CN208747785U - A kind of water treatment system and equipment is drunk only - Google Patents
A kind of water treatment system and equipment is drunk only Download PDFInfo
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- CN208747785U CN208747785U CN201821144716.9U CN201821144716U CN208747785U CN 208747785 U CN208747785 U CN 208747785U CN 201821144716 U CN201821144716 U CN 201821144716U CN 208747785 U CN208747785 U CN 208747785U
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Abstract
The utility model discloses a kind of water treatment system and drinks equipment only.Water treatment system includes water inlet flow path, heating part, heat exchange department, intermediate flow passage, the first water outlet flow path and the second water outlet flow path, heating part is arranged in the intermediate flow passage, heat exchange department includes first flow path and second flow path, and heat exchange is able to carry out between first flow path and second flow path;Water inlet flow path is connected with the entrance of first flow path, the water inlet end of intermediate flow passage and the outlet of first flow path, the water outlet of intermediate flow passage is connected to the entrance of second flow path and the second water outlet flow path, the outlet of second flow path and the first water outlet fluid communication, purification portion is provided in intermediate flow passage, purification portion is for purifying the water for flowing through the intermediate flow passage.The water treatment system of the utility model and equipment is drunk only, when so that purified water being heated in heating part, heating efficiency increases, and heating time shortens, and energy consumption reduces, and Power Saving Class improves, meanwhile, a variety of Drinking Water Temperatures are provided, usage experience increases.
Description
Technical field
The utility model relates to water-treatment technology field more particularly to a kind of water treatment system and only equipment is drunk.
Background technique
Currently, water purifier is increasingly by everybody approval as people are to the continuous understanding of drinking-water health.The prior art
Direct-drinking water purifier, processing is filtered to raw water using filter cores such as PP cotton, active carbon prefilter core and osmosis filtration cores,
Raw water can generate pure water and waste water after the filtering of osmosis filtration core, and the waste water discharge will be described pure by heating
Water is heated into boiled water or hot water for users to use.For above-mentioned direct-drinking water purifier when heating pure water, heating efficiency is lower, consumption
Can be more, and heating time is longer, when needing drinking hot water or boiled water, needs to expend much electricity heating, energy conservation etc.
Grade is lower.
Utility model content
In view of this, drinking equipment the purpose of this utility model is to provide a kind of lower water treatment system of energy consumption and only.
In order to achieve the above objectives, on the one hand, the utility model uses following technical scheme:
A kind of water treatment system, including water inlet flow path, heating part, heat exchange department, intermediate flow passage, the first water outlet flow path and the
Two water outlet flow paths, the heating part are arranged in the intermediate flow passage, and the heat exchange department includes first flow path and second flow path,
Heat exchange is able to carry out between the first flow path and the second flow path;The entrance of the water inlet flow path and the first flow path
It is connected, the outlet of the water inlet end of the intermediate flow passage and the first flow path, the water outlet of the intermediate flow passage and institute
The entrance for stating second flow path is connected to the second water outlet flow path, the outlet of the second flow path and the first water outlet flow path
It is connected to, purification portion is provided in the intermediate flow passage, the purification portion is for purifying the water for flowing through the intermediate flow passage.
Preferably, the heat exchange department includes shell and the heat exchanging pipe that is arranged in the shell, the shell and institute
It states the space between heat exchanging pipe and constitutes the first flow path, the inner cavity of the heat exchanging pipe constitutes the second flow path.
Preferably, the entrance and exit of the first flow path is arranged at the top of the shell;And/or
The lower part of the shell is arranged in the entrance of the second flow path, and the outlet setting of the second flow path is described outer
The top of shell.
Preferably, the water treatment system further includes the third water outlet flow path connecting with the intermediate flow passage, the third
Water outlet flow path and the link position of the intermediate flow passage are between the purification portion and the heating part.
Preferably, the water treatment system further includes the water purification water storage branch connecting with the intermediate flow passage, the water purification
Water storage branch road is provided with water storage part, on the water route of the intermediate flow passage, the water purification water storage branch and the intermediate flow passage
Link position be located at the third water outlet flow path and the intermediate flow passage link position upstream side.
