CN115872533B - Skin beautifying machine - Google Patents

Abstract

The application provides a skin beautifying machine, and relates to the field of electric appliances. The VC storage part is arranged on the first passage, the soft water filtering component is arranged on the second passage, the first passage and the second passage are both communicated with the water outlet part, the VC storage part stores VC so as to add VC into water flowing through the VC storage part, the soft water filtering component can convert the water flowing through the soft water filtering component into soft water, the first control mechanism can control the first passage to be opened or closed, and the second control mechanism can control the second passage to be opened or closed; the skin care machine can be switched between a first state and a second state, and in the first state, water can flow to the water outlet part through the VC storage part; in the second state, water can flow to the water outlet through the soft water filter assembly. The skin beautifying machine solves the problems that the existing processing device is single in function and cannot meet the skin care requirements of people, and enriches the application scenes of the skin beautifying machine.

Description

Skin beautifying machine

Technical Field

The application relates to the field of electric appliances, in particular to a skin beautifying machine.

Background

In the aspect of skin cleaning, municipal tap water is generally used directly for cleaning, but the municipal tap water contains undesirable impurities such as bleaching agents, disinfectants, heavy metal residues and the like, and is generally treated by a treatment device.

However, with the improvement of living standard, people's demand for skin care is gradually promoted, and current processing apparatus function is single, can't satisfy people's skin care demand.

Disclosure of Invention

In view of this, the present application provides a skin care machine, in which the first control mechanism can control the first passage to be opened or closed, and the second control mechanism can control the second passage to be opened or closed, so that the skin care machine can switch between the first state and the second state to obtain soft water or water added with VC, thus, different skin care requirements of people can be satisfied, the problem that the existing treatment device has single function and cannot satisfy skin care requirements of people is solved, and the application scenario of the skin care machine is enriched.

According to the application, the skin care machine comprises a VC storage part, a soft water filtering component, a water outlet part, a first passage, a second passage, a first control mechanism and a second control mechanism, wherein the VC storage part is arranged on the first passage, the soft water filtering component is arranged on the second passage, the first passage and the second passage are both communicated with the water outlet part, the VC storage part stores VC so as to add VC into water flowing through the VC storage part, the soft water filtering component can convert the water flowing through the soft water filtering component into soft water, the first control mechanism can control the first passage to be opened or closed, and the second control mechanism can control the second passage to be opened or closed; the skin care machine can be switched between a first state and a second state, and in the first state, water can flow to the water outlet part through the VC storage part; in the second state, water can flow to the water outlet portion through the soft water filter assembly.

Preferably, the second control mechanism comprises a first control part, the skin care device further comprises a mixing pipeline, two ends of the mixing pipeline are communicated with the second passage, the mixing pipeline is connected with the soft water filtering component in parallel, and the first control part can control any one of the mixing pipeline and the soft water filtering component to be opened or closed.

Preferably, the soft water filter assembly includes a resin filter part including a first inlet and a first outlet, the first control part being provided on the second passage, the first inlet being in communication with the second passage, both the first outlet and the mixing pipe being in communication with the second passage via the first control part, water flowing through the mixing pipe and the second passage to the water outlet when the soft water filter assembly is closed, when the first control part controls the mixing pipe to be opened;

when the first control part controls the mixing pipeline to be closed and the soft water filtering component is opened, water can flow to the water outlet part through the soft water filtering component and the second passage;

when the first control part controls the opening of the mixing pipeline and the soft water filtering assembly is opened, water flowing through both the mixing pipeline and the second passage and water flowing through the soft water filtering assembly and the second passage flow to the water outlet part;

when the first control part controls the mixing pipeline to be closed and the soft water filtering component to be closed and the first control mechanism controls the first passage to be opened, water flows to the water outlet part through the first passage and the VC storage part.

Preferably, the resin filtering part further comprises a second outlet, the skin care machine further comprises a heating component and a second control part, one end of the heating component is connected with the second outlet, the other end of the heating component is communicated with the water outlet, the second control part can control the second outlet to be opened or closed, the first control part controls the mixing pipeline to be closed, the soft water filtering component is closed, and when the second outlet is controlled to be opened, water passing through the resin filtering part can enter the heating component.

Preferably, the second control mechanism further comprises a water mixing valve, the water mixing valve is located at the downstream side of the first control portion, the heating assembly comprises a heating water inlet pipe, a heating portion and a heating water outlet pipe which are sequentially connected, the heating water inlet pipe is connected with the second outlet, the second passage and the heating water outlet pipe are both communicated with the water outlet portion through the water mixing valve, the water mixing valve can mix water in the second passage and water in the heating water outlet pipe according to a preset proportion, and the range of the preset proportion is 0-1.

Preferably, the soft water filtering assembly further comprises a regeneration part and a wastewater outlet, the resin filtering part comprises a second inlet and a third outlet, the third outlet is connected with the wastewater outlet, one end of the regeneration part is connected with the second inlet, the other end of the regeneration part is communicated with the water outlet, the second control mechanism further comprises a third control part, and the third control part can open or close the regeneration part.

