CN114197186B - Clothes nursing equipment - Google Patents

Abstract

The utility model discloses a clothes care device, which comprises a steam brush, wherein the steam brush comprises a handle, and a first water tank and a water intake communicated with the first water tank are arranged in the handle; the base is provided with a water delivery device and a first positioning groove for placing the handle, and a water filling port is arranged in the first positioning groove; the second water tank is arranged on the base and is communicated with the water delivery device; the electric control assembly comprises a first control module arranged in the steam brush and a second control module arranged in the base; one of the first positioning groove and the handle is provided with a first interface, and the other is provided with a second interface. The utility model solves the problem that the sensor is easy to be damaged to cause false triggering of the water supplementing action in the prior art.

Description

Clothes nursing equipment

Technical Field

The utility model relates to the technical field of clothes nursing equipment, in particular to clothes nursing equipment.

Background

Currently, most of steam devices on the market, such as steam brushes, are provided with a water tank in a steam main body, and a water pump is arranged in the steam main body, and water in the water tank is sucked into a steam generation part through the water pump to realize steam output. However, because the capacity of the self-contained water tank is small, regular water replenishment is required, a separated steam brush appears in the prior art, a base special for a steam main body is arranged, a second water tank is arranged on the base, when the steam main body is mounted on the base, water is pumped from the second water tank to the self-contained water tank in the steam main body through a water pump, and automatic water replenishment operation is completed.

In order to avoid water supplement failure caused by the fact that the steam main body is not accurately arranged on the base, the traditional separated steam brush discloses ironing equipment, wherein a distance sensor and a signal receiving device are adopted to judge whether the steam main body is accurately arranged on the base, and only after the signal receiving device receives a trigger signal from the distance sensor, the water pump can add water.

However, the steam brush can generate a large amount of high-temperature steam in the ironing process of clothes, wherein the distance sensor generally uses a Hall sensor manufactured according to the Hall effect, and the Hall sensor is greatly influenced by temperature and is in a working environment of high-temperature ironing, so that the problem that the sensor is damaged to cause false triggering of water supplementing action is easily caused.

Disclosure of Invention

In order to overcome at least one of the above-mentioned drawbacks of the prior art, the present utility model provides a clothes care device, so as to solve the problem that the sensor is damaged easily to cause false triggering of the water replenishing action in the prior art.

The utility model adopts the technical proposal for solving the problems that:

the clothes care equipment comprises a steam brush, wherein the steam brush comprises a handle, and a first water tank and a water intake communicated with the first water tank are arranged in the handle; the base is provided with a water delivery device and a first positioning groove for placing the handle, and a water filling port is arranged in the first positioning groove; the second water tank is arranged on the base and is communicated with the water delivery device; the electric control assembly comprises a first control module arranged in the steam brush and a second control module arranged in the base; one of the first positioning groove and the handle is provided with a first interface, and the other is provided with a second interface; when the handle is placed in the first positioning groove, the first interface and the second interface are connected in a plugging mode, so that the first control module and the second control module are in communication connection, and the water delivery device is started to deliver water in the second water tank to the first water tank.

Further, one of the first positioning groove and the handle is provided with a first positioning part, and the other one is provided with a second positioning part, so that the first interface and the second interface are connected in an inserting mode through positioning cooperation of the first positioning part and the second positioning part.

Further, the first positioning part is arranged as a positioning column, the second positioning part is arranged as a positioning notch, and the positioning column is aligned and abutted in the positioning notch to realize positioning fit; the positioning column is arranged on the outer side wall of the handle, and the positioning notch is arranged at the notch of the first positioning groove and faces upwards.

Further, an upper water level detector and an upper signal transmitter electrically connected with the upper water level detector are arranged in the first water tank, and the upper signal transmitter is in communication connection with the first control module.

Further, a lower signal emitter which is electrically connected with the lower water level detector is arranged in the first water tank, the lower water level detector is positioned below the upper water level detector, and the lower signal emitter is in communication connection with the first control module.

