CN215668595U - Washing machine - Google Patents

Abstract

The utility model discloses a washing machine, which comprises a box body; a barrel assembly disposed within the housing; the detergent storage component is arranged on the box body and communicated with the barrel; one end of the first water inlet component is connected with a tap water pipe, and the other end of the first water inlet component is communicated with the detergent storage component; one end of the second water inlet component is connected with the tap water pipe, the other end of the second water inlet component is connected with a micro-bubble generating device, and the micro-bubble generating device is communicated with the detergent storage component; wherein the first water inlet assembly and the second water inlet assembly can be independently switched on and off. The technical problem that a user cannot independently select a washing mode of micro bubble water according to actual needs in the prior art is solved.

Description

Washing machine

Technical Field

The utility model belongs to the technical field of household appliances, and particularly relates to a washing machine.

Background

In the prior art, a washing machine washes clothes by the friction or beating action of a pulsator or a drum. The water also has the main function of dissolving dirt and washing powder in washing. In the using process, the utilization rate of the detergent or the washing powder is very low due to insufficient dissolution of the detergent or the washing powder, and meanwhile, the discharged washing water contains a large amount of undissolved detergent or washing powder, so that the environment is damaged.

In order to solve the above technical problems, a washing machine is provided with a micro bubble generating device in the prior art, and washing is performed by micro bubble water. Because the particle size of the micro-bubbles is small, the micro-bubbles can easily permeate into clothes pores to take away stains and residual detergent in the cloth. The surface energy of water is not as large as that of common solids, but on the nanoscale and micron-scale, bubbles explode or crack, the impact force of the released water is greatly enhanced, micro-bubbles explode or crack near fabrics or in fabric fiber gaps in rinsing in washing, the released impact force takes away dirt on clothes and residual detergent, the utilization rate of the detergent is improved, and the cleaning ratio is improved.

However, since the installation space of the washing machine is limited, it can use only a micro-bubble generating device, which has a small flow rate and a long water inlet time. In order to shorten the water inlet time, the water inlet mode of the washing machine is set in such a way that the main body enters conventional tap water, then a small part of micro-bubble water is mixed in a washing cylinder, and due to the structure, a user cannot independently select the use mode of the micro-bubble water, so that the concentration of bubbles in washing water is low, and the washing effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a washing machine, which solves the technical problem that a user cannot independently select a washing mode of micro-bubble water according to actual needs in the prior art.

In order to realize the purpose, the utility model adopts the following technical scheme:

a washing machine comprising:

a box body;

a barrel assembly disposed within the housing;

the detergent storage component is arranged on the box body and communicated with the barrel;

one end of the first water inlet component is connected with a tap water pipe, and the other end of the first water inlet component is communicated with the detergent storage component;

one end of the second water inlet component is connected with the tap water pipe, the other end of the second water inlet component is connected with a micro-bubble generating device, and the micro-bubble generating device is communicated with the detergent storage component;

the first water inlet assembly and the second water inlet assembly are arranged in parallel.

This technical scheme is mainly through setting up first subassembly and the second subassembly of intaking, and first subassembly and the second subassembly of intaking meets with external water pipe respectively, and the play water end of the second subassembly of intaking is connected with microbubble generating device simultaneously, and microbubble generating device is linked together with detergent storage assembly. Meanwhile, the first water inlet assembly and the second water inlet assembly can be independently switched on and off, so that a user can select a washing mode according to actual needs. The technical problem that a user cannot independently select a washing mode of micro bubble water according to actual needs in the prior art is solved.

In some embodiments, the first water inlet assembly comprises a first water inlet valve and a first water inlet pipe which are connected, one end of the first water inlet pipe is connected with the tap water pipe, and the other end of the first water inlet pipe is communicated with the detergent storage assembly;

the second water inlet assembly comprises a second water inlet valve and a second water inlet pipe which are connected, one end of the second water inlet pipe is connected with the tap water pipe, and the other end of the second water inlet pipe is communicated with the micro-bubble generating device.

In some embodiments, the micro-bubble generating device includes a gas-liquid inlet and a gas-liquid mixing outlet, the gas-liquid inlet is connected to the second water inlet pipe, and the gas-liquid mixing outlet is communicated with the detergent storage component.

In some of these embodiments, the microbubble generation device comprises:

the gas-liquid mixing container is provided with the gas-liquid inlet at one end and the gas-liquid mixing outlet at the other end, and the gas-liquid inlet is connected with the second water inlet valve through the second water inlet pipe;

and the gas supercharging device is communicated with the second water inlet pipe.

In some embodiments, a conveying device for conveying the gas-liquid mixture to the gas-liquid mixing outlet is arranged in the gas-liquid mixing container.

In some embodiments, the barrel assembly includes an inner barrel and an outer barrel which are communicated with each other, the outer barrel is disposed in the box body, and the inner barrel is rotatably disposed in the outer barrel.

