EDR water purification device for adjusting effluent quality and water purifier thereof
Technical Field
The utility model relates to a water purification product technical field, in particular to EDR purifier and water purifier who adjusts play water quality of water.
Background
People's daily drinking water safety health consciousness has become stronger and stronger, and china's region is wide, and the quality of water in different areas has certain difference, and when the user is using the water purifier to carry out water quality filtration, because reverse osmosis membrane in the water purifier to the interception proportion of aquatic ion basically keep a fixed value, need the water purifier to the purification degree of aquatic be a fixed range basically when using, this filtering capacity that causes the water purifier can't freely adjust. For example, the ion content in water in the southern area of China is low, the ion content in water in the northern area is high, and when users in different areas use the same water purifier, a uniform water purification effect is difficult to achieve.
According to the water quality environment of different places, when a uniform drinking water standard is required to be achieved, the problem is often solved by adding a plurality of filter elements in the prior art, but the new filter elements can increase new cost for users, and even if the new filter elements are added, the final quality of the drinking water of the users in different areas can not be guaranteed to be completely the same, so that the requirements of the users are met.
Therefore, it is necessary to provide an EDR water purification system capable of adjusting water quality in real time according to user targets to overcome the deficiencies of the prior art.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to avoid prior art's weak point and provide according to the EDR purifier of adjusting out water quality of water, this EDR purifier of adjusting out water quality of water can adjust the voltage of applying for the EDR module according to the quality of water condition of exhaust purified water, realizes adjusting quality of water wantonly.
The device is provided with a water quality concentration detection module for detecting a real-time water quality TDS value of a water outlet, a water quality comparison module preset with a target TDS value and a voltage control module for adjusting the applied voltage of the EDR membrane stack;
the output end of the water quality concentration detection module is connected with the input end of the comparison module, and the output end of the comparison module is connected with the input end of the voltage control module;
the detection end of water quality concentration detection module sets up in the delivery port of water purifier product water, and water quality concentration detection module sends the real-time quality of water TDS value that detects to quality of water contrast module, and quality of water contrast module compares real-time quality of water TDS value and target TDS value and sends the comparison result to voltage control module, and voltage control module adjusts the applied voltage of EDR membrane stack according to the comparison result.
Preferably, the voltage control module is specifically adjusted to increase the applied voltage to the EDR membrane stack when the real-time water quality TDS value is greater than the target TDS value;
when the real-time water quality TDS value is less than the target TDS value, the voltage control module reduces the applied voltage to the EDR membrane stack.
Preferably, a supplementary collecting water tank, a three-way valve and a supplementary water controller are also arranged; the water inlet of the supplementary water collecting tank is connected with the first pipe orifice of the three-way valve through a pipeline, the water outlet of the supplementary water collecting tank is connected with the water outlet through a pipeline, the second pipe orifice of the three-way valve is connected with the water producing port of the EDR membrane stack through a pipeline, the third pipe orifice of the three-way valve is connected with the water outlet through a pipeline, and the control end of the supplementary water controller is connected with the three-way valve.
Preferably, the detection end of the water supply controller acquires the switch state of the drinking water valve switch of the water outlet and controls the switch of the three-way valve according to the switch state of the drinking water valve switch.
Preferably, the water replenishment controller has the specific control steps of; when the drinking water valve is switched on, the first pipeline port and the second pipeline port are controlled to be closed, and the second pipeline port is communicated with the third pipeline port;
when the drinking water valve is closed, the first pipeline port is controlled to be communicated with the second pipeline port, and the second pipeline port is controlled to be closed with the third pipeline port.
Preferably, a self-sucking pump is further arranged, and a water suction port of the self-sucking pump is respectively connected with a water discharge port of the supplementary water collecting tank and a third pipeline port.
Preferably, a preposed filter element module used for reducing the damage of the water inlet pressure to the EDR membrane stack is further arranged, and the preposed filter element module is arranged at the water inlet of the EDR membrane stack.
Preferably, a user command module used for a user to input the TDS value of the target water quality is further arranged, and the output end of the user command module is connected with the water quality comparison module; the user command module adjusts the size of the change target TDS value.
Preferably, the water flow rate ratio of the water outlet of the supplementary collecting water tank to the third pipeline port is T1;
preferably, T1 is 1: 3-3: 1.
preferably, a first water flow control valve for controlling the water flow of the drain of the supplementary collecting tank and a second water flow control valve for controlling the water flow of the third pipe port are further provided.
Preferably, a water quality TDS display device is further arranged, and the output end of the water quality concentration detection module is connected with the water quality TDS display device;
preferably, the water concentration detection module is set to be any one of MC410TDS, DR-TDS-3 or TDS 2285.