Further, the steam brush further comprises a steam brush head, the steam brush head is rotationally connected with the handle, and the base further comprises a second positioning groove for placing the steam brush head; wherein, the steam brush head forms a storage state after rotating and is arranged side by side with the handle; the second positioning groove and the first positioning groove are used for placing the steam brush in a storage state.

Further, a water guide table and a water outlet are arranged in the bottom of the first positioning groove, a water guide runner communicated with the water outlet is arranged in the water guide table, the second connector is arranged at the top of the water guide table, and the water injection port is arranged in the water guide runner.

Further, the upper surface of the water guide table is obliquely arranged and gradually decreases along the water injection port towards the water outlet; the thickness of the water guide table at the water injection opening part is larger than the height of the water injection opening.

Further, the base is provided with a placement groove for placing the second water tank; the water inlet communicated with the second water tank is arranged in the placement groove, and the water delivery device is arranged between the water inlet and the water injection port.

Further, the water treatment device also comprises a humidifier, wherein the humidifier is used for atomizing and spraying water in the second water tank, and a mist outlet of the humidifier is arranged at the top of the second water tank; and a cotton swab connected with the humidifier is arranged in the second water tank.

Further, the water delivery device comprises a water pump, and the water pump is respectively communicated with the water inlet, the water filling port and the humidifier.

Further, a sterilizing device is arranged in the second water tank and is used for sterilizing water in the second water tank.

Further, the base is provided with a shield in which the steam brush and the second water tank are accommodated.

Further, the protection cover and the second water tank are both detachably connected to the base.

In summary, the clothes care equipment provided by the utility model has the following technical effects:

(1) According to the utility model, when the first water tank in the steam brush does not contain water and needs to be replenished with water, a user can put the handle of the steam brush into the first positioning groove of the base, and timely replenishing water is carried out on the first water tank through the water delivery device, so that the normal use of the steam brush is prevented from being influenced;

(2) According to the utility model, after the first interface and the second interface are spliced, a signal transmission function can be realized; when water is needed to be replenished, the first control module in the steam brush sends out water shortage information, the information is transmitted to the second control module through the first interface and the second interface which are communicated with each other, and after receiving a water shortage signal, the second control module starts the water delivery device so as to deliver water in the second water tank to the first water tank, and the first water tank is automatically replenished with water, so that the water replenishing efficiency is improved, and the degree of automation is high;

(3) More importantly, the first interface and the second interface can play a certain auxiliary positioning role except for transmitting signals, water can be added into the first water tank only after the first interface and the second interface are aligned and inserted, the first interface and the second interface are ingeniously utilized as auxiliary positioning parts, and the two-purpose water tank has dual purposes and high practicability. In addition, in the water supplementing process, the first interface and the second interface can also play a certain limiting role, so that the steam brush is prevented from shaking during water adding, and the stability in the water adding process is improved;

(4) Compared with the prior art that whether the Hall sensor senses the steam brush is accurately installed or not and then the water is replenished, the water replenishing device directly uses the first interface and the second interface which are connected in an inserting way, and signals are transmitted through the inserting way, so that the water replenishing operation is realized. Because the first interface and the second interface which are connected in a plugging way are affected by temperature less, the problem of water supplementing caused by false triggering is solved.

Drawings

Fig. 1 is a perspective view of a laundry care apparatus in an embodiment of the present utility model;

fig. 2 is a front cross-sectional view of a laundry care appliance in an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a steam brush in an embodiment of the utility model;

FIG. 4 is a perspective view of a base according to an embodiment of the present utility model;

FIG. 5 is a perspective view of a steam brush, base and second tank assembly according to an embodiment of the present utility model;

FIG. 6 is a front cross-sectional view of a first detent and a second detent in an embodiment of the present utility model;

FIG. 7 is a signal transmission diagram of the clothes care apparatus in the automatic water replenishment mode according to the embodiment of the present utility model;