Preferably, the water outlet portion includes an outflow pipe having a water outlet to supply water to the outside, and a fourth control portion for controlling the outflow pipe to be opened or closed, the outflow pipe being in communication with both the first passage and the second passage, and water flowing through the second passage, the mixing pipe, the regeneration portion, and the resin filtering portion to the wastewater outlet in this order when the outflow pipe is closed.

Preferably, the skin care apparatus further comprises a switching part, a switching water pipe and a fifth control part, wherein the outflow pipeline, the first passage, the second passage and the switching water pipe are all communicated with the switching part, the switching water pipe and the third outlet are all connected with the waste water outlet, and the fifth control part is used for controlling any one of the third outlet and the switching water pipe to be opened or closed.

Preferably, the heating assembly further comprises an extraction part, the extraction part is arranged on the heating water outlet pipe, when the third control part is started, the heating part stops working, and the extraction part is started so as to extract water in the heating part to the water mixing valve.

Preferably, the heating assembly further includes a first flow rate detecting portion provided to the heating water inlet pipe to detect an amount of water passing through the resin filtering portion into the heating portion.

Preferably, the skin care apparatus includes a pre-filter portion provided on an upstream side of both the first passage and the second passage, the pre-filter portion being capable of adsorbing solid impurities in water passing through the pre-filter portion, the water flowing through the pre-filter portion and the first passage to the VC storage portion in the first state; in the second state, water flows through the pre-filter and the second passageway to the soft water filter assembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 illustrates a schematic structure of a skin-beautifying machine according to an embodiment of the present application;

fig. 2 is a schematic view showing a flow direction of water in a water injection mode of a heating part of a skin-beautifying machine according to an embodiment of the present application;

fig. 3 is a schematic view showing a flow direction of water in a normal temperature pre-filter water mode of a skin-care machine according to an embodiment of the present application;

fig. 4 is a schematic view showing a flow direction of water in a normal temperature VC filtered water mode of a skin care machine according to an embodiment of the present application;

fig. 5 shows a schematic view of the flow direction of water in microsoft normal temperature water mode of the skin-care machine according to an embodiment of the present application;

fig. 6 is a schematic view showing a flow direction of water in a microsoft warm water mode of a skin-care machine heating part according to an embodiment of the present application;

fig. 7 is a schematic view showing a flow direction of water in a soft normal temperature water mode of a heating part of a skin-care machine according to an embodiment of the present application;

fig. 8 is a schematic view showing a flow direction of water in a soft warm water mode of a skin-care machine according to an embodiment of the present application;

fig. 9 is a schematic view showing a flow direction of water in a whole machine washing mode of the skin-beautifying machine according to an embodiment of the present application;

fig. 10 shows a schematic view of the flow direction of water in the skin-beautifying machine regeneration rinse mode according to the embodiment of the present application.

Icon: a 110-VC memory section; 120-first pass; 130-a first one-way valve; 200-soft water filter assembly; 210-second pass; 220-a resin filtration section; 230-entering the pipeline; 240-exit pipe; 250-mixing pipes; 260-a second one-way valve; 300-a first control mechanism; 410-a first control section; 411-first valve; 412-a second valve; 420-a second control section; 430-a third control section; 440-fourth control section; 450-a fifth control section; 451-a third valve; 452-fourth valve; 460-a sixth control section; 470-mixing valve; 510-a pre-filtration section; 520-connecting pipe; 600-heating assembly; 610-heating the water inlet pipe; 611-a safety valve; 620-a heating section; 621-exhaust valve; 630-heating the water outlet pipe; 640-a first flow rate detection section; 650-an extraction part; 710—a regeneration section; 720-regenerating a water inlet pipe; 730-regenerating a water outlet pipe; 800-a water outlet part; 810-outflow conduit; 820-switching a water pipe; 830-tap; 840-a second flow rate detection section; 910-a waste water outlet pipe; 920-a wastewater connection pipe;

Detailed Description

The following detailed description is provided to assist the reader in obtaining a thorough understanding of the methods, apparatus, and/or systems described herein. However, various changes, modifications, and equivalents of the methods, apparatuses, and/or systems described herein will be apparent after an understanding of the present disclosure. For example, the order of operations described herein is merely an example, and is not limited to the order set forth herein, but rather, obvious variations may be made upon an understanding of the present disclosure, other than operations that must occur in a specific order. In addition, descriptions of features known in the art may be omitted for the sake of clarity and conciseness.

The features described herein may be embodied in different forms and should not be construed as limited to the examples described herein. Rather, the examples described herein have been provided solely to illustrate some of the many possible ways of implementing the methods, devices, and/or systems described herein that will be apparent after understanding the present disclosure.