The utility model discloses an adjust EDR purifier and device of play water quality, the detection end of quality of water concentration detection module sets up in the delivery port of water purifier product water when using, and quality of water concentration detection module sends the real-time quality of water TDS value that detects to quality of water contrast module, and quality of water contrast module compares real-time quality of water TDS value and target TDS value and sends the comparison result to voltage control module, and voltage control module exerts the voltage adjustment according to comparison result control EDR membrane stack.
This adjust EDR purifier of play water quality of water can adjust the applied voltage and then automatically regulated quality of water of EDR membrane stack according to the real-time quality of water information and the target TDS value that presets of delivery port. The water is also collected through a supplementary water collecting tank, a three-way valve and a supplementary water controller; when the user does not use the product water of the EDR membrane stack, the product water of the EDR membrane stack is guided into the supplementing and collecting water tank through the three-way valve, and when the user needs to use the product water, the supplementing and collecting water tank and the EDR membrane stack simultaneously supply water to the water outlet, so that the water supply pressure of the E membrane is reduced.
Preferably, leading filter core module sets up in the water inlet of EDR membrane stack, reduces the leading filter core module of the harm of water inlet water pressure to the EDR membrane stack.
A third object of the present invention is to provide an EDR water purifier, which supplies water by the above method.
This EDR water purifier can adjust out water quality of water according to the real-time TDS value of delivery port to reduce the pressure-bearing size of EDR membrane stack, prolong the life of EDR membrane stack.
Drawings
The present invention will be further described with reference to the accompanying drawings, but the contents in the drawings do not constitute any limitation to the present invention.
Fig. 1 is a schematic structural diagram of embodiment 2 of the present invention.
Fig. 2 is a schematic structural diagram of embodiment 3 of the present invention.
Fig. 3 is a schematic structural diagram of embodiment 4 of the present invention.
Fig. 4 is a schematic structural diagram of embodiment 5 of the present invention.
Fig. 5 is a schematic configuration diagram of embodiment 7 of the present invention.
In fig. 1 to 5, there are included:
a water quality concentration detection module 100, a water quality comparison module 101 and a user command module 102;
the system comprises an EDR membrane stack 200, a voltage control module 201, a front filter element module 202, a self-priming pump 203, a second water flow control valve 204 and a drinking water valve switch 205;
a supplementary collection water tank 300, a three-way valve 301, a third pipeline port 3013, a first pipeline port 3011 and a second pipeline port 3012;
a make-up water controller 302, a first water flow control valve 303.
Detailed Description
The invention will be further described with reference to the following examples.
Example 1.
A method for adjusting the quality of effluent of an EDR water purification system adjusts the voltage applied to an EDR module according to the quality condition of purified water discharged by the EDR water purification system.
Specifically, when the quality of purified water discharged by the EDR water purification system is poor, voltage is added to the EDR module; otherwise, the voltage is reduced or the original voltage is maintained for the EDR module. Judge the poor target quality of water TDS value of setting for of the quality of water condition of the discharged purified water of EDR water purification system, compare through detecting the discharged purified water TDS value of EDR water purification system and target quality of water TDS value, then think the quality of water condition of the discharged purified water poor when the discharged purified water TDS value is greater than target quality of water TDS value.
In the further embodiment, the water quality condition is characterized by TDS value.
Specifically, detect the quality of water condition of the exhaust purified water of EDR water purification system through the TDS sensor.
Specifically, the applied voltage of the EDR module is adjusted in real time by detecting data in real time through the TDS sensor.
Specifically, the target water quality is set, and the applied voltage of the EDR water purification system is adjusted in real time according to real-time detection data of the TDS sensor and target water quality information.
Specifically, the target water quality is set simultaneously, and the applied voltage of the EDR water purification system is adjusted in real time according to real-time detection data of the TDS sensor and target water quality information.
Specifically, the target water quality is set, specifically, a target TDS value is set to be compared with a real-time TDS value of purified water discharged by an EDR water purification system, and when the real-time TDS value is lower than the target TDS value, the water quality condition is judged to be good; and when the real-time TDS value is higher than the target TDS value, judging that the water quality condition is poor.
When the water quality condition is good, the voltage is reduced or the original voltage is maintained for the EDR module. And when the water quality condition is poor, increasing voltage for the EDR module.
According to the method for adjusting the effluent quality of the EDR water purification system, the voltage applied to the EDR membrane stack is adjusted according to the water quality condition of purified water discharged by the EDR water purification system, and when the water quality condition of the purified water discharged by the EDR water purification system is poor, the voltage is increased for the EDR module; otherwise, the voltage of the EDR module is reduced or the original voltage is kept, and finally the water quality of the discharged water can be adjusted freely by a user.
Example 2.
