CN212609715U - Purifier and drink machine - Google Patents

Abstract

The utility model relates to a water purification technology field discloses a purifier and drink machine. The water purifying device comprises an electrodialysis unit and a control unit capable of receiving a TDS preset value of purified water, and the electrodialysis unit is connected with the control unit; the control unit can adjust the voltage at two ends of the electrodialysis unit according to the TDS preset value of the purified water, so that the TDS of the purified water discharged by the electrodialysis unit can reach the TDS preset value of the purified water. Because the control unit can receive the water purification TDS default, the user can set up the water purification TDS default according to the water demand, the control unit will adjust electrodialysis unit both ends voltage according to the water purification TDS default of this setting, because the adjustment of electrodialysis unit both ends voltage, can adjust the ionization degree of purification of electrodialysis unit internal water correspondingly, thereby can adjust the TDS of water purification play water, make the TDS of the water purification of electrodialysis unit exhaust can reach the water purification TDS default, thereby satisfy the required water quality of water of user.

Description

Purifier and drink machine

Technical Field

The utility model relates to a water purification technology field specifically, relates to a purifier and a drink machine.

Background

In the electrodialyser, anion exchange membranes (cathode membranes) and cation exchange membranes (anode membranes) are alternately arranged in sequence between an anode and a cathode to form a multi-layered compartment. Under the action of an external electric field between the anode and the cathode, anions and cations in the aqueous solution entering the compartment can directionally migrate to the anode and the cathode respectively, and because the cation membrane only allows the cations to pass and prevents the anions to pass and the cathode membrane only allows the anions to pass and prevents the cations to pass, the anions and the cations in the dilute chamber migrate to the adjacent concentrated chamber, thereby desalinating the salt-containing water. The electrodialyzer can remove various ions from the water, effectively reducing the TDS (Total dissolved solids, also known as Total dissolved solids) of the water.

In daily life, people can make various drinks, such as tea and coffee, by using water purified by an electric dialyzer.

However, when different beverages are brewed with water purified by electrodialysis, the taste of the beverage is not good, thereby affecting the experience of people.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water purifying device, this water purifying device can adjust the ion content of water purification play aquatic according to the water purification water demand of different quality of water.

Therefore, the utility model provides a water purifying device, which comprises an electrodialysis unit and a control unit capable of receiving the TDS preset value of purified water, wherein the electrodialysis unit is connected with the control unit; the control unit can adjust the voltage at two ends of the electrodialysis unit according to the TDS preset value of the purified water, so that the TDS of the purified water discharged by the electrodialysis unit can reach the TDS preset value of the purified water.

In this technical scheme, because the control unit can receive the water purification TDS default, consequently, the user can set up the water purification TDS default according to the water demand, the control unit will adjust electrodialysis unit both ends voltage according to the water purification TDS default that should set up, because the adjustment of electrodialysis unit both ends voltage, can adjust the ionization degree of purification of electrodialysis unit internal water correspondingly, thereby can adjust the TDS of water purification play water, make the TDS of the discharged water purification of electrodialysis unit can reach the water purification TDS default, thereby satisfy the required water quality of water of user.

Further, the water purification device also comprises a purified water TDS detection unit used for detecting the purified water discharged by the electrodialysis unit, and the purified water TDS detection unit is connected with the control unit, wherein the control unit can receive the purified water TDS detection value of the purified water TDS detection unit, can compare the purified water TDS detection value with a purified water TDS preset value, and can adjust the voltage at two ends of the electrodialysis unit according to the comparison.

Further, the water purification device also comprises a to-be-purified water TDS detection unit for detecting to-be-purified water entering the electrodialysis unit and a purified water TDS detection unit for detecting purified water discharged by the electrodialysis unit, and the control unit can analyze and calculate the to-be-purified water TDS detection value of the to-be-purified water TDS detection unit and the purified water TDS detection value of the purified water TDS detection unit so as to adjust the voltage at two ends of the electrodialysis unit.