Preferably, the water storage part includes pressure vessel, and the water purification water storage branch road is additionally provided with pressure switch, is passed through
The pressure switch controls the pressure in the pressure vessel, realizes that the water of the purification portion is stored in the pressure vessel,
Or realize that the water in pressure vessel is discharged from the first water outlet flow path, the second water outlet flow path and/or third water outlet flow path.
Preferably, the first control valve or one-way conduction element are provided in the intermediate flow passage, in the intermediate flow passage
On flow path, the connection position for stating water purification water storage branch Yu the intermediate flow passage is arranged in first control valve or one-way conduction element
The upstream side set, the one-way conduction element are arranged to allow the water flow in intermediate flow passage to the pressure vessel.
Preferably, the water treatment system further includes water storage portion, and the water storage portion is arranged in the intermediate flow passage, is used for
Store the hot water of heating part heating.
Preferably, the heating part includes instantaneously heated type heater, and on the flow path of the intermediate flow passage, the water storage portion is set
It sets in the downstream side of the instantaneously heated type heater;Or,
The heating part is built in the water storage portion.
Preferably, the purification portion includes reverse osmosis units.
Preferably, the purification portion further includes prefilter unit, is entered through the filtered water of the prefilter unit
The reverse osmosis units;And/or
The purification portion further includes postposition filter element, postposition filter element setting in the water purification water storage branch and
Between the third water outlet flow path.
In order to achieve the above objectives, on the other hand, the utility model uses following technical scheme:
A kind of net drink equipment, including above-mentioned water treatment system.
The water treatment system of the utility model and equipment is drunk only, the raw water for passing through the flow path that will intake introduces the heat exchange department
First flow path, the water by the purified of intermediate flow passage and after heating introduces the second flow path of the heat exchange department, so that former
Water is purified again through the purification portion after absorbing the heat of the water after the heating and is heated in heating part, so that the heating
When purified water is heated in portion, heating efficiency increases, and heating time shortens, and energy consumption reduces, and Power Saving Class improves, meanwhile, heating
Water afterwards can not only cool down after the second flow path heat release, flow out hot water from the first water outlet flow path, the water after heating
Boiled water can also be flowed out through the second water outlet flow path, and then a variety of Drinking Water Temperatures are provided, usage experience increases.
Detailed description of the invention
By referring to the drawings to the description of the utility model embodiment, the above-mentioned and other mesh of the utility model
, feature and advantage will be apparent from.
Fig. 1 is the structural schematic diagram of the water treatment system of embodiment one in specific embodiment of the present invention;
Fig. 2 is the structural schematic diagram of the water treatment system of embodiment two in specific embodiment of the present invention;
Fig. 3 is the structural schematic diagram of the water treatment system of embodiment three in specific embodiment of the present invention;
Fig. 4 is the structural schematic diagram of the water treatment system of example IV in specific embodiment of the present invention.
In figure:
100, water inlet flow path;110, control valve;
200, heating part;
300, heat exchange department;310, first flow path;320, second flow path;330, shell;340, heat exchanging pipe;
400, intermediate flow passage;
500, the first water outlet flow path;510, control valve;
600, the second water outlet flow path;610, control valve;
700, purification portion;710, reverse osmosis units;711, concentrated water branch;7111, waste water proportioner;720, prefilter list
Member;730, postposition filter element;
800, third is discharged flow path;810, control valve;
900, water storage portion;
0100, water purification water storage branch;0110, pressure switch;
0200, water storage part;0210, pressure vessel;
0300, one-way conduction element;
0400, booster pump.
Specific embodiment
The utility model is described below based on embodiment, but the utility model is not restricted to these implementations
Example.It is detailed to describe some specific detail sections below in the datail description of the utility model.
In addition, it should be understood by one skilled in the art that provided herein attached drawing be provided to explanation purpose, and
What attached drawing was not necessarily drawn to scale.
Unless the context clearly requires otherwise, "include", "comprise" otherwise throughout the specification and claims etc. are similar
Word should be construed as the meaning for including rather than exclusive or exhaustive meaning;That is, be " including but not limited to " contains
Justice.
In the description of the present invention, it should be understood that term " first ", " second " etc. are used for description purposes only,
It is not understood to indicate or imply relative importance.In addition, in the description of the present invention, unless otherwise indicated, it is " more
It is a " it is meant that two or more.