In some of these embodiments, the detergent storage assembly comprises,

the detergent putting box is used for placing detergent;

one end of the washing water inlet pipe is communicated with the detergent putting box, and the other end of the washing water inlet pipe is communicated with the outer barrel;

and one end of the washing water outlet pipe is communicated with the detergent putting box, and the other end of the washing water outlet pipe is communicated with the outer barrel.

In some embodiments, a plurality of lifting ribs are uniformly arranged on the inner wall of the inner cylinder.

In some embodiments, the lifting rib is provided with a plurality of water outlet holes.

In some embodiments, the box body is provided with a control unit and a display unit, and the display unit is electrically connected with the control unit.

Drawings

FIG. 1 is a schematic view of the structure of the inlet water of the washing machine according to the present invention;

in the above figures: 1. a barrel assembly; 2. a first water intake assembly; 21. a first water inlet valve; 22. a first water inlet pipe; 3. a second water inlet assembly; 31. a second water inlet valve; 32. a second water inlet pipe; 4. a microbubble generator; 5. a detergent storage assembly; 6. a tap water pipe.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second", and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

In order to solve the technical problem that a user cannot independently select a washing mode of micro bubble water according to actual needs in the prior art, the technical scheme in the embodiment of the application has the following general idea:

the utility model mainly arranges a first water inlet component and a second water inlet component which are respectively connected with an external tap water pipe, and simultaneously, the water outlet end of the second water inlet component is connected with a micro-bubble generating device which is communicated with a detergent storage component. Meanwhile, the first water inlet assembly and the second water inlet assembly are arranged in parallel, namely the first water inlet assembly and the second water inlet assembly can be independently switched on and off, so that a user can select a washing mode according to actual needs. Namely, when the user does not need to use the microbubble generator, the user can select to open the first water inlet assembly and close the second water inlet assembly, and the mode is a microbubble-free mode, so that the water inlet time is short; when a user needs to use a micro-bubble mode and wants to shorten the water inlet time, the second water inlet component can be opened firstly to generate partial micro-bubbles and enter the detergent storage component, and after the water level in the barrel assembly reaches a certain level, the second water inlet component is closed, the first water inlet component is opened, so that tap water flows into the detergent storage component, and the micro-bubbles are synchronously brought into the barrel assembly; when the user needs the superstrong microbubble mode, first subassembly that intakes keeps closing, and the second subassembly that intakes is opened for the washing water that gets into a section of thick bamboo and constitute is the microbubble. Therefore, by adopting the structure, a user can select a washing mode according to actual needs, and the technical problem that the user cannot independently select the washing mode of the micro-bubble water according to the actual needs in the prior art is solved.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

A washing machine comprising:

a box body;

a cartridge assembly 1 disposed within the housing;

the detergent storage component 5 is arranged on the box body, and the detergent storage component 5 is communicated with the barrel assembly 1;

a first water inlet component 2, one end of which is connected with a tap water pipe 6, and the other end of which is communicated with the detergent storage component 5;

a second water inlet component 3, one end of which is connected with the tap water pipe 6, and the other end of which is connected with a micro-bubble generating device 4, wherein the micro-bubble generating device 4 is communicated with the detergent storage component;

wherein the first water inlet assembly 2 and the second water inlet assembly 3 are arranged in parallel.

The washing machine comprises a box body, wherein a control unit and a display unit are arranged on the box body, and the display unit is electrically connected with the control unit. Meanwhile, a barrel assembly 1 is arranged in the box body, the barrel assembly 1 comprises an outer barrel and an inner barrel, the outer barrel is communicated with the inner barrel, the outer barrel is arranged in the box body, and the inner barrel is rotatably arranged in the outer barrel.

Meanwhile, the box body is provided with at least two water inlet assemblies, in the embodiment, the number of the water inlet assemblies is two, namely the water inlet assemblies comprise a first water inlet assembly 2 and a second water inlet assembly 3; the water inlet ends of the two water inlet components are connected with a tap water pipe 6, the water outlet end of the first water inlet component 2 is directly communicated with the detergent storage component 5, the water outlet end of the second water inlet component 3 is connected with the water inlet end of the micro-bubble generating device 4, and the water outlet end of the micro-bubble generating device 4 is communicated with the detergent storage component.

As shown in fig. 1, the first water inlet assembly 2 comprises a first water inlet pipe 22 and a first water inlet valve 21, one end of the first water inlet pipe 22 is connected with the tap water pipe 6, and the other end thereof is communicated with the detergent storage assembly 5; the second water inlet means 3 comprises a second water inlet pipe 32 and a second water inlet valve 31, one end of the second water inlet pipe 32 is connected to the tap water pipe 6, and the other end thereof is connected to the detergent storage means 5. That is, when the first water inlet valve 21 is opened and the second water inlet valve 31 is closed, the tap water flows into the detergent storage pack 5 through the first water inlet valve 21 and the first water inlet pipe 22, and when the second water inlet valve 31 is opened and the first water inlet valve 21 is closed, the tap water flows to the micro bubble generating device 4 through the second water inlet valve 31 and the second water inlet pipe 32, a large amount of micro bubble water is generated by the micro bubble generating device 4, and the part of the micro bubble water flows into the detergent storage pack 5.