Further, the water purifying device comprises a main purified water outlet pipe section and a secondary purified water outlet pipe section which are connected with the electrodialysis unit through a control valve, wherein the main purified water outlet pipe section is used for being connected with a water using unit, and when the TDS of purified water discharged by the electrodialysis unit does not reach the TDS preset value of the purified water, the control valve controls the secondary purified water outlet pipe section to be communicated with the electrodialysis unit; when the TDS of the purified water discharged by the electrodialysis unit reaches the TDS preset value of the purified water, the control valve controls the main purified water outlet pipe section to be communicated with the electrodialysis unit.

Further, the control unit is connected to the control valve to control the control valve.

Furthermore, the purified water outlet auxiliary pipe section is connected with a purified water storage device with a water outlet port, and the purified water storage device is communicated with the water inlet end of the electrodialysis unit through a pump and a switch valve.

Further, the water purification device also comprises a pre-filter communicated with the electrodialysis unit.

Additionally, the utility model provides a beverage machine, this beverage machine include beverage preparation body and above arbitrary purifier, wherein, electrodialysis unit's water purification play water end with the income water port of beverage preparation body is connected.

In the beverage machine, the water purifying device is arranged, and the water purifying device can correspondingly provide the purified water with the water quality required by the user according to the purified water demand of the user without the water quality, so that after the user selects the type of the beverage to be brewed in the beverage machine, the water purifying device can provide the purified water with the water quality required by the beverage to be brewed to the beverage making body, and the brewed beverage has better taste.

Further, the control unit or the beverage making body comprises a plurality of beverage buttons for making different kinds of beverages.

Further, the control unit or the beverage making body comprises a purified water TDS preset value adjusting button.

Other features and advantages of the present invention will be described in detail in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of a beverage machine provided by an embodiment of the present invention, wherein, a water purifying device provided by an embodiment of the present invention is shown.

Description of the reference numerals

The beverage making device comprises a water purifying device, a water purifying device and a control unit, wherein the water purifying device comprises a 1-electrodialysis unit, a 2-control unit, a 3-water purifying TDS detection unit, a 4-to-be-purified water TDS detection unit, a 5-control valve, a 6-purified water outlet main pipe section, a 7-purified water outlet auxiliary pipe section, a 8-purified.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

Referring to fig. 1, the present invention provides a water purification apparatus comprising an electrodialysis unit 1 and a control unit 2 capable of receiving a preset value of TDS of purified water, wherein the electrodialysis unit 1 is connected to the control unit 2; the control unit 2 can adjust the voltage across the electrodialysis unit 1 according to the TDS preset value of the purified water so that the TDS of the purified water discharged by the electrodialysis unit 1 can reach the TDS preset value of the purified water.

In this technical scheme, because control unit 2 can receive the water purification TDS default, consequently, the user can set up the water purification TDS default according to the water demand, control unit will adjust 1 both ends voltage of electrodialysis unit according to the water purification TDS default that should set up, because the adjustment of 1 both ends voltage of electrodialysis unit, can adjust the ionization degree of purification of electrodialysis unit 1 internal water correspondingly, thereby can adjust the TDS of water purification play water, make the TDS of 1 exhaust water of electrodialysis unit can reach the water purification TDS default, thereby satisfy the required water quality of water of user.

The connection between the electrodialysis unit 1 and the control unit 2 may be a wired connection or a wireless connection, for example, a wireless signal connection.

The concentrate formed after purification in the electrodialysis unit 1 can be discharged from the concentrate discharge port of the electrodialysis unit 1.

In this purifier, after the user set up water purification TDS preset value, control unit 2 just adjusted the both ends voltage of electrodialysis unit 1 correspondingly and is in the voltage corresponding with this water purification TDS preset value, like this, behind 1 water purification period of electrodialysis unit, just can make the TDS of water purification play water can reach water purification TDS preset value.