Shown in referring to Fig.1, the water treatment system of the utility model, including water inlet flow path 100, heating part 200, heat exchange department
300, intermediate flow passage 400, first is discharged flow path 500 and the second water outlet flow path 600, and the heating part 200 is arranged in the centre
On flow path 400, the heat exchange department 300 includes first flow path 310 and second flow path 320, the first flow path 310 and described the
Heat exchange is able to carry out between two flow paths 320;The water inlet flow path 100 is connected with the entrance of the first flow path 310, described
The outlet of the water inlet end of intermediate flow passage 400 and the first flow path 310, the water outlet of the intermediate flow passage 400 with it is described
The entrance of second flow path 320 is connected to the second water outlet flow path 600, the outlet of the second flow path 320 and described first
It is discharged flow path 500 to be connected to, purification portion 700 is provided in the intermediate flow passage 400, the purification portion 700 is used for described to flowing through
The water of intermediate flow passage 400 is purified.
By the way that the raw water for flow path 100 of intaking to be introduced to the first flow path 310 of the heat exchange department 300, by intermediate flow passage 400
Purification and heating after water introduce the second flow path 320 of the heat exchange department 300 so that raw water absorbs the water after the heating
Heat after again through the purification portion 700 purify and heated portion 200 heat so that the heating part 200 heating purification
When rear water, heating efficiency increases, and heating time shortens, and energy consumption reduces, and Power Saving Class improves, meanwhile, the water after heating is not only
It can cool down after 320 heat release of second flow path, flow out hot water from the first water outlet flow path 500, the water after heating can also
It is enough to go out boiled water through the second water outlet flow path stream 600, and then a variety of Drinking Water Temperatures are provided, usage experience increases.
The heat exchange department 300 includes shell 330 and the heat exchanging pipe 340 being arranged in the shell 330, the shell
Space between 330 and the heat exchanging pipe 340 constitutes the first flow path 310, and the inner cavity of the heat exchanging pipe 340 constitutes institute
State second flow path 320, heat exchanging pipe 340 is preferably helically coil-like, thus improve first flow path 310 and second flow path 320 it
Between heat exchange efficiency, the water inlet of the water inlet flow path 100 terminates raw water, and raw water flows through described first through the water inlet flow path 100
Flow path 310 flows into the intermediate flow passage 400, flows through the water of the intermediate flow passage 400 after the purification portion 700 purification through described
Heating part 200 is heated, and flows into the second flow path 320 later, and in second flow path 320 and in the first flow path 310
Heat exchange occurs for water, and the water in the first flow path 310 absorbs the heat of the water in the second flow path 320, by entering institute
The water for stating intermediate flow passage 400 has absorbed the heat of part, and the heating part 200 flows to institute to from the intermediate flow passage 400
When stating the water heating of heating part 200, heating efficiency increases, and energy consumption reduces.
The entrance and exit of the first flow path 310 is arranged at the top of the shell 330, the second flow path 320
Entrance the lower part of the shell 330 is set, the top of the shell 330 is arranged in the outlet of the second flow path 320, such as
This, so that the heat exchanger effectiveness between the first flow path 310 and the second flow path 320 is improved.Alternatively, described first
The entrance and exit of flow path 310 is arranged at the lower part of the shell 330, and the entrance of the second flow path 320 is arranged described
The lower part of the shell 330 is arranged in the top of shell 330, the outlet of the second flow path 320.
The purification portion 700 includes reverse osmosis units 710, prefilter unit 720 and postposition filter element 730, through institute
The filtered water of prefilter unit 720 is stated into the reverse osmosis units 710, the concentrated water that reverse osmosis units 710 generate is through dense
Water branch 711 is discharged, and the pure water that reverse osmosis units 710 generate can flow into the postposition filter element 730.
The water treatment system further includes the third water outlet flow path 800 connecting with the intermediate flow passage 400, and the third goes out
The link position of water flow road 800 and the intermediate flow passage 400 be located at the postposition filter element 730 and the heating part 200 it
Between, the water flowed out in the third water outlet flow path 800 is to absorb heat through the heat exchange department 300 and purify through the purification portion 700
Water afterwards, it is more slightly higher than room temperature and purified water that the third, which is discharged the water flowed out in flow path 800,.
The water treatment system further includes water storage portion 900, and the water storage portion 900 is arranged in the intermediate flow passage 400, is used
In the hot water that storage heating part 200 is heated, the heating part 200 includes instantaneously heated type heater, in the stream of the intermediate flow passage 400
On the road, the downstream side of the instantaneously heated type heater is arranged in the water storage portion 900, and then realizes and heat the heating part 200
Water afterwards is stored in the water storage portion 900.