In the entire specification, when an element (such as a layer, region or substrate) is described as being "on", "connected to", "bonded to", "over" or "covering" another element, it may be directly "on", "connected to", "bonded to", "over" or "covering" another element or there may be one or more other elements interposed therebetween. In contrast, when an element is referred to as being "directly on," directly connected to, "or" directly coupled to, "another element, directly on," or "directly covering" the other element, there may be no other element intervening therebetween.

As used herein, the term "and/or" includes any one of the listed items of interest and any combination of any two or more.

Although terms such as "first," "second," and "third" may be used herein to describe various elements, components, regions, layers or sections, these elements, components, regions, layers or sections should not be limited by these terms. Rather, these terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first member, component, region, layer or section discussed in examples described herein could also be termed a second member, component, region, layer or section without departing from the teachings of the examples.

For ease of description, spatially relative terms such as "above … …," "upper," "below … …," and "lower" may be used herein to describe one element's relationship to another element as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "upper" relative to another element would then be oriented "below" or "lower" relative to the other element. Thus, the term "above … …" includes both orientations "above … …" and "below … …" depending on the spatial orientation of the device. The device may also be otherwise positioned (e.g., rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

The terminology used herein is for the purpose of describing various examples only and is not intended to be limiting of the disclosure. Singular forms also are intended to include plural forms unless the context clearly indicates otherwise. The terms "comprises," "comprising," and "having" are intended to specify the presence of stated features, integers, operations, elements, and/or groups thereof, but do not preclude the presence or addition of one or more other features, integers, operations, elements, and/or groups thereof.

Variations from the shapes of the illustrations as a result, of manufacturing techniques and/or tolerances, are to be expected. Accordingly, the examples described herein are not limited to the particular shapes shown in the drawings, but include changes in shapes that occur during manufacture.

The features of the examples described herein may be combined in various ways that will be apparent upon an understanding of the present disclosure. Further, while the examples described herein have a variety of configurations, other configurations are possible as will be apparent after an understanding of the present disclosure.

According to the present application, as shown in fig. 1 to 10, the skin care apparatus includes a VC storage 110 (VC, referred to as Vitamin C in its entirety), a soft water filter assembly 200, a water outlet 800, a first passage 120, a second passage 210, a first control mechanism 300, and a second control mechanism, the VC storage 110 is disposed in the first passage 120, the soft water filter assembly 200 is disposed in the second passage 210, both the first passage 120 and the second passage 210 are in communication with the water outlet 800, the VC storage 110 stores VC to add VC to water flowing through the VC storage 110, the soft water filter assembly 200 is capable of converting water flowing through the soft water filter assembly 200 into soft water, the first control mechanism 300 is capable of controlling the first passage 120 to be opened or closed, and the second control mechanism is capable of controlling the second passage 210 to be opened or closed; the skin-care machine can switch between a first state in which water can flow to the water outlet portion 800 through the VC storage portion 110; in the second state, water can flow to the water outlet 800 through the soft water filter assembly 200. The skin care machine can obtain soft water or VC-added water, so that different skin care requirements of people can be met, the problem that the existing treatment device is single in function and cannot meet the skin care requirements of people is solved, and the application scene of the skin care machine is enriched.

As shown in fig. 1, the skin-beautifying machine includes a pre-filter 510, the pre-filter 510 being disposed at an upstream side of the first passage 120 and the second passage 210, the pre-filter 510 being connected to municipal tap water through a connection pipe 520 such that the municipal tap water flows through the pre-filter 510 to the first passage 120 or the second passage 210, and solid impurities (e.g., sand, rust, etc.) therein being filtered while the municipal tap water flows through the pre-filter 510. Leading filter part 510 can include first bucket and filter core, and the filter core setting is in first bucket, and the filter core can include PP cotton (the short of Poly series artificial chemical fiber) and carbon-point, and the cotton parcel of PP is in the outside of carbon-point, and the inside at first bucket is all placed to PP cotton and carbon-point, when municipal tap water flows through the filter core, and solid impurity wherein gets into first return circuit and second return circuit after filtered.

Preferably, the first control mechanism 300 is a solenoid valve, and is capable of controlling the opening or closing of the first passage by being opened or closed.

Further, the VC adding section may be provided in the first tub, specifically, as shown in fig. 1, the first tub is divided into an upper part and a lower part, wherein the first check valve 130 is provided between the upper part and the lower part, and water can flow only from the upper part to the lower part. The filter element is arranged in the upper part, the upper part is provided with a first connecting port and a second connecting port, the first connecting port can be connected with a municipal tap water pipe through a pipeline, and the second connecting port is connected with the second passage 210; the VC adding part is disposed at the lower part, and the VC adding part may be a VC paste, and when water flows through the VC adding part, VC can be added in the water, and the lower part has a third connection port connected to the first path 120.