Alternatively, as shown in fig. 1, the water purification apparatus further comprises a purified water TDS detection unit 3 for detecting purified water discharged from the electrodialysis unit 1, the purified water TDS detection unit 3 being connected to the control unit 2 (either by a wired connection or by a wireless connection, such as a wireless signal connection), wherein the control unit 2 is capable of receiving a purified water TDS detection value of the purified water TDS detection unit 3 and comparing the purified water TDS detection value with a purified water TDS preset value and adjusting the voltage across the electrodialysis unit 1 according to the comparison. Like this, when control unit 2 adjusts the both ends voltage of electrodialysis unit 1, the TDS of water purification play will change, and water purification TDS detecting element 3 then can real-time detection water purification play's TDS, when detecting water purification play's TDS and being less than water purification TDS preset value, control unit 2 just reduces the voltage at electrodialysis unit 1 both ends, when detecting water purification play's TDS and being greater than water purification TDS preset value, control unit 2 will rise the voltage at electrodialysis unit 1 both ends, when detecting water purification play's TDS and reaching water purification TDS preset value, just explain that the voltage at electrodialysis unit 1 both ends has been in the voltage that corresponds with water purification TDS preset value, and like this, electrodialysis unit 1 purifies the water under this adjusted voltage, in order to provide the water purification that satisfies water purification TDS preset value. Alternatively, the control unit 2 can calculate the difference between the measured value of the clean water TDS and the preset value of the clean water TDS and then adjust the voltage across the electrodialysis unit 1 according to this difference, as long as the difference is equal to 0 or substantially equal to 0 or is in a predetermined range.

Alternatively, as shown in fig. 1, the water purifying apparatus further includes a TDS detection unit 4 for detecting water to be purified entering the electrodialysis unit 1 and a TDS detection unit 3 for detecting purified water discharged from the electrodialysis unit 1, the TDS detection unit 4 and the TDS detection unit 3 can be connected to the control unit 2 by wires or by wireless connection such as wireless signal connection, and the control unit 2 can analyze and calculate a TDS detection value of water to be purified of the TDS detection unit 4 and a TDS detection value of purified water of the TDS detection unit 3 to adjust voltage across the electrodialysis unit 1. For example, the control unit 2 can calculate a ratio or difference of the pure water TDS detection values of the water to be purified TDS detection values and adjust the voltage across the electrodialysis unit 1 accordingly based on the ratio or difference, and when the ratio is 1 or substantially equal to 1 or within a predetermined range, or the difference is 0 or substantially equal to 0 or within a predetermined range, the electrodialysis unit 1 purifies the water at the adjusted voltage to provide pure water satisfying the pure water TDS preset value.

Of course, optionally, the water purifying device further comprises a TDS detection unit 4 for detecting the water to be purified entering the electrodialysis unit 1, so that the control unit 2 can adjust the voltage at both ends of the electrodialysis unit 1 according to the ratio or difference between the TDS detection value of the water to be purified and the TDS preset value of the purified water by the TDS detection unit 4, which can also make the electrodialysis unit 1 purify the water at the adjusted voltage to provide the purified water meeting the TDS preset value of the purified water.

In addition, as shown in fig. 1, in order to directly and more accurately provide purified water meeting the TDS preset value of the purified water, the water purifying device comprises a main purified water outlet pipe section 6 and a sub purified water outlet pipe section 7 which are connected with the electrodialysis unit 1 through a control valve 5, wherein the main purified water outlet pipe section 6 is used for connecting a water using unit, when the TDS of the purified water discharged by the electrodialysis unit 1 does not reach the TDS preset value of the purified water, the control valve 5 controls the sub purified water outlet pipe section 7 to be communicated with the electrodialysis unit 1, and at the moment, the purified water which is discharged by the electrodialysis unit 1 and does not reach the TDS preset value of the purified water is discharged through the sub purified water outlet pipe section 7; when the TDS of the water purification discharged from the electrodialysis unit 1 reaches the TDS preset value of the water purification, the control valve 5 controls the water purification outlet water to be communicated with the electrodialysis unit 1, and at the moment, the water purification discharged from the electrodialysis unit 1 and reaching the TDS preset value of the water purification outlet water is discharged from the main section 6 through the water purification outlet water to be used by water supply units such as drink machines.