FIG. 8 is a signal transmission diagram of the laundry care appliance in the water saving mode according to the embodiment of the present utility model;

icon: 1-steam brush, 11-handle, 111-water intake, 112-first interface, 113-positioning column, 12-first water tank, 121-upper water level detector, 122-lower water level detector, 13-first control module, 14-steam brush head, 2-base, 21-first positioning groove, 211-second interface, 212-water filling port, 213-positioning notch, 214-water guiding platform, 215-water outlet, 216-water guiding flow channel, 22-second control module, 23-second positioning groove, 24-placing groove, 241-water inlet, 3-second water tank, 4-water pump, 5-humidifier, 51-cotton stick and 6-protective cover.

Detailed Description

For a better understanding and implementation, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

An embodiment of the present utility model provides a clothes care apparatus, and in particular, reference may be made to fig. 1 to 8.

Fig. 1 shows a perspective view of a laundry care apparatus, fig. 2 shows a front sectional view of the laundry care apparatus, fig. 3 shows a perspective view of a steam brush 1, fig. 4 shows a perspective view of a base 2, and fig. 5 shows a perspective view of an assembly of the steam brush 1, the base 2, and a second water tank 3. Referring to fig. 1 to 5, a laundry care apparatus includes a steam brush 1, a base 2, a second water tank 3, and an electronic control assembly.

Referring to fig. 3, the steam brush 1 includes a handle 11, and a first water tank 12 and a water intake 111 communicated with the first water tank 12 are provided in the handle 11.

Referring to fig. 4, the base 2 is provided with a water delivery device and a first positioning groove 21 for placing the handle 11, and a water filling port 212 is arranged in the first positioning groove 21. The second water tank 3 is arranged on the base 2, and a water delivery device is arranged between the second water tank 3 and the water injection port 212.

Referring to fig. 2, the electronic control assembly includes a first control module 13 disposed in the steam brush 1, and a second control module 22 disposed in the base 2. One of the first positioning groove 21 and the handle 11 is provided with a first interface 112, and the other is provided with a second interface 211. In a specific application, the first interface 112 may be specifically disposed at the bottom of the handle 11, the second interface 211 may be specifically disposed in the first positioning slot 21, the first interface 112 and the first control module 13 may be connected by wired or wireless communication, and the second interface 211 and the second control module 22 may be connected by wired or wireless communication. It is understood that the second interface 211 may be configured as an electrical pin and the first interface 112 may be configured as an electrical jack.

Wherein, one of the notch of the first positioning groove 21 and the outer side wall of the handle 11 is provided with a first positioning part, and the other is provided with a second positioning part. In a specific application, the first positioning portion may be specifically disposed on the outer sidewall of the handle 11, and the second positioning portion may be specifically disposed at the notch of the first positioning groove 21.

When the handle 11 is placed in the first positioning groove 21, the water intake 111 and the water injection 212 are conducted through the positioning cooperation of the first positioning part and the second positioning part, and the first interface 112 and the second interface 211 are connected in an inserting mode, so that the first control module 13 and the second control module 22 are connected in a communication mode, and the water delivery device is started to deliver water in the second water tank 3 to the first water tank 12.

In actual use, when the first water tank 12 in the steam brush 1 does not have water and needs to be filled with water, a user can place the handle 11 of the steam brush 1 in the first positioning groove 21 of the base 2, align the water intake 111 of the handle 11 with the water injection port 212 in the first positioning groove 21, and connect and conduct the two water intake 111 with each other, so that the first water tank 12 is filled with water in time, and the normal use of the steam brush 1 is avoided.

When the first interface 112 and the second interface 211 are plugged, the function of transmitting signals can be achieved. When water is needed to be replenished, the first control module 13 in the steam brush 1 sends out the water shortage information, the information is transmitted to the second control module 22 through the first interface 112 and the second interface 211 which are communicated with each other, and after the second control module 22 receives the water shortage signal, the water delivery device is started to deliver the water in the second water tank 3 to the first water tank 12 to replenish the water in the first water tank 12.