An EDR water purifying device for adjusting the water quality of effluent, which adjusts the water quality in real time according to the user target, as shown in figure 1,
the device is provided with a water quality concentration detection module 100 for detecting a real-time water quality TDS value of a water outlet, a water quality comparison module 101 with a preset target TDS value, and a voltage control module 201 for adjusting the applied voltage of an EDR membrane stack 200;
the output end of the water quality concentration detection module 100 is connected with the input end of the comparison module, and the output end of the comparison module is connected with the input end of the voltage control module 201;
the detection end of quality of water concentration detection module 100 sets up in the delivery port of water purifier product water, and quality of water concentration detection module 100 sends the real-time quality of water TDS value that detects to quality of water contrast module 101, and quality of water contrast module 101 compares real-time quality of water TDS value and target TDS value and sends the comparison result to voltage control module 201, and voltage control module 201 adjusts the applied voltage of EDR membrane stack 200 according to the comparison result.
Specifically, the voltage control module 201 is specifically adjusted such that, when the real-time water TDS value is greater than the target TDS value, the voltage control module 201 increases the applied voltage to the EDR membrane stack 200;
when the real-time water quality TDS value is less than the target TDS value, the voltage control module 201 reduces the applied voltage to the EDR membrane stack 200.
Specifically, the water concentration detection module 100 is set to any one of MC410TDS, DR-TDS-3, or TDS 2285. The detailed construction and operation principle, which are common general knowledge of those skilled in the art, will not be described in detail.
When in use, the water quality concentration detection module 100 detects the water quality of the water outlet, and compares the real-time water quality TDS value with the target TDS value in the water quality comparison module 101, and the voltage control module 201 adjusts the applied voltage of the EDR membrane stack 200 in real time according to the comparison result.
The voltage control module 201 can adjust the voltage according to the ratio of the real-time water TDS value to the target TDS value, such as: when the real-time water TDS value is greater than the target TDS value by 10%, the voltage control module 201 correspondingly increases the applied voltage by 10%; when the real-time water TDS value is greater than the target TDS value by 20%, the voltage control module 201 correspondingly increases the applied voltage by 20%;
the voltage control module 201 may also adjust the voltage by directly increasing the applied voltage to a fixed value, such as increasing the applied voltage of the EDR membrane stack 200 to a fixed range, such as adjusting the applied voltage of the EDR membrane stack 200 to a maximum applied voltage.
The voltage control module 201 may also adjust the voltage in other manners, and as a common general knowledge of a person skilled in the art, specific structural features are not described in detail.
Detect out mouth of a river quality of water TDS value in real time, compare the target quality of water TDS value of real-time delivery port quality of water TDS value and target user customization and judge product water quality information, adjust the EDR voltage of EDR membrane stack 200 in real time according to product water quality information.
This EDR water purification system according to user's target real-time regulation quality of water of implementation detects mouth of a river quality of water TDS value in real time, compares the target quality of water TDS value of real-time delivery port quality of water TDS value and target user customization and judges product water quality information, adjusts the EDR voltage of EDR membrane stack 200 according to product water quality information real time. The water purification degree of the EDR membrane stack 200 is changed by adjusting the EDR voltage, so that the water quality reaches the unified standard.
It should be noted that the utility model provides a record EDR membrane stack has business turn over water passageway, when the raw water got into the EDR membrane stack, filters water through the electric ion, and the EDR membrane stack is no longer repeated as the concrete structural feature of common general knowledge of the ordinary skilled person in this field.
Example 3.
An EDR water purification apparatus for adjusting the quality of effluent water has the same other structure as that of embodiment 2, except that, as shown in fig. 2, a supplementary collection water tank 300, a three-way valve 301 and a supplementary water controller 302 are further provided; as described above, the water inlet of the supplementary water collection tank 300 is connected to the first pipe port of the three-way valve 301 through a pipe, the water outlet of the supplementary water collection tank 300 is connected to the water outlet through a pipe, the second pipe port of the three-way valve 301 is connected to the water production port of the EDR membrane stack 200 through a pipe, the third pipe port of the three-way valve 301 is connected to the water outlet through a pipe, and the control end of the supplementary water controller 302 is connected to the three-way valve 301.
Specifically, the detection end of the water supply controller 302 obtains the on-off state of the drinking water valve switch 205 at the water outlet, and controls the on-off of the three-way valve 301 according to the on-off state of the drinking water valve switch 205.
Specifically, the water replenishment controller 302 has the specific control steps of; when the drinking water valve switch 205 is opened, the first pipeline port 3011 and the second pipeline port 3012 are controlled to be closed, and the second pipeline port 3012 is communicated with the third pipeline port 3013;
when the drinking water valve switch 205 is closed, the first pipeline port 3011 is controlled to be communicated with the second pipeline port 3012, and the second pipeline port 3012 is controlled to be closed with the third pipeline port 3013. Specifically, a first water flow control valve 303 for controlling the flow rate of the water discharge port of the supplementary collection water tank 300 and a second water flow control valve 204 for controlling the flow rate of the water of the third pipe port 3013 are further provided.