Further, VC can promote collagen generation of structural tissues and help repair and regeneration of aged and damaged skin; the VC can inhibit oxidation of basic components of cells, can help to reduce damage of free radicals to skin and slow down aging of the skin, so that the skin is full, the skin elasticity and luster are maintained, and the skin is kept smooth and fine. In addition, VC can participate in tyrosine metabolism in vivo, reduce melanin generation, and VC can act with melanin to lighten and reduce melanin deposition so as to achieve the whitening effect. Namely, the VC has good whitening and anti-aging effects.

As shown in fig. 1 to 10, when the first control mechanism 300 controls the first passage 120 to open and the second control mechanism controls the second passage 210 to close, water can flow to the water outlet 800 through the pre-filtering portion 510, the VC adding portion and the first passage 120, and at this time, VC is contained in water flowing out of the water outlet 800, so that skin care requirements of whitening and anti-aging can be satisfied; when the first control mechanism 300 controls the first passage 120 to be closed and the second control mechanism controls the second passage 210 to be opened, water can flow to the water outlet portion 800 through the pre-filtering portion 510, the second passage 210 and the soft water filtering assembly 200, and at this time, soft water flows out of the water outlet portion 800, so that the skin care requirement of skin cleaning can be met. Thus, the water flowing out from the water outlet 800 of the skin care device can meet different skin care requirements.

As shown in fig. 1, the skin care apparatus further includes a mixing pipe 250, the second control mechanism includes a first control part 410, both ends of the mixing pipe 250 are communicated with the second passage 210, the mixing pipe 250 is connected in parallel with the soft water filter assembly 200, and the first control part 410 can control either one of the mixing pipe 250 and the soft water filter assembly 200 to be opened or closed.

As shown in fig. 1, the soft water filter assembly 200 includes a resin filter part 220, an inlet pipe 230 and an outlet pipe 240, a second check valve 260 is provided on the inlet pipe 230, and the resin filter part 220 exchanges with water so that Ca in the water ²⁺ Mg and ⁺ plasma enters the resin to realize Ca in water ²⁺ Mg and ⁺ the resin filter part 220 can be a second barrel carrying resin, the inlet pipe 230 and the outlet pipe 240 are connected with the resin filter part 220, one end of the inlet pipe 230 far away from the resin filter part 220 is provided with a first inlet, and the outlet pipe 240 far away from the resin filterOne end of the portion 220 has a first outlet, which communicates with the second passage 210, and the first outlet communicates with the second passage 210 through the first control portion 410, and one end of the mixing duct 250 communicates with the second passage 210, and the other end of the mixing duct 250 also communicates with the second passage 210 through the first control portion 410.

Preferably, the first control part 410 may be a two-in one-out valve, and in this case, the first control part 410 may be understood as a valve group including a first valve 411 and a second valve 412, and the first valve 411 and the second valve 412 control the opening or closing of the mixing duct 250 and the exiting duct 240, respectively, so that the first control part 410 can control the opening or closing of either one of the mixing duct 250 and the exiting duct 240.

Thus, when the first valve 411 is opened and the second valve 412 is closed (i.e., when the first control part 410 controls the mixing pipe 250 to be opened and the soft water filter assembly 200 to be closed), the water passing through the pre-filter part 510 flows to the water outlet part 800 through the mixing pipe 250 and the second passage 210, and at this time, the water does not pass through the resin filter part 220; when the second valve 412 is opened and the first valve 411 is closed (i.e., when the first control part 410 controls the soft water filter assembly 200 to be opened and the mixing pipe 250 to be closed), the water passing through the pre-filter part 510 flows to the water outlet part 800 through the second passage 210, the inlet pipe 230, the resin filter part 220 and the outlet pipe 240; when both the first valve 411 and the second valve 412 are opened (i.e., when the first control part 410 controls the soft water filter assembly 200 and the mixing pipe 250 to be opened), water passing through the pre-filtering part 510 is divided into two parts, and the two parts respectively flow through the mixing pipe 250 and the soft water filter assembly 200 to be mixed and then flow to the water outlet part 800.

As shown in fig. 1, the resin filter part 220 further includes a second outlet located at a middle portion of the exiting pipe 240. The skin-care device further includes a heating assembly 600 and a second control part 420, one end of the heating assembly 600 is connected with the second outlet, the other end of the heating assembly 600 is connected with the water outlet 800, and the second control part 420 can control the heating assembly 600 to be turned on or off, so that water flowing through the resin filtering part 220 can enter the heating assembly 600 through the outlet pipe 240 and the second outlet to heat the water, so as to deliver the heated soft water to the water outlet.

As shown in fig. 1, the heating assembly 600 includes a heating water inlet pipe 610, a heating part 620 and a heating water outlet pipe 630 connected in sequence, an exhaust valve 621 is provided on the heating part 620, the heating water inlet pipe 610 is connected with a second outlet, the heating water outlet pipe 630 and the second passage 210 are connected with the water outlet part 800 through a water mixing valve 470, and the water mixing valve 470 is located at the downstream side of the first control part 410. The water mixing valve 470 can mix the water in the heating water outlet pipe 630 and the second passage 210 in a predetermined ratio, and the predetermined ratio ranges from 0 to 1, so that the water flowing to the water outlet portion 800 can be any one of all the water from the second passage 210, all the water from the heating water outlet pipe 630, or the water in the heating water outlet pipe 630 and the water in the second passage 210 mixed in any ratio to obtain water.