More importantly, the first interface 112 and the second interface 211 can play a certain auxiliary positioning role besides transmitting signals, and only after the first interface 112 and the second interface 211 are aligned and spliced, the water intake 111 and the water injection port 212 are aligned and conducted, and the first interface 112 and the second interface 211 are ingeniously utilized as auxiliary positioning parts, so that the water intake 111 and the water injection port 212 cannot be aligned and conducted to cause water supplementing failure.

In the water replenishing process, the first interface 112 and the second interface 211 can also play a certain limiting role, separation of the water intake 111 and the water injection port 212 caused by vibration generated by the operation of the water delivery device in the water replenishing process is avoided, shaking of the steam brush 1 during water adding can also be avoided, and stability in the water adding process is improved.

Compared with the prior art that whether the steam brush 1 is accurately installed or not is sensed by a Hall sensor and then water is replenished, the water replenishing device directly uses the first interface 112 and the second interface 211 which are connected in an inserted mode, and signals are transmitted through the connection, so that the water replenishing operation is realized. Since the first interface 112 and the second interface 211 which are connected in a plugging manner are less affected by temperature, the problem of water replenishment caused by false triggering is reduced.

It should be noted that, when the user aligns and conducts both the first interface 112 and the second interface 211 and both the water intake 111 and the water injection 212, since the field of view is generally higher than that of the handle 11 when the user installs the steam brush 1 on the base 2, the user has a blind area of field of view, and cannot align and conduct both the first interface 112 and the second interface 211 and both the water intake 111 and the water injection 212 at one time, which easily causes damage to the first interface 112 and the second interface 211 and damage to the water intake 111 and the water injection 212 in the process of aligning and plugging multiple times.

Therefore, in the present utility model, the first positioning portion and the second positioning portion are provided, and are also provided at the notch of the first positioning groove 21 and the outer side wall of the handle 11, so that the user can see that there is no blind area of view, and the first interface 112 and the second interface 211, and the water intake 111 and the water injection 212 can be accurately aligned and mounted by the positioning cooperation of the first positioning portion and the second positioning portion, thereby achieving high mounting efficiency and high mounting accuracy.

In addition, the positioning action of the first positioning part and the second positioning part and the auxiliary positioning action of the first interface 112 and the second interface 211 can play a double positioning role, so that the water intake 111 and the water injection port 212 are better aligned.

Referring to fig. 5, further, the first positioning portion is configured as a positioning post 113, the second positioning portion is configured as a positioning notch 213, and the positioning post 113 is aligned and abutted in the positioning notch 213 to achieve positioning fit. Specifically, the positioning column 113 is provided on the outer side wall of the handle 11, the positioning notch 213 is provided at the notch of the first positioning groove 21 and faces upward, and the positioning column 113 and the positioning notch 213 are vertically aligned. In actual use, when the handle 11 is placed in the first positioning groove 21, in order to avoid damage to the first interface 112 and the second interface 211, and the water intake 111 and the water injection 212, the user normally places the steam brush 1 directly upward and downward, so that the operation is reasonably utilized, when the handle is aligned and installed, the positioning column 113 is directly downward along with the steam brush 1, the positioning notch 213 is upward, and when the positioning column 113 is aligned and abutted in the positioning notch 213, the first interface 112 and the second interface 211 are plugged, and the water intake 111 and the water injection 212 are also conducted.

It can be appreciated that the positioning column 113 can be specifically an existing wiring terminal of the handle 11, and the positioning is realized by skillfully utilizing the existing wiring terminal, so that the practicability is strong.

Fig. 7 shows a signal transmission diagram in an automatic water replenishment mode in the laundry care device. Referring to fig. 2 and 7, further, an upper water level detector 121 and an upper signal transmitter electrically connected to the upper water level detector 121 are disposed in the first water tank 12. Specifically, the upper signal transmitter and the first control module 13 may be in communication connection through a wire or wirelessly.