It is appreciated that water-level detecting device (not shown) can be set on the water storage portion 900, to detect water storage
Water level in portion is provided with temperature control element (not shown) on the heating part 200, to heat when the heating part 200
Water it is boiled after stop heating.
In addition, water inlet flow path 100, the first water outlet flow path 500, the second water outlet flow path 600, third water outlet
Control valve 110, control valve 510, control valve 610, control valve 810 are respectively arranged on flow path 800, on the concentrated water branch 711
It is provided with waste water proportioner 7111, certainly, the waste water proportioner 7111 could alternatively be waste water ratio solenoid valve etc. and can control
The control element of the concentrated water discharge ratio.Booster pump 0400, the booster pump 0400 are provided in the intermediate flow passage 400
It is arranged between the reverse osmosis units 710 and prefilter unit 720.
Embodiment two
The difference of embodiment two and embodiment one is heating part 200 and the water storage portion 900.
The water storage portion 900 of embodiment one and the link position relationship of heating part 200 could alternatively be, the heating part 200
It is built in the water storage portion 900, referring to shown in Fig. 2, such as the water storage portion 900 and the heating part 200 are heating water storage
Tank, it is clear that the effect and water storage portion 900 that reach the inside that the water storage portion 900 is arranged in the heating part 200 and it is described plus
It is similar that hot portion 200 is provided separately the effect reached.
Embodiment three
The difference of embodiment three and embodiment one is that embodiment three further includes water purification water storage branch 0100, water storage part
0200 and one-way conduction element 0300.
Referring to shown in Fig. 3, the water treatment system further includes the water purification water storage branch connecting with the intermediate flow passage 400
0100, water storage part 0200 is provided on the water purification water storage branch 0100, it is described net on the water route of the intermediate flow passage 400
Water water storage branch 0100 and the link position of the intermediate flow passage 400 are located at the reverse osmosis units 710 and the postposition filters
Between unit 730, the setting of the water storage part 0200 enables to the water purified through the purification portion 700 to be stored in the water storage
Portion 0200, when needing to drink water, the purified water being stored in the water storage part 0200 is discharged flow path through the third
800 or second water outlet flow path 600 or first water outlet flow path 500 be discharged, without waiting for 700 purified water of purification portion, in turn
So that the drinking-water water intaking time shortens, efficiency of producing drinking water increases, and usage experience improves, and especially, the purification portion 700 includes reverse osmosis
When unit 710, the reverse osmosis filter membrane water efficiency of the reverse osmosis units 710 is poor, and the water storage part 0200, which is arranged, to be mentioned
High efficiency of producing drinking water.
The water storage part 0200 includes pressure vessel 0210, is additionally provided with pressure switch on the water purification water storage branch 0100
0110, the pressure in the pressure vessel 0210 is controlled by the pressure switch 0110, realizes the water storage of the purification portion 700
There are the water in the pressure vessel 0210, or in realization pressure vessel 0210 to go out from the first water outlet flow path 500, second
Water flow road 600 and/or third water outlet flow path 800 are discharged, when 700 water processed of purification portion, by the first water outlet flow path
500, the second water outlet flow path 600 and third water outlet flow path 800 are closed, and water made from the purification portion 700 is through the water purification
Water storage branch 0100 is stored in the pressure vessel 0210, until the pressure in the pressure vessel 0210 reaches the pressure
Stop water processed after the pressure value that switch 0110 limits.
In the link position and the reverse osmosis units 710 of the water purification water storage branch 0100 and the intermediate flow passage 400
Between be provided with one-way conduction element 0300, the one-way conduction element 0300 is arranged to that the reverse osmosis units 710 is allowed to produce
Raw pure water flows to the third water outlet flow path 800 or the water purification water storage branch 0100, the one-way conduction element 0300
It can be such as non-return valve, when fetching water from the pressure vessel 0210, the one-way conduction element 0300 can be to avoid described
Water flow in pressure vessel 0210 is to the reverse osmosis units 710.
It is appreciated that the one-way conduction element 0300 can using the first control valve replace, first control valve and
The setting position of the one-way conduction element 0300 is the same.