Further, the second control part 420 is provided on the heating water inlet pipe 610, and the second control part 420 may be a solenoid valve, and the opening or closing of the heating assembly 600 can be controlled by the opening or closing of the second control part 420. The end of the heating water inlet pipe 610 near the heating part 620 is provided with a safety valve 611, and the heating part 620 may be a hot tank.

As shown in fig. 1, the soft water filter assembly 200 includes a regeneration part 710 and a wastewater outlet, and the resin filter part 220 further includes a second inlet located at a middle portion of the inlet pipe 230, and a third outlet located at a middle portion of the outlet pipe 240, the third outlet being located at an upstream side of the second outlet. The third outlet is connected to the waste water outlet, one end of the regeneration unit 710 is connected to the second inlet, and the other end of the regeneration unit 710 is connected to the mixing valve 470. The second control mechanism further includes a third control portion 430, and the third control portion 430 can turn on or off the regeneration portion 710.

As shown in fig. 1, the soft water filtering assembly 200 further includes a regeneration water inlet pipe 720 and a regeneration water outlet pipe 730, the regeneration part 710 may be a third barrel provided with a regeneration salt filter element, the regeneration water inlet pipe 720 and the regeneration water outlet pipe 730 are both communicated with the regeneration part 710, the regeneration water inlet pipe 720 is connected with the water mixing valve 470, the regeneration water outlet pipe 730 is communicated with the second inlet, and the fourth control part 440 is arranged on the regeneration water inlet pipe 720 and can control the regeneration water inlet pipe 720 to be opened or closed, thereby controlling the regeneration part 710 to be opened or closed. The resin filtering part 220 further includes a regeneration flushing pipe connecting both the third outlet and the waste water outlet.

As shown in fig. 1, the water outlet part 800 includes an outflow pipe 810 and a fourth control part 440, the outflow pipe 810 having a water outlet connected with the tap 830 to supply water to the outside. The outflow pipe 810 is provided with a second flow rate detecting portion 840, and the second flow rate detecting portion 840 may be a flow meter. The fourth control portion 440 is provided on the outflow pipe 810, the first passage 120 communicates with the outflow pipe 810, and the second passage 210 and the mixing passage communicate with the outflow pipe 810 through the water mixing valve 470. When the fourth control part 440 closes the outflow pipe 810 and the third control part 430 opens the regeneration water inlet pipe 720, water can enter the regeneration part 710 through the second passage 210, the water mixing valve 470 and the regeneration water inlet pipe 720, and then the regeneration salt in the regeneration part 710 is flushed into the resin filter part 220 through the regeneration outflow pipe 810, so that Ca in the resin ²⁺ Mg and ⁺ react with regenerated salt. The third outlet may be connected to the waste water outlet through a waste water connection pipe 920 so that regenerated salt, ca after the reaction ²⁺ Mg and ⁺ and the water flows to the waste water outlet through the waste water connecting pipe 920 under the drive of the water, so that the regeneration of the exchange performance of the resin is realized. By providing the regeneration part 710, the regenerated salt in the regeneration part 710 can be fully utilized, so that the resin in the resin filtering part 220 can be regenerated for a plurality of times, the exchange performance of the resin is ensured, the service life of the resin is prolonged, and the resin exchange frequency is reduced. Meanwhile, in the use process of the skin care machine, only the regenerated salt filter core needs to be replaced, so that the cost is saved.

Further, the heating assembly 600 further includes a first flow rate detecting part 640, and the first flow rate detecting part 640 is provided on the heating water inlet pipe 610, thereby detecting the amount of water passing through the resin filtering part 220 into the heating part 620. By determining the amount of water that has entered the heating unit 620 through the resin filtering unit 220, the amount of water that can be exchanged with the resin filtering unit 220 can be determined to be a predetermined value (which may be obtained by experiment or calculation), and when the first flow rate detecting unit 640 detects that the amount of water has reached the predetermined value, the fourth control unit 440 can be controlled to close the outflow pipe 810, and the third control unit 430 can be controlled to open the regeneration pipe to regenerate the value.

Preferably, the first flow rate detecting part 640 may be a flow meter.

Further, the heating module 600 further includes an extraction part 650, the extraction part 650 is provided on the heating water outlet pipe 630, the heating part 620 stops heating when the resin is regenerated, the extraction part 650 extracts water in the heating part 620 to the mixing valve 470, mixes with water from the mixing pipe 250, and enters the regeneration water inlet pipe 720.