In order to automatically replenish water, an automatic water replenishing mode may be separately set, and when the user selects the automatic water replenishing mode, the water conveying device is started to convey water in the second water tank 3 into the first water tank 12 after the upper signal emitter receives the water shortage signal of the upper water level detector 121.

The upper water level detector 121 in the present utility model is used to detect the water level in the first water tank 12. The upper water level detector 121 may be a capacitive sensor or a hall element sensor, when the capacitive sensor is adopted, when the water amount in the first water tank 12 is insufficient, the upper water level detector 121 is not soaked in water and is in a water shortage state, the upper water level detector 121 sends a water shortage signal to the upper signal transmitter, the upper signal transmitter sends the water shortage signal to the first control module 13, the first control module 13 transmits the water shortage signal to the second control module 22 through the first interface 112 and the second interface 211 which are communicated, and the second control module 22 starts the water delivery device to supplement water in the first water tank 12.

When the amount of water in the first tank 12 is sufficient, the upper level detector 121 is soaked in water, and the water supply may be stopped. At this time, the change of the water level will cause the change of the high and low frequency of the upper water level detector 121, so the signal sent by the upper water level detector 121 is a full water signal, the full water signal transmission process is the same as the above-mentioned water shortage signal transmission process, and will not be described here again, at this time, the water delivery device is stopped, and water is not replenished into the first water tank 12.

Thus, in the automatic water replenishment mode, the present utility model can automatically replenish the first tank 12 based on the water shortage signal and the water full signal transmitted from the upper water level detector 121.

Fig. 8 shows a signal transmission diagram in the water saving mode in the laundry care appliance. Referring to fig. 2 and 8, further, a lower signal emitter electrically connected to the lower water level detector 122 is disposed in the first water tank 12, the lower water level detector 122 is located below the upper water level detector 121, and the lower water level detector 122 is disposed at the inner bottom wall of the first water tank 12. Specifically, the lower signal transmitter and the first control module 13 may be in communication connection through a wire or wirelessly.

In order to save water, a water saving mode may be separately provided, and when the user selects the water saving mode, the water delivery means is activated to deliver water in the first water tank 12 into the second water tank 3 when the lower signal emitter receives the full water signal of the lower water level detector 122.

The water level detector 122 in the present utility model is used for detecting the water level in the first water tank 12. The lower water level detector 122 may also be a capacitive sensor or a hall element sensor, when the capacitive sensor is adopted, when water remains in the first water tank 12, the lower water level detector 122 is soaked in water, and is in a water state, the lower water level detector 122 sends a water signal to the lower signal transmitter, the lower signal transmitter sends the water signal to the first control module 13, the first control module 13 sends the water signal to the second control module 22 through the first interface 112 and the second interface 211 which are communicated, the second control module 22 starts the water delivery device, and the water in the first water tank 12 is pumped back into the second water tank 3.

When the water in the first tank 12 is completely pumped, the lower water level detector 122 may stop pumping water without being soaked in the water. At this time, the change of the water level will cause the change of the high and low frequency of the lower water level detector 122, so the signal sent by the lower water level detector 122 is a water-free signal, the transmission process of the water-free signal is the same as that of the above-mentioned water-containing signal, and the water delivery device stops working and does not pump water in the first water tank 12.

In this way, in the water saving mode, the present utility model can automatically pump the water remaining in the first water tank 12 back into the second water tank 3 according to the water presence signal and the water absence signal transmitted by the water level detector 122, so as to avoid bacteria from growing in the water in the first water tank 12 for a long time, and influence the water quality.

It can be appreciated that the automatic water replenishment mode and the water saving mode can be freely selected by a user, and the corresponding function is started when one of the modes is selected.