Alternatively, first control valve or one-way conduction element 0300 are by being arranged in the reverse osmosis units 710, water purification is stored up
The replacement of the triple valve of water branch 0100 and postposition filter element 730 is stored up by controlling the reverse osmosis units 710 and the water purification
Water branch 0100 is connected to, or, the water purification water storage branch 0100 is connected to the postposition filter element 710, may be implemented and institute
State the first control valve or the similar effect of one-way conduction element 0300.
Example IV
The difference of example IV and embodiment two is that example IV further includes the content of embodiment three.
Referring to shown in Fig. 4, the water treatment system further includes the water purification water storage branch connecting with the intermediate flow passage 400
0100, water storage part 0200 is provided on the water purification water storage branch 0100, it is described net on the water route of the intermediate flow passage 400
Water water storage branch 0100 and the link position of the intermediate flow passage 400 are located at the reverse osmosis units 710 and the postposition filters
Between unit 730, the setting of the water storage part 0200 enables to the water purified through the purification portion 700 to be stored in the water storage
Portion 0200, when needing to drink water, the purified water being stored in the water storage part 0200 is discharged flow path through the third
800 or second water outlet flow path 600 or first water outlet flow path 500 be discharged, without waiting for 700 purified water of purification portion, in turn
So that the drinking-water water intaking time shortens, efficiency of producing drinking water increases, and usage experience improves, and especially, the purification portion 700 includes reverse osmosis
When unit 710, the reverse osmosis filter membrane water efficiency of the reverse osmosis units 710 is poor, and the water storage part 0200, which is arranged, to be mentioned
High efficiency of producing drinking water.
The water storage part 0200 includes pressure vessel 0210, is additionally provided with pressure switch on the water purification water storage branch 0100
0110, the pressure in the pressure vessel 0210 is controlled by the pressure switch 0110, realizes the water storage of the purification portion 700
There are the water in the pressure vessel 0210, or in realization pressure vessel 0210 to go out from the first water outlet flow path 500, second
Water flow road 600 and/or third water outlet flow path 800 are discharged, when 700 water processed of purification portion, by the first water outlet flow path
500, the second water outlet flow path 600 and third water outlet flow path 800 are closed, and water made from the purification portion 700 is through the water purification
Water storage branch 0100 is stored in the pressure vessel 0210, until the pressure in the pressure vessel 0210 reaches the pressure
Stop water processed after the pressure value that switch 0110 limits.
In the link position and the reverse osmosis units 710 of the water purification water storage branch 0100 and the intermediate flow passage 400
Between be provided with one-way conduction element 0300, the one-way conduction element 0300 is arranged to that the reverse osmosis units 710 is allowed to produce
Raw pure water flows to the third water outlet flow path 800 or the water purification water storage branch 0100, the one-way conduction element 0300
It can be such as non-return valve, when fetching water from the pressure vessel 0210, the one-way conduction element 0300 can be to avoid described
Water flow in pressure vessel 0210 is to the reverse osmosis units 710.
It is appreciated that the one-way conduction element 0300 can using the first control valve replace, first control valve and
The setting position of the one-way conduction element 0300 is the same.
Alternatively, first control valve or one-way conduction element 0300 are by being arranged in the reverse osmosis units 710, water purification is stored up
The replacement of the triple valve of water branch 0100 and postposition filter element 730 is stored up by controlling the reverse osmosis units 710 and the water purification
Water branch 0100 is connected to, or, the water purification water storage branch 0100 is connected to the postposition filter element 710, may be implemented and institute
State the first control valve or the similar effect of one-way conduction element 0300.
Embodiment five
The net drink equipment of one kind of the utility model, including above-mentioned water treatment system, so that the net drink equipment includes normal
Warm water export, boiled water outlet and warm water export, to meet the different demands of water intaking, meanwhile, so that the heating of the purifier
The efficiency of water increases, and the time for heating water reduces, and electricity consumption reduces.
Those skilled in the art will readily recognize that above-mentioned each preferred embodiment can be free under the premise of not conflicting
Ground combination, superposition.
The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, for this field
For technical staff, the utility model can have various modifications and changes.All institutes within the spirit and principle of the utility model
Any modification, equivalent substitution, improvement and etc. of work, should be included within the scope of protection of this utility model.