The control valve 5 may be a three-way valve. Alternatively, the control valve 5 may comprise two switching valves, for example, a main purified water outlet segment 6 and a secondary purified water outlet segment 7 are connected in parallel with the purified water outlet end of the electrodialysis unit 1, one switching valve is disposed on the main purified water outlet segment 6, and the other switching valve is disposed on the secondary purified water outlet segment 7, so that the two switching valves can be controlled to be opened and closed respectively. That is, when the TDS of the purified water discharged from the electrodialysis unit 1 does not reach the TDS preset value of the purified water, the switch valve on the main purified water outlet pipe section 6 is closed, and the switch valve on the auxiliary purified water outlet pipe section 7 is opened. When the TDS of the purified water discharged by the electrodialysis unit 1 reaches the TDS preset value of the purified water, the switch valve on the main purified water discharging pipe section 6 is opened, and the switch valve on the auxiliary purified water discharging pipe section 7 is closed.

The control valve 5 may be manually operated by a user, for example, when the TDS of the purified water discharged from the electrodialysis unit 1 reaches a purified water TDS preset value, a prompt, such as a flashing light or a prompt sound, will occur by the control unit 2, so that the user can manually operate the control valve 5 to communicate the purified water outlet main pipe section 6 with the electrodialysis unit 1.

Of course, alternatively, as shown in fig. 1, the control unit 2 and the control valve 5 are connected to control the control valve 5, that is, the control unit 2 may automatically operate the control valve 5, thereby improving convenience of the water purifying apparatus. For example, in an embodiment, the control unit 2 correspondingly adjusts the voltage across the electrodialysis unit 1 to be a voltage corresponding to the TDS preset value of the purified water, so that after the purified water in the electrodialysis unit 1 has passed through a predetermined period of time, the TDS of the purified water discharged from the electrodialysis unit 1 reaches the TDS preset value of the purified water, and at this time, the control unit 2 can operate the control valve 5, so that the control valve 5 controls the main purified water outlet pipe section 6 to be communicated with the electrodialysis unit 1. Or, in another embodiment, the control unit 2 can receive the water purification TDS detection value of the water purification TDS detection unit 3, and when the water purification TDS detection value reaches the water purification TDS preset value, the control unit 2 can operate the control valve 5, so that the control valve 5 controls the main water outlet pipe section 6 to be communicated with the electrodialysis unit 1.

Of course, the purified water discharged from the purified water discharging sub-pipe section 7 may be directly discharged, or may be supplied to other subsequent units, or, as shown in fig. 1, a purified water reservoir 8 having a water discharging port is connected to the purified water discharging sub-pipe section 7, and the purified water reservoir 8 is communicated with the water inlet port of the electrodialysis unit 1 through a pump 9 and an on-off valve 10. Thus, the control valve 5 controls the purified water outlet sub-pipe section 7 to be communicated with the electrodialysis unit 1, the switch valve 10 is closed, and the purified water discharged from the purified water outlet sub-pipe section 7 can be temporarily stored in the purified water storage 8. And when control valve 5 control water purification play water main pipe section 6 and electrodialysis unit 1 intercommunication, ooff valve 10 can be opened, and pump 9 can start to carry the water purification of storing in the water purification reservoir 8 to the end of intaking in electrodialysis unit 1 in order to enter into electrodialysis unit 1 again and purify, thereby promoted the utilization ratio of water purification, avoided extravagant. Of course, if necessary, the purified water stored in the purified water reservoir 8 may be discharged through the discharge port.

In addition, as shown in fig. 1, the water purification apparatus further includes a pre-filter 11 communicating with the electrodialysis unit 1. In this way, the water to be purified, for example tap water, is filtered by the prefilter 11 and then enters the electrodialysis unit 1, thereby increasing the service life of the electrodialysis unit and improving the purification effect. Of course, it should be understood that the pre-filter 11 may be any type of filter as long as it can perform a filtering effect.

Furthermore, the utility model provides a beverage machine, refer to fig. 1, this beverage machine includes beverage preparation body 12 and above arbitrary purifier, wherein, electrodialysis unit 1's water purification outlet end is connected with the income water port of beverage preparation body 12.

In the beverage machine, the water purifying device is arranged, and the water purifying device can correspondingly provide the purified water with the water quality required by the user according to the purified water demand of the user without the water quality, so that after the user selects the type of the beverage to be brewed in the beverage machine, the water purifying device can provide the purified water with the water quality required by the beverage to be brewed to the beverage making body, and the brewed beverage has better taste.