Referring to fig. 4 and 5, in some embodiments, the steam brush 1 further includes a steam brush head 14, the steam brush head 14 is rotatably connected to the handle 11, and the base 2 further includes a second positioning groove 23 for placing the steam brush head 14; wherein, the steam brush head 14 forms a storage state after rotating, and the second positioning groove 23 and the first positioning groove 21 are arranged side by side with the handle 11 for placing the steam brush 1 in the storage state. Therefore, the steam brush 1 is foldable, can be rotated and folded into the storage state arranged side by side, further reduces the occupied space required by storage, has a more compact overall structure, and is convenient for users to carry or move. In addition, the steam brush 1 is placed by the steam brush device, and the steam brush device is also specially provided with a first positioning groove 21 and a second positioning groove 23, so that the steam brush head 14 and the handle 11 are placed in reasonable partition, and the arrangement is strong.

Fig. 6 shows a front cross-sectional view of the first detent 21 and the second detent 23. Referring to fig. 4-6, further, a water guiding platform 214 and a water outlet 215 are disposed in the bottom of the first positioning groove 21, a water guiding channel 216 is disposed in the water guiding platform 214 and is in communication with the water outlet 215, the second interface 211 is disposed at the top of the water guiding platform 214, and the water injection port 212 is disposed in the water guiding channel 216. Thus, in the water replenishing process, if water flows out of the water filling port 212 carelessly, the water can enter the water outlet 215 along the water guiding flow channel 216, so that the water is discharged from the water outlet 215, and electric leakage caused by contact of the water with the second interface 211 or damage caused by corrosion of the second interface 211 is avoided, so that the service life of the water replenishing device is prolonged.

Referring to fig. 4, further, the upper surface of the water guiding platform 214 is inclined, and gradually decreases along the water filling opening 212 toward the water outlet 215. Wherein, the thickness of the water guiding platform 214 at the water filling port 212 is larger than the height of the water filling port 212. Thus, water is not easily supplied to the water inlet 212, and it is difficult to flow into the upper surface of the water guide 214 and contact the second port 211.

Specifically, the bottom of the handle 11 is attached to the upper surface of the water guiding stand 214. Thus, the upper surface of the water guiding platform 214 is inclined, and the bottom of the handle 11 is correspondingly inclined to ensure the fitting. When the handle 11 is required to be placed in the first positioning groove 21, the structure of the matched inclined arrangement can also play a certain auxiliary positioning role, so that the first interface 112 and the second interface 211 as well as the water intake 111 and the water injection 212 are prevented from being damaged due to repeated alignment and insertion. More importantly, the triple positioning effect can be formed, and the positioning effect is greatly improved.

Referring to fig. 2, 4 and 5, in some embodiments, the base 2 is provided with a placement groove 24 in which the second water tank 3 is placed; a water inlet 241 communicated with the second water tank 3 is arranged in the placement groove 24, and a water delivery device is arranged between the water inlet 241 and the water injection port 212. Thus, the water delivery device of the present utility model can add water in the second water tank 3 into the first water tank 12 through the water inlet 241 and the water injection port 212, or withdraw water in the first water tank 12 into the second water tank 3, thereby having strong practicability.

Referring to fig. 2 and 4, the water dispenser further comprises a humidifier 5, wherein the humidifier 5 is used for atomizing and spraying water in the second water tank 3, and a mist outlet of the humidifier 5 is arranged at the top of the second water tank 3; a cotton swab 51 connected to the humidifier 5 is provided in the second water tank 3. Therefore, the humidifier 5 can spray water by utilizing the water in the second water tank 3 to humidify indoor air, and realize the functions of the humidifier 5, so that the functions of the humidifier are diversified, the humidifier is not limited to ironing functions, and the utilization rate of the product is greatly improved.

Referring to fig. 2, 4 and 5, further, the water delivery device includes a water pump 4, and the water pump 4 is respectively communicated with the water inlet 241, the water injection port 212 and the humidifier 5. Thus, the water pump 4 in the utility model can simultaneously conduct the water inlet 241, the water injection port 212 and the humidifier 5, and can realize various water adding conditions by utilizing one water pump 4, for example, water is added into the first water tank 12, water is pumped back into the second water tank 3 and water is added into the humidifier 5, so that the whole structure is simpler, the connecting pipelines are reduced, and the space in the device body is effectively saved.