In this embodiment, the micro-bubble generating device 4 includes a gas-liquid inlet connected to the second water inlet pipe 32 and a gas-liquid mixing outlet communicated with the detergent storage assembly 5. One end of the gas-liquid mixing container is provided with a gas-liquid inlet, the other end of the gas-liquid mixing container is provided with a gas-liquid mixing outlet, and the gas-liquid inlet is connected with a second water inlet valve 31 through a second water inlet pipe 32; the gas pressurizing device is communicated with the second water inlet pipe 32, and a conveying device for conveying the gas-liquid mixture to the gas-liquid mixing outlet is arranged in the gas-liquid mixing container. Wherein, the working process of the microbubble generation device 4 is as follows: the second water inlet valve 31 is opened, the tap water enters the micro bubble generating device 4, and micro bubble water is generated in the micro bubble generating device 4 by using the pressure of the tap water. Since the number of microbubbles generated by the microbubble generator 4 and the size of the microbubbles are related to the pressure of the tap water, the larger the pressure of the tap water is, the larger the number of microbubbles generated is, and the smaller the size of the microbubbles is. In order to ensure the generation amount of the microbubbles and obtain the microbubbles with smaller particle size, the tap water entering the microbubble generator 4 is required to have higher pressure, so that the first water inlet valve 21 is set to be in a closed state when the second water inlet valve 31 is opened, so as to avoid the formation of partial pressure to influence the generation of the microbubbles.

The detergent storage component 5 comprises a detergent putting box, a washing water inlet pipe and a washing water outlet pipe, wherein the detergent putting box is used for placing detergent, one end of the washing water inlet pipe is communicated with the detergent putting box, and the other end of the washing water inlet pipe is communicated with the outer cylinder; one end of the washing water outlet pipe is communicated with the detergent putting box, and the other end of the washing water outlet pipe is communicated with the outer barrel.

Furthermore, a plurality of lifting ribs are arranged on the inner wall of the inner barrel of the washing machine, the lifting ribs are installed on the inner wall of the inner barrel of the washing machine, the inner barrel drives the lifting ribs to rotate in the working process of the washing machine, and the lifting ribs rotate along with the inner wall of the inner barrel, so that clothes in the inner barrel are lifted upwards, and the clothes are turned over and washed. In this embodiment, promote the muscle and be rectangular form structure, promote the muscle and include the casing, and promote the apopore of muscle, be provided with a plurality ofly on the casing bottom face, the bottom face here means to promote the muscle and keep away from the one end of inner tube inner wall, be close to on the terminal surface of the cavity of inner tube promptly.

Therefore, by adopting the structure, the first water inlet assembly 2 and the second water inlet assembly 3 can be independently switched on and off, so that a user can select a washing mode according to actual needs. Specifically, the washing mode can be divided into three types, including a non-microbubble washing mode, a conventional microbubble washing mode, and an ultra-strong microbubble washing mode. The user selects the operation of each washing mode, and the operation can be carried out on the display screen of the washing machine home terminal and the mobile terminal. The water inlet time of different washing modes is different, so that the user can independently select the washing mode according to specific conditions. The user can select different washing modes according to different clothes to be washed, so that the user can select different washing modes according to actual needs.

Specifically, when the user selects to use the microbubble-free washing mode, the specific operation is as follows: after the washing machine is started, a user independently selects a microbubble-free washing mode, a control unit of the washing machine controls a first water inlet valve 21 to be opened, tap water enters a detergent putting box through the first water inlet valve 21 and enters a barrel assembly 1 with detergent, and after the water level in the barrel assembly 1 reaches a first preset water level, the first water inlet valve 21 is closed, and the washing machine starts a washing process. The first water level is the normal washing water level of the washing machine, namely the water level fixedly arranged on the washing machine, or the water level judged after the washing machine weighs clothes; the washing mode has the shortest water inlet time.