In addition, the control unit 2 or the beverage making body 12 comprises a plurality of beverage buttons for making different types of beverages, such as beverage buttons for brewing tea, coffee, orange juice, etc. That is, the user may operate a plurality of drink buttons for making different kinds of drinks on the control unit 2, or may operate a plurality of drink buttons for making different drinks on the drink making body 12.

In addition, for the same beverage, when beverages with different brewing tastes need to be drunk, the user can also adjust, for example, the control unit 2 or the beverage making body 12 includes a purified water TDS preset value adjusting button. For example, after a user presses a coffee brewing button, the TDS preset value of the purified water of the coffee brewing water can be adjusted, so that the requirement of brewing coffee with different tastes is met. Like this, the user can adjust water purification TDS default through water purification TDS default adjusting button to make purifier can provide the brewing water of required quality of water, in order to satisfy the user to the demand of the different tastes of same drink, this experience that has promoted the user is good. Thus, the overall quality of the beverage machine is improved.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

In addition, various embodiments of the present invention can be combined arbitrarily, and the disclosed content should be regarded as the present invention as long as it does not violate the idea of the present invention.

Claims (10)

1. A water purification device, comprising an electrodialysis unit (1) and a control unit (2) capable of receiving a preset value of TDS of purified water,

the electrodialysis unit (1) is connected with the control unit (2);

the control unit (2) can adjust the voltage across the electrodialysis unit (1) according to the purified water TDS preset value, so that the TDS of the purified water discharged by the electrodialysis unit (1) can reach the purified water TDS preset value.

2. A water purification device according to claim 1, further comprising a purified water TDS detection unit (3) for detecting purified water discharged by the electrodialysis unit (1), the purified water TDS detection unit (3) being connected to the control unit (2), wherein the control unit (2) is capable of receiving a purified water TDS detection value of the purified water TDS detection unit (3) and of comparing the purified water TDS detection value with a purified water TDS preset value and of adjusting the voltage across the electrodialysis unit (1) in dependence on the comparison.

3. A water purification apparatus as claimed in claim 1, further comprising a TDS detection unit (4) for detecting water to be purified entering the electrodialysis unit (1) and a TDS detection unit (3) for detecting purified water discharged from the electrodialysis unit (1), the control unit (2) being capable of analyzing a TDS detection value of water to be purified of the TDS detection unit (4) and a purified water TDS detection value of the purified water TDS detection unit (3) to adjust the voltage across the electrodialysis unit (1).

4. Water purification apparatus according to any one of claims 1-3, comprising a main purified water outlet pipe section (6) and a secondary purified water outlet pipe section (7) connected to the electrodialysis unit (1) via a control valve (5), the main purified water outlet pipe section (6) being adapted to be connected to a water usage unit, wherein,

when the TDS of the purified water discharged by the electrodialysis unit (1) does not reach the TDS preset value of the purified water, the control valve (5) controls the purified water discharging auxiliary pipe section (7) to be communicated with the electrodialysis unit (1); when the TDS of the purified water discharged by the electrodialysis unit (1) reaches the TDS preset value of the purified water, the control valve (5) controls the main purified water outlet pipe section (6) to be communicated with the electrodialysis unit (1).

5. A water purification apparatus according to claim 4, characterized in that the control unit (2) and the control valve (5) are connected to control the control valve (5).

6. Water purification device according to claim 4, characterized in that a purified water reservoir (8) with a water discharge port is connected to the purified water outlet sub-section (7), and the purified water reservoir (8) is communicated with the water inlet end of the electrodialysis unit (1) through a pump (9) and a switch valve (10).

7. Water purification device according to claim 1, further comprising a pre-filter (11) in communication with the electrodialysis unit (1).

8. A beverage maker, characterized by comprising a beverage making body (12) and the water purifying device of any one of claims 1-7, wherein,

the water purifying and discharging end of the electrodialysis unit (1) is connected with the water inlet end of the beverage making body (12).

9. Beverage machine according to claim 8, characterized in that the control unit (2) or the beverage making body (12) comprises a plurality of beverage buttons for making different kinds of beverages.

10. Beverage machine according to claim 8 or 9, characterized in that the control unit (2) or the beverage making body (12) comprises a clean water TDS preset value adjustment button.

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