Further, a sterilizing device is arranged in the second water tank 3, and the sterilizing device is used for sterilizing water in the second water tank 3. Therefore, the utility model can sterilize the water in the second water tank 3, as the steam brush 1 can directly iron clothes, the humidifier 5 humidifies the indoor air, if bacteria remain in the water in the second water tank 3, the water is easy to cause discomfort to users, thus adding a sterilizing device and ensuring clean water quality.

Referring to fig. 1 and 5, further, the base 2 is provided with a shield 6, and the steam brush 1 and the second water tank 3 are accommodated in the shield 6. Therefore, the steam brush 1 and the second water tank 3 can be covered in the protective cover 6 by the protective cover 6, and when the steam brush 1 is not used by a user, a certain dustproof effect can be achieved, so that dust is prevented from entering the steam brush 1, and the service life of the steam brush 1 is prevented from being influenced.

Further, the protective cover 6 and the second water tank 3 are both detachably connected to the base 2. Therefore, the protective cover 6 and the second water tank 3 are detachable, so that a user can conveniently take out the protective cover 6 and the second water tank 3 independently to clean, and the cleaning efficiency is improved. It can be appreciated that the dismounting function is realized between the protective cover 6 and the second water tank 3 and the base 2 through the elastic limiting pin 7.

In summary, in order to solve the problem that the sensor is damaged easily to cause false triggering of the water replenishing operation in the prior art, in actual use, when the first water tank 12 in the steam brush 1 has no water and needs to be replenished with water, the user can place the handle 11 of the steam brush 1 in the first positioning groove 21 of the base 2. The water intake 111 of the handle 11 is aligned with the water injection port 212 in the first positioning groove 21, and the two are connected by plugging so as to be capable of successfully supplementing water.

When the first interface 112 and the second interface 211 are plugged, the function of transmitting signals can be achieved. When water is needed to be replenished, the first control module 13 in the steam brush 1 sends out the water shortage information, the information is transmitted to the second control module 22 through the first interface 112 and the second interface 211 which are communicated with each other, and after the second control module 22 receives the water shortage signal, the water delivery device is started to deliver the water in the second water tank 3 to the first water tank 12 to replenish the water in the first water tank 12.

More importantly, the first interface 112 and the second interface 211 can play a certain auxiliary positioning role besides transmitting signals, and only after the first interface 112 and the second interface 211 are aligned and spliced, the water intake 111 and the water injection port 212 are aligned and conducted, and the first interface 112 and the second interface 211 are ingeniously utilized as auxiliary positioning parts, so that the water intake 111 and the water injection port 212 cannot be aligned and conducted to cause water supplementing failure.

In the water replenishing process, the first interface 112 and the second interface 211 can also play a certain limiting role, so that separation of the water intake 111 and the water injection port 212 due to vibration generated by the operation of the water delivery device in the water replenishing process is avoided, and the stability in the water replenishing process is improved.

Compared with the prior art that whether the steam brush 1 is accurately installed or not is sensed by a Hall sensor and then water is replenished, the water replenishing device directly uses the first interface 112 and the second interface 211 which are connected in an inserted mode, and signals are transmitted through the connection, so that the water replenishing operation is realized. Since the first interface 112 and the second interface 211 which are connected in a plugging manner are less affected by temperature, the problem of water replenishment caused by false triggering is reduced.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (12)

1. A garment care device, comprising:

the steam brush (1) comprises a handle (11), wherein a first water tank (12) and a water intake (111) communicated with the first water tank (12) are arranged in the handle (11);

the base (2) is provided with a water delivery device and a first positioning groove (21) for placing the handle (11), and a water filling port (212) is arranged in the first positioning groove (21); one of the first positioning groove (21) and the handle (11) is provided with a first interface (112), and the other is provided with a second interface (211);

a second water tank (3) arranged on the base (2) and communicated with the water delivery device;

an electric control assembly comprising a first control module (13) arranged in the steam brush (1) and a second control module (22) arranged in the base (2);