When a user selects a conventional micro-bubble washing mode, the control unit of the washing machine controls the second water inlet valve 31 to be opened, tap water enters the micro-bubble generating device 4 through the second water inlet valve 31, micro-bubble water containing a large amount of micro-bubbles is generated in the micro-bubble generating device 4, and the micro-bubble water enters the detergent feeding box to dissolve the detergent and carry the detergent into the cylinder assembly 1. After the water level in the barrel assembly 1 reaches a second preset water level, the second water inlet valve 31 is closed, then the first water inlet valve 21 is opened, tap water enters the detergent feeding box through the first water inlet valve 21, then enters the barrel assembly 1, and is mixed with the originally entering micro-bubble water. After the water level in the drum assembly 1 reaches a first preset water level, the first water inlet valve 21 is closed, and the washing machine starts a washing process. It should be noted that the second preset water level is smaller than the first preset water level. For the proportional relation between the first water level and the second water level, the water amount of the second water level is preferably set to be one half of the first water level, or one fourth, three quarters and the like, the proportion between the water amount and the third water level can be selected according to actual needs, and the proportional relation can be fixed in a control program of the washing machine or can be designed to be adjustable by a user. The adjusting operation can be performed on a display screen of the washing machine or a mobile terminal; the water inlet time of the washing mode is longer than that of the microbubble-free washing mode.

When a user selects the ultra-strong micro-bubble washing mode, the control unit of the washing machine controls the second water inlet valve 31 to be opened and the first water inlet valve 21 to be kept closed, tap water enters the micro-bubble generating device 4 through the second water inlet valve 31, micro-bubble water containing a large number of micro-bubbles is generated in the micro-bubble generator, and then enters the detergent feeding box to dissolve the detergent and carry the detergent into the cylinder assembly 1. After the water level in the drum assembly 1 reaches a first preset water level, the second water inlet valve 31 is closed, and the washing machine starts a washing process; the water inlet time of the washing mode is longest.

In summary, by arranging the first water inlet assembly 2 and the second water inlet assembly 3, the first water inlet assembly 2 is directly connected to the detergent storage assembly, the second water inlet assembly 3 is connected to the micro-bubble generating device 4, and the micro-bubble generating device 4 is connected to the detergent storage assembly, so that the washing machine can realize multiple washing modes by adjusting the opening or closing of the first water inlet assembly and the second water inlet assembly, and a user can select the washing mode according to actual needs. The technical problem that a user cannot independently select a washing mode of micro bubble water according to actual needs in the prior art is solved.

Claims (10)

1. A washing machine, characterized by comprising:

a box body;

a barrel assembly disposed within the housing;

the detergent storage component is arranged on the box body and communicated with the barrel;

one end of the first water inlet component is connected with a tap water pipe, and the other end of the first water inlet component is communicated with the detergent storage component;

one end of the second water inlet component is connected with the tap water pipe, the other end of the second water inlet component is connected with a micro-bubble generating device, and the micro-bubble generating device is communicated with the detergent storage component;

the first water inlet assembly and the second water inlet assembly are arranged in parallel.

2. The washing machine as claimed in claim 1,

the first water inlet assembly comprises a first water inlet valve and a first water inlet pipe which are connected, one end of the first water inlet pipe is connected with the tap water pipe, and the other end of the first water inlet pipe is communicated with the detergent storage assembly;

the second water inlet assembly comprises a second water inlet valve and a second water inlet pipe which are connected, one end of the second water inlet pipe is connected with the tap water pipe, and the other end of the second water inlet pipe is communicated with the micro-bubble generating device.

3. A washing machine as claimed in claim 1 or 2, wherein the micro-bubble generating device comprises a gas-liquid inlet connected to the second water inlet pipe and a gas-liquid mixing outlet in communication with the detergent storage assembly.

4. A washing machine as claimed in claim 3, wherein the microbubble generation device comprises:

the gas-liquid mixing container is provided with the gas-liquid inlet at one end and the gas-liquid mixing outlet at the other end, and the gas-liquid inlet is connected with the second water inlet valve through the second water inlet pipe;

and the gas supercharging device is communicated with the second water inlet pipe.

5. A washing machine as claimed in claim 3 wherein a delivery means is provided within the gas-liquid mixing container for delivering the gas-liquid mixture to the gas-liquid mixing outlet.

6. A washing machine as claimed in claim 1 wherein the drum assembly comprises an inner drum and an outer drum in communication, the outer drum being disposed within the cabinet and the inner drum being rotatably disposed within the outer drum.

7. A washing machine as claimed in claim 6 wherein the detergent storage assembly comprises,

the detergent putting box is used for placing detergent;

one end of the washing water inlet pipe is communicated with the detergent putting box, and the other end of the washing water inlet pipe is communicated with the outer barrel;

and one end of the washing water outlet pipe is communicated with the detergent putting box, and the other end of the washing water outlet pipe is communicated with the outer barrel.

8. The washing machine as claimed in claim 6, wherein a plurality of lifting ribs are uniformly provided on the inner wall of the inner tub.

9. A washing machine as claimed in claim 8 wherein the lifting ribs are provided with a plurality of water outlet holes.

10. The washing machine as claimed in claim 1, wherein a control unit and a display unit are provided on the cabinet, the display unit being electrically connected to the control unit.

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