In addition, the skin-care device includes a junction part, a junction water pipe 820, and a fifth control part 450, wherein the outflow pipe 810, the first passage 120, the second passage 210, and the junction water pipe 820 are all communicated with the junction part (not shown in fig. 1 to 10), the junction part may be a four-way junction, the junction water pipe 820 and the third outlet are all connected with the waste water outlet, and the fifth control part 450 is used for controlling any one of the third outlet and the junction water pipe 820 to be opened or closed.

In addition, the skin care apparatus further includes a waste water outlet pipe 910, the waste water outlet pipe 910 having a waste water outlet.

Preferably, the fifth control part 450 may be a two-in one-out valve, and in this case, the fifth control part 450 may be understood as a valve group including a third valve 451 and a fourth valve 452, the transfer water pipe 820 is connected to the waste water outlet pipe 910 through the third valve 451, and the waste water connection pipe 920 is connected to the waste water outlet pipe 910 through the fourth valve 452. The waste water outlet pipe 910 is further provided with a sixth control part 460, and the sixth control part 460 is located at the downstream side of the fifth control part 450 and can open or close the waste water outlet pipe 910. The sixth control part 460 may be a solenoid valve.

Above, the skin care machine according to the present application has nine modes, specifically as follows:

1. a heating part water injection mode; the first control mechanism 300 is closed, the first control portion 410 is closed (both the first valve 411 and the second valve 412 are closed), the second control portion 420 is opened, the third control portion 430 is opened, the fourth control portion 440 is closed, the fifth fourth control valve is closed (both the third valve 451 and the fourth valve 452 are closed), and the mixing valve 470 is in a full hot water state (i.e., the mixing valve 470 only receives water from the heated outlet pipe 630).

At this time, as shown in fig. 2, the water passing through the pre-filter part 510 enters the heating part 620 through the second passage 210 and the resin filter part 220, and then the water in the heating part 620 may flow to the tap 830 through the water mixing valve 470 and the outflow pipe 810, indicating that the heating part 620 has been filled with water when the tap 830 is discharged.

2. A normal temperature pre-filtration water mode; the first control mechanism 300 is closed, the first valve 411 of the first control portion 410 is open, the second valve 412 is closed, the third control portion 430 is open, the fourth control portion 440 is closed, the fifth control portion 450 is closed (both the third valve 451 and the fourth valve 452 are closed), and the mixing valve 470 is in the all-cold water mode (i.e., the mixing valve 470 only receives water from the second passage 210).

At this time, as shown in fig. 3, the water passing through the pre-filter 510 flows to the tap 830 through the second passage 210, the mixing pipe 250, the mixing valve 470, and the outflow pipe 810, and at this time the tap 830 flows out of the normal temperature pre-filtered water.

3. Normal temperature VC filtering water mode; the first control mechanism 300 is on, the first control portion 410 is off (the first valve 411 and the second valve 412 are both closed), the second control portion 420 is off, the third control portion 430 is on, the fourth control portion 440 is off, the fifth control portion 450 is off (the third valve 451 and the fourth valve 452 are both closed), and the water change valve is in the all-cold water mode (i.e., the mixing valve 470 only receives water from the second passage 210).

At this time, as shown in fig. 4, the water passing through the pre-filter 510 flows to the tap 830 through the VC additive section, the first passage 120, and the outflow pipe 810, and at this time the tap 830 flows out the VC filtered water.

4. Microsoft normal temperature water mode; the first control mechanism 300 is closed, the first control portion 410 is open (both the first valve 411 and the second valve 412 are open), the second control portion 420 is closed, the third control portion 430 is closed, the fourth control portion 440 is closed, the fifth control portion 450 is closed (both the third valve 451 and the fourth valve 452 are closed), and the mixing valve 470 is in a full cold water mode (i.e., the mixing valve 470 only receives water from the second passage 210).

At this time, as shown in fig. 5, a part of the water passing through the pre-filter unit 510 reaches the first control unit 410 through the second passage 210 and the resin filter unit 220, and the other part reaches the first control unit 410 through the mixing pipe 250, and the two parts are mixed in the first control unit 410 and then flow to the tap 830 through the mixing valve 470 and the outflow pipe 810, and at this time, the tap 830 discharges microsoft water.

5. Microsoft warm water mode; the first control mechanism 300 is closed, the first control part 410 is opened (the first valve 411 and the second valve 412 are both opened), the second control part 420 is opened, the third control part 430 is opened, the fourth control part 440 is closed, the fifth control part 450 is closed (the third valve 451 and the fourth valve 452 are both closed), and the water changing valve is in a predetermined temperature mode (i.e., the water mixing valve 470 can mix the water in the heated water outlet pipe 630 and the second passage 210 according to a predetermined ratio).