when the handle (11) is placed in the first positioning groove (21), the first interface (112) and the second interface (211) are connected in a plugging manner, so that the first control module (13) and the second control module (22) are in communication connection, and the water delivery device is started to deliver water in the second water tank (3) to the first water tank (12); an upper water level detector (121) and an upper signal emitter electrically connected with the upper water level detector (121) are arranged in the first water tank (12), and the upper signal emitter is in communication connection with the first control module (13); be provided with down water level detector (122) in first water tank (12) with the lower signal transmitter that water level detector (122) electricity is connected down, water level detector (122) are located go up the below of water level detector (121), water level detector (122) set up in diapire in first water tank (12), down signal transmitter with first control module (13) communication is connected, clothing care equipment is equipped with the saving water mode, works as down signal transmitter receives when the full water signal of water level detector (122) down, water delivery device starts, be used for with water in first water tank (12) is carried in second water tank (3).

2. A laundry care device according to claim 1, characterized in that one of the first positioning groove (21) and the handle (11) is provided with a first positioning portion, the other is provided with a second positioning portion, and the first interface (112) and the second interface (211) are connected in a plugging manner by the positioning cooperation of the first positioning portion and the second positioning portion.

3. A laundry care device according to claim 2, characterized in that the first positioning part is provided as a positioning post (113) and the second positioning part is provided as a positioning notch (213), the positioning post (113) being aligned against within the positioning notch (213) for a positioning fit;

the positioning column (113) is arranged on the outer side wall of the handle (11), and the positioning notch (213) is arranged at the notch of the first positioning groove (21) and faces upwards.

4. A laundry care device according to claim 1, characterized in that the steam brush (1) further comprises a steam brush head (14), the steam brush head (14) being rotatably connected to the handle (11), the base (2) further comprising a second positioning slot (23) for the steam brush head (14) to rest on;

wherein, the steam brush head (14) forms a storage state after rotating, and is arranged side by side with the handle (11);

the second positioning groove (23) and the first positioning groove (21) are used for placing the steam brush (1) in a storage state.

5. The clothes care device according to claim 4, wherein a water guiding table (214) and a water outlet (215) are arranged in the bottom of the first positioning groove (21), a water guiding channel (216) communicated with the water outlet (215) is arranged in the water guiding table (214), the second interface (211) is arranged at the top of the water guiding table (214), and the water injection port (212) is arranged in the water guiding channel (216).

6. A laundry care device according to claim 5, characterized in that the upper surface of the water guiding table (214) is arranged obliquely and gradually decreases in the direction of the water outlet (215) along the water filling opening (212);

wherein the thickness of the water guide table (214) at the water injection port (212) is larger than the height of the water injection port (212).

7. A laundry care device according to claim 6, characterized in that the base (2) is provided with a placement groove (24) for placement of the second water tank (3);

a water inlet (241) communicated with the second water tank (3) is arranged in the placement groove (24), and a water delivery device is arranged between the water inlet (241) and the water injection port (212).

8. A laundry care device according to claim 7, further comprising a humidifier (5), the humidifier (5) being for atomizing the water in the second water tank (3), the mist outlet of the humidifier (5) being arranged at the top of the second water tank (3);

a cotton swab (51) connected with the humidifier (5) is arranged in the second water tank (3).

9. A laundry care device according to claim 8, characterized in that the water delivery means comprises a water pump (4), the water pump (4) being in communication with the water inlet (241), the water injection port (212) and the humidifier (5), respectively.

10. A laundry care device according to claim 7, characterized in that a sterilizing means is arranged in the second water tank (3), which sterilizing means is arranged for sterilizing the water in the second water tank (3).

11. A laundry care device according to claim 10, characterized in that the base (2) is provided with a protective cover (6), the steam brush (1) and the second water tank (3) being accommodated within the protective cover (6).

12. A laundry care device according to claim 11, characterized in that the protective cover (6) and the second water tank (3) are both detachably connected to the base (2).