The water flow rate ratio of the drain port of the supplementary collecting water tank 300 to the third duct port 3013 is T1, and the preferable range of T1 is 1: 3-3: 1.
when the water flow rate control device is used, the ratio of the water flow rate of the water outlet of the supplementary collection water tank 300 to the water flow rate of the EDR membrane stack 200 passing through the third pipeline port 3013 is T1 by adjusting the caliber of the water outlet of the supplementary collection water tank 300 and controlling the caliber of the third pipeline port 3013; the ratio of the water discharge amount of the supplementary collecting water tank 300 to the water flow amount of the third pipe port 3013 may be T1 by the first water flow control valve 303 and the second water flow control valve 204.
It should be noted that T1 can be adjusted according to the actual use requirement, such as 1: 3. 1:2, 1: 1.5, convenience of customers in time carries out the applied voltage through little amplitude range adjustment EDR membrane stack 200 according to real-time quality of water TDS value and changes real-time quality of water TDS value in the use.
The T1 may also be 1:1 or 1.5:1 or 2:1 or 3:1, which aims to reduce the water production load of the EDR membrane stack 200, and the user can achieve most of the water demand by replenishing the water in the collection water tank 300, thus prolonging the service life of the EDR membrane stack 200.
Specifically, when the drinking water valve switch 205 is closed, the product water of the EDR membrane stack 200 is introduced into the replenishment collection tank for storage, and when the user drinking water valve switch 205 is opened, the replenishment collection tank and the EDR membrane stack 200 simultaneously deliver water to the user.
When the water supply device is used, the detection end of the water supply controller acquires the on-off state of the drinking water valve switch of the water outlet and controls the on-off of the three-way valve according to the on-off state of the drinking water valve switch through the arranged supplementary water collection tank, the three-way valve and the supplementary water controller. When the user does not use the system, the water supplementing controller conveys the produced water of the EDR membrane stack into the supplementing collecting water tank through a three-way valve. When used by a user, the supplemental collection tank and the EDR membrane stack provide high quality water to the user simultaneously. The water produced by the EDR membrane stack can be effectively utilized by arranging the supplementary water collecting tank, and sufficient water can be provided for a user when the water collecting tank is used by the user.
Example 4.
An EDR purifier for adjusting effluent quality has the same other structure as any one of embodiments 2 and 3, and is different in that a user command module 102 for inputting a TDS value of target water quality by a user is further arranged as shown in FIG. 3, and the output end of the user command module 102 is connected with a water quality comparison module 101; the user command module 102 adjusts the size of the change target TDS value.
The water production quality of the EDR membrane stack can be adjusted according to the self needs of users by adding the user command module, and the individual requirements of all users are considered.
Example 5.
An EDR water purification apparatus for adjusting the quality of discharged water has the same structure as any one of embodiments 2 to 4, except that, as shown in fig. 4, a self-priming pump 203 is further provided, and a water suction port of the self-priming pump 203 is connected to a water discharge port of a supplementary water collection tank 300 and a third pipeline port 3013, respectively.
And water is absorbed from the water outlet by using negative pressure, so that the pressure bearing of the EDR membrane stack 200 is reduced.
Specifically, a pre-filter module 202 for reducing damage of the feed water pressure to the EDR membrane stack 200 is further provided, and the pre-filter module 202 is disposed at the water inlet of the EDR membrane stack 200. Specifically, the water entering the EDR membrane stack 200 is subjected to water pressure control and pre-filtration, reducing the pressure bearing of the EDR membrane stack 200.
Also can be connected with the delivery port of first water flow control valve 303, the delivery port of second water flow control valve 204 respectively through the water sucking mouth of self priming pump 203 when in actual use, the purpose of self priming pump mainly lies in absorbing the produced water of EDR membrane stack 200 and supplementing the water in the collection water tank, and the user can take other connected modes according to the situation of reality based on this self priming pump theory of operation.
The water pressure load of the EDR membrane stack can be reduced by adding the self-sucking pump and the front filter element module, and the service life of the EDR membrane stack is prolonged.
Example 6.
An EDR water purifier having the EDR water purifier as described in any one of embodiments 2 to 5, using the water purification system as described in real-time example 1.
This EDR water purifier can come the applied voltage of real-time adjustment EDR membrane stack according to the real-time quality of water that purifies, makes quality of water can reach unified standard, and then realizes reaching target quality of water, provides the stable purified water that accords with the water standard for the user.
Example 7.
An EDR purifier for adjusting the quality of effluent water has the same structure as any one of embodiments 2-5, and is different in that a water quality TDS display device 103 is further arranged as shown in FIG. 5, and the output end of a water quality concentration detection module 100 is connected with the water quality TDS display device 103;
the specific condition of the water quality can be known in real time by arranging the water quality TDS display device,
it should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.