At this time, as shown in fig. 6, the first portion of the water passing through the pre-filter unit 510 reaches the water mixing valve 470 through the second passage 210, the resin filter unit 220, and the heating unit 620; the second part reaches the first control part 410 through the second passage 210 and the resin filtering part 220, the third part reaches the first control part 410 through the mixing pipe 250, and the second part and the third part flow to the mixing valve 470 after being mixed in the first control part 410 and are mixed with the first part in the mixing valve 470, and then flow to the tap 830 through the outflow pipe 810, at which time the tap 830 discharges microsoft warm water.

6. A soft normal temperature water mode; the first control mechanism 300 is closed, the first valve 411 is closed, the second valve 412 is open, the second control portion 420 is closed, the third control portion 430 is open, the fourth control portion 440 is closed, the fifth control portion 450 is closed (both the third valve 451 and the fourth valve 452 are closed), and the water change valve is in the all-cold water mode with the mixing valve 470 (i.e., the mixing valve 470 only receives water from the second passageway 210).

At this time, as shown in fig. 7, the water passing through the pre-filter part 510 flows to the tap 830 through the second passage 210, the resin filter part 220, the first control part 410, the water mixing valve 470, and the outflow pipe 810, and at this time, the tap 830 discharges soft warm water.

7. Soft warm water mode; the first control mechanism 300 is closed, the first valve 411 of the first control portion 410 is closed, the second valve 412 is opened, the second control portion 420 is opened, the third control portion 430 is closed, the fourth control portion 440 is closed, the fifth control portion 450 is closed (both the third valve 451 and the fourth valve 452 are closed), and the water changing valve is in a predetermined temperature mode (i.e., the water mixing valve 470 is capable of mixing water in the heated water outlet pipe 630 and the second passage 210 according to a predetermined ratio).

At this time, as shown in fig. 8, a part of the water passing through the pre-filter unit 510 flows to the mixing valve 470 through the second passage 210, the resin filter unit 220, and the first control unit 410, and the other part flows to the mixing valve 470 through the second passage 210, the resin filter unit 220, and the heating unit 620, and after being mixed by the mixing valve 470, both flows to the faucet 830 through the outflow pipe 810, and at this time, the faucet 830 flows out soft and warm water.

8. A complete machine flushing mode; the first control mechanism 300 is closed, the first control portion 410 is open (both the first valve 411 and the second valve 412 are open), the second control portion 420 is closed, the third control portion 430 is closed, the fourth control portion 440 is closed, the third valve 451 of the fifth control portion 450 is open, the fourth valve 452 is closed, and the sixth control portion 460 is open.

At this time, as shown in fig. 9, water can be washed out of the second passage 210, the resin filtering part 220, the heating part 620, and the mixing pipe 250, and then the water flows out through the switching water pipe 820 and the waste water outlet pipe 910.

9. A regenerative flushing mode; the first control mechanism 300 is closed, the first valve 411 of the first control portion 410 is opened, the second valve 412 is closed, the second control portion 420 is closed, the third control portion 430 is closed, the fourth control portion 440 is opened, the third valve 451 of the fifth control portion 450 is closed, the fourth valve 452 is closed, the sixth control portion 460 is closed, the extraction portion 650 is opened, the exhaust portion is opened, the heating portion 620 stops heating, the water changing valve is in a predetermined temperature mode (i.e., the water mixing valve 470 is capable of mixing water in the heated water outlet pipe 630 and the second passage 210 according to a predetermined ratio).

At this time, as shown in fig. 10, the water passing through the pre-filter unit 510 reaches the water mixing valve 470 through the second passage 210 and the mixing pipe 250, is mixed with the water extracted from the heating unit 620 by the extracting unit 650, and then enters the regenerating unit 710 through the regenerating water inlet pipe 720, and the regenerating filter element in the regenerating unit 710 is flushed with water to make the regenerated salt pass through the regenerating water outlet pipe730 into the resin filter part 220, so that Ca in the resin ²⁺ Mg and ⁺ react with regenerated salt. The third outlet can be connected with the wastewater outlet pipe 910 through the wastewater connecting pipe 920 so that regenerated salt and Ca after reaction ²⁺ Mg and ⁺ and the water flows to the waste water outlet through the waste water outlet pipe 910 under the drive of the water, so that the regeneration of the exchange performance of the resin is realized. After the flushing is finished, the water injection mode of the heating part 620 may be repeated, so as to avoid dry burning of the heating part 620.

