity meter, the first resistivity meter is connected with one end of the second resistivity meter, the other end first probe of the first conductivity meter connects, the first probe is arranged in first-stage reverse osmosis pipeline, the corresponding line controller of circuit board is connected with the first solenoid valve, according to the corresponding pipeline rout of signal controlling, the other end second probe of the second conductivity meter connects, the second probe is installed in two-pass reverse osmosis pipeline, the corresponding line controller of circuit board is connected with the second solenoid valve, according to the corresponding pipeline rout of signal controlling, the other end of the first resistivity meter is connected with the 3rd probe, the 3rd probe is arranged in EDI ultrapure water pipeline, the corresponding line controller of circuit board is connected with the 3rd solenoid valve, according to the corresponding pipeline rout of signal controlling, the other end of the second resistivity meter is connected with the 4th probe, the 4th probe is arranged in UP ultrapure water pipeline, the corresponding line controller of circuit board is connected with the 4th solenoid valve.

The beneficial effects of the utility model: it can overcome the drawback of prior art; reasonable in design, in the Four processes of single-stage, twin-stage, EDI and UP core level mixed bed, can realize omnidistance Monitoring and Controlling; realizing four tunnels controls; and be provided with water quality parameter, can realize the water quality detection control in each stage, in the time that water quality does not meet default index; main frame can be reported to the police and automatically be adjusted and repair; in the time cannot repairing, equipment will be shut down and report to the police, prompting maintenance or replacing consumptive material.

Brief description of the drawings

For ease of explanation, the utility model is described in detail by following concrete enforcement and accompanying drawing.

Fig. 1 is the utility model structural representation.

1-first pops one's head in; 2-the first conductivity meter; 3-second pops one's head in; 4-the second conductivity meter; 5-the 3rd probe; 6-the first resistivity meter; 7-the 4th probe; 8-the second resistivity meter; 9-circuit board; 10-the first solenoid valve; 11-the second solenoid valve; 12-the 3rd solenoid valve; 13-the 4th solenoid valve.

Embodiment

As shown in Figure 1, this embodiment is by the following technical solutions: it comprises the first probe 1, the first conductivity meter 2, the second probe 3, the second conductivity meter 4, the 3rd probe 5, the first resistivity meter 6, the 4th probe 7, the second resistivity meter 8, circuit board 9, the first solenoid valve 10, the second solenoid valve 11, the 3rd solenoid valve 12 and the 4th solenoid valve 13, circuit board 9 by circuit respectively with the first conductivity meter 2, the second conductivity meter 4, the first resistivity meter 6 is connected with one end of the second resistivity meter 8, the other end of the first conductivity meter 2 first 1 connection of popping one's head in, the first probe 1 is arranged in first-stage reverse osmosis pipeline, the corresponding line controller of circuit board 9 is connected with the first solenoid valve 10, according to the corresponding pipeline rout of signal controlling, the other end of the second conductivity meter 4 second 3 connections of popping one's head in, the second probe 3 is installed in two-pass reverse osmosis pipeline, the corresponding line controller of circuit board 9 is connected with the second solenoid valve 11, according to the corresponding pipeline rout of signal controlling, the other end of the first resistivity meter 6 is connected with the 3rd probe 5, the 3rd probe 5 is arranged in EDI ultrapure water pipeline, the corresponding line controller of circuit board 9 is connected with the 3rd solenoid valve 12, according to the corresponding pipeline rout of signal controlling, the other end of the second resistivity meter 8 is connected with the 4th probe 7, the 4th probe 7 is arranged in UP ultrapure water pipeline, the corresponding line controller of circuit board 9 is connected with the 4th solenoid valve 13.

The control flow of this controller is: after first probe 1 is arranged on first-stage reverse osmosis device A, before entering one-level water butt, monitor water quality by the first probe 1, the first conductivity meter 2 shows numerical value, circuit is controlled, meet setting value, equipment normally moves, the first-stage reverse osmosis pure water of output enters one-level water tank, can enter second level reverse osmosis apparatus B or flow to first-stage reverse osmosis intake according to signal, if do not meet setting range, be water quality not up to standard, circuit provides signal to the first solenoid valve 10, and start, produce water and will be back to raw water box, and do not enter one-level water tank.

After second probe 3 is arranged on second level reverse osmosis apparatus B, before entering secondary water butt, monitor water quality by the second probe 3, the second conductivity meter 4 shows numerical value, circuit is controlled, meet setting value, equipment normally moves, and the two-pass reverse osmosis pure water of output enters secondary water tank, can enter EDI ultrapure water equipment C or flow to two-pass reverse osmosis intake according to signal, if do not meet setting range, be water quality not up to standard, circuit provides signal to the second solenoid valve 11, and starts, produce water and will be back to one-level water tank, and do not enter secondary water tank.

After the 3rd probe 5 is arranged on EDI ultrapure water equipment C, before entering EDI water tank, by the 3rd probe 5 monitoring water quality, the first resistivity meter 6 shows numerical value, circuit is controlled, and meets setting value, and equipment normally moves, the EDI high purity water of output enters EDI water tank, can enter UP ultrapure water equipment D or flow to EDI intake according to signal.If do not meet setting range, be water quality not up to standard, circuit provides signal to the three solenoid valves 12, and starts, and produces water and will be back to secondary water tank, and do not enter EDI high-purity water tank.

After the 4th probe 7 is arranged on UP ultrapure water equipment D, before entering UP intake, by the 4th probe 7 monitoring water quality, the second resistivity meter 8 shows numerical value, circuit is controlled, and meets setting value, and equipment normally moves, the UP ultrapure water of output enters intake, if do not meet setting range, be water quality not up to standard, circuit provides signal to the four solenoid valves 13, and start, produce water and will be back to EDI water tank.

More than show and described ultimate principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and instructions, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (1)

1. the aobvious controller in ultrapure water machine Si road four, it is characterized in that: it comprises the first probe (1), the first conductivity meter (2), the second probe (3), the second conductivity meter (4), the 3rd probe (5), the first resistivity meter (6), the 4th probe (7), the second resistivity meter (8), circuit board (9), the first solenoid valve (10), the second solenoid valve (11), the 3rd solenoid valve (12) and the 4th solenoid valve (13), circuit board (9) by circuit respectively with the first conductivity meter (2), the second conductivity meter (4), the first resistivity meter (6) is connected with one end of the second resistivity meter (8), the other end first of the first conductivity meter (2) pop one's head in (1) connect, the first probe (1) is arranged in first-stage reverse osmosis pipeline, the corresponding line controller of circuit board (9) is connected with the first solenoid valve (10), according to the corresponding pipeline rout of signal controlling, the other end second of the second conductivity meter (4) pop one's head in (3) connect, the second probe (3) is installed in two-pass reverse osmosis pipeline, the corresponding line controller of circuit board (9) is connected with the second solenoid valve (11), according to the corresponding pipeline rout of signal controlling, the other end of the first resistivity meter (6) is connected with the 3rd probe (5), the 3rd probe (5) is arranged in EDI ultrapure water pipeline, the corresponding line controller of circuit board (9) is connected with the 3rd solenoid valve (12), according to the corresponding pipeline rout of signal controlling, the other end of the second resistivity meter (8) is connected with the 4th probe (7), the 4th probe (7) is arranged in UP ultrapure water pipeline, the corresponding line controller of circuit board (9) is connected with the 4th solenoid valve (13).