Claims (13)
1. a kind of water treatment system, which is characterized in that go out including water inlet flow path, heating part, heat exchange department, intermediate flow passage, first
Water flow road and the second water outlet flow path, the heating part are arranged in the intermediate flow passage, and the heat exchange department includes first flow path
And second flow path, heat exchange is able to carry out between the first flow path and the second flow path;The water inlet flow path and described the
The entrance of one flow path is connected, the outlet of the water inlet end of the intermediate flow passage and the first flow path, the intermediate flow passage
Water outlet and the entrance of the second flow path and the second water outlet flow path be connected to, the outlet of the second flow path with it is described
First water outlet fluid communication, is provided with purification portion in the intermediate flow passage, and the purification portion is used for flowing through the intermediate flow passage
Water purified.
2. water treatment system according to claim 1, which is characterized in that the heat exchange department includes shell and is arranged in institute
The heat exchanging pipe in shell is stated, the space between the shell and the heat exchanging pipe constitutes the first flow path, the heat exchange
The inner cavity of pipeline constitutes the second flow path.
3. water treatment system according to claim 2, which is characterized in that the entrance and exit of the first flow path is respectively provided with
On the top of the shell;And/or
The lower part of the shell is arranged in the entrance of the second flow path, and the shell is arranged in the outlet of the second flow path
Top.
4. water treatment system according to claim 2, which is characterized in that the entrance and exit of the first flow path is respectively provided with
In the lower part of the shell;And/or
The top of the shell is arranged in the entrance of the second flow path, and the shell is arranged in the outlet of the second flow path
Lower part.
5. water treatment system according to claim 1, which is characterized in that the water treatment system further includes and the centre
The third of flow path connection is discharged flow path, and the third water outlet flow path and the link position of the intermediate flow passage are located at the purification portion
Between the heating part.
6. water treatment system according to claim 5, which is characterized in that the water treatment system further includes and the centre
The water purification water storage branch of flow path connection, the water purification water storage branch road is provided with water storage part, on the water route of the intermediate flow passage,
The water purification water storage branch and the link position of the intermediate flow passage are located at third water outlet flow path and the intermediate flow passage
The upstream side of link position.
7. water treatment system according to claim 6, which is characterized in that the water storage part includes pressure vessel, described net
Water water storage branch road is additionally provided with pressure switch, controls the pressure in the pressure vessel by the pressure switch, realizes institute
The water for stating purification portion is stored in the pressure vessel, or realizes water in pressure vessel from the first water outlet flow path, the
Two water outlet flow paths and/or third water outlet flow path discharge.
8. water treatment system according to claim 7, which is characterized in that be provided with the first control valve in the intermediate flow passage
Or one-way conduction element, on the flow path of the intermediate flow passage, first control valve or the setting of one-way conduction element are being stated only
The upstream side of water water storage branch and the link position of the intermediate flow passage, the one-way conduction element are arranged to allow intermediate flow passage
Interior water flow is to the pressure vessel.
9. water treatment system according to claim 1, which is characterized in that the water treatment system further includes water storage portion, institute
It states water storage portion to be arranged in the intermediate flow passage, for storing the hot water of heating part heating.
10. water treatment system according to claim 9, which is characterized in that the heating part includes instantaneously heated type heater,
On the flow path of the intermediate flow passage, the downstream side of the instantaneously heated type heater is arranged in the water storage portion;Or,
The heating part is built in the water storage portion.
11. water treatment system according to claim 6, which is characterized in that the purification portion includes reverse osmosis units.
12. water treatment system according to claim 11, which is characterized in that the purification portion further includes prefilter list
Member enters the reverse osmosis units through the filtered water of prefilter unit;And/or
The purification portion further includes postposition filter element, and postposition filter element setting is in the water purification water storage branch and described
Third is discharged between flow path.
13. a kind of net drink equipment, which is characterized in that including water treatment system described in one of claim 1-12.
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CN201821144716.9U CN208747785U (en) | 2018-07-18 | 2018-07-18 | A kind of water treatment system and equipment is drunk only |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108996787A (en) * | 2018-07-18 | 2018-12-14 | 珠海格力电器股份有限公司 | A kind of water treatment system and equipment is drunk only |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108996787A (en) * | 2018-07-18 | 2018-12-14 | 珠海格力电器股份有限公司 | A kind of water treatment system and equipment is drunk only |
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