The skin care machine provided by the application has the nine modes, and can adapt to more use scenes.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (6)

1. A skin care machine is characterized by comprising a VC storage part, a soft water filtering component, a water outlet part, a first passage, a second passage, a first control mechanism and a second control mechanism, wherein the VC storage part is arranged in the first passage, the soft water filtering component is arranged in the second passage, both the first passage and the second passage are communicated with the water outlet part,

the VC storage part stores VC so as to add VC into water flowing through the VC storage part, the soft water filtering component can convert the water flowing through the soft water filtering component into soft water,

the first control mechanism can control the first passage to be opened or closed, and the second control mechanism can control the second passage to be opened or closed;

the skin-care device can switch between a first state and a second state,

in the first state, water can flow to the water outlet part through the VC storage part;

in the second state, water can flow to the water outlet part through the soft water filtering component;

the second control mechanism comprises a first control part, the skin beautifying machine further comprises a mixing pipeline, two ends of the mixing pipeline are communicated with the second passage, the mixing pipeline is connected with the soft water filtering component in parallel,

the first control part can control any one of the mixing pipeline and the soft water filtering component to be opened or closed;

the soft water filter assembly comprises a resin filter part, the resin filter part comprises a first inlet and a first outlet, the first control part is arranged on the second passage,

the first inlet communicates with the second passage, both the first outlet and the mixing duct communicate with the second passage via the first control portion,

when the first control part controls the mixing pipeline to be opened and the soft water filtering component is closed, water can flow to the water outlet part through the mixing pipeline and the second passage;

when the first control part controls the mixing pipeline to be closed and the soft water filtering component is opened, water can flow to the water outlet part through the soft water filtering component and the second passage;

when the first control part controls the opening of the mixing pipeline and the soft water filtering assembly is opened, water flowing through both the mixing pipeline and the second passage and water flowing through the soft water filtering assembly and the second passage flow to the water outlet part;

when the first control part controls the mixing pipeline to be closed and the soft water filtering component to be closed and the first control mechanism controls the first passage to be opened, water flows to the water outlet part through the first passage and the VC storage part;

the resin filter part further includes a second outlet,

the skin care machine also comprises a heating component and a second control part, one end of the heating component is connected with the second outlet, the other end of the heating component is communicated with the water outlet, the second control part can control the second outlet to be opened or closed,

when the first control part controls the mixing pipeline to be closed and the soft water filtering component to be closed and the second control part controls the second outlet to be opened, water passing through the resin filtering part can enter the heating component;

the second control mechanism further comprises a water mixing valve positioned at the downstream side of the first control part,

the heating assembly comprises a heating water inlet pipe, a heating part and a heating water outlet pipe which are sequentially connected, the heating water inlet pipe is connected with the second outlet, the second passage and the heating water outlet pipe are both communicated with the water outlet part through the water mixing valve, the water mixing valve can mix water in the second passage and water in the heating water outlet pipe according to a preset proportion, and the range of the preset proportion is 0-1;

the skin care apparatus includes a pre-filter portion provided at an upstream side of both the first passage and the second passage, the pre-filter portion being capable of adsorbing solid impurities in water passing through the pre-filter portion,

in the first state, water flows to the VC storage part through the pre-filtering part and the first passage;

in the second state, water flows through the pre-filter and the second passageway to the soft water filter assembly;

the VC storage part and the pre-filtering part are both arranged in a first barrel, the first barrel is divided into an upper part and a lower part, a first one-way valve is arranged between the upper part and the lower part, water can only flow from the upper part to the lower part, the pre-filtering part is arranged in the upper part, the upper part is provided with a first connecting port and a second connecting port, the first connecting port is connected with a municipal tap water pipe through a pipeline, and the second connecting port is connected with the second passage; the VC storage part is arranged at the lower part, the VC storage part is a VC paste, when water flows through the VC storage part, VC can be added into the water, the lower part is provided with a third connection port, and the third connection port is connected with the first passage.

2. The skin makeup machine according to claim 1, characterized in that the soft water filtering assembly further comprises a regeneration portion and a waste water outlet, the resin filtering portion comprises a second inlet and a third outlet, the third outlet is connected to the waste water outlet, one end of the regeneration portion is connected to the second inlet, the other end of the regeneration portion is communicated with the water outlet,

the second control mechanism further includes a third control portion capable of opening or closing the regeneration portion.

3. The skin-beautifying machine according to claim 2, wherein the water outlet portion includes an outflow pipe and a fourth control portion for controlling the outflow pipe to be opened or closed, the outflow pipe having a water outlet to supply water to the outside, the outflow pipe being in communication with both the first passage and the second passage,

when the outflow pipe is closed, water flows to the waste water outlet through the second passage, the mixing pipe, the regeneration part, and the resin filtration part in this order.

4. The skin care apparatus according to claim 3, further comprising an adapter portion, an adapter water pipe, and a fifth control portion, wherein the outflow pipe, the first passage, the second passage, and the adapter water pipe are all in communication with the adapter portion,

the switching water pipe and the third outlet are connected with the waste water outlet, and the fifth control part is used for controlling any one of the third outlet and the switching water pipe to be opened or closed.

5. The skin care apparatus as recited in claim 2, wherein said heating assembly further comprises an extraction portion provided at said heating outlet pipe,

when the third control part is started, the heating part stops working, and the extraction part is started to extract water in the heating part to the water mixing valve.

6. The skin care machine of claim 1, wherein the heating assembly further comprises a first flow detecting portion provided to the heating water inlet pipe to detect an amount of water passing through the resin filtering portion into the heating portion.