CN111235812B - Washing chamber and washing method for realizing same - Google Patents

Abstract

The invention relates to a washing chamber, which comprises a washing cavity, wherein a first spraying device and a supporting net are arranged in the washing cavity, and the first spraying device is arranged below the supporting net; the first spraying device is provided with a first spraying nozzle group and a second spraying nozzle group, the first spraying nozzle group is used for forming vortex-shaped washing water flow acting on the washed objects, and the second spraying nozzle group is used for forming direct current jet acting on the washed objects. The second spraying device is arranged above the supporting net of the washing chamber, and the second spraying device can spray and wash the washed objects from top to bottom, so that the washed objects can be washed in multiple directions, and special stains can be effectively removed during low-temperature washing. The washing chamber is provided with a water circulation system and an ultraviolet emission device, so that washing water can be disinfected and sterilized while being circulated, and the water is saved and the efficiency is high in the circulating washing process. The washing chamber can form a first washing chamber and a second washing chamber in the washing device for classified washing of washings, and cross infection is prevented.

Description

Washing chamber and washing method for realizing same

Technical Field

The invention relates to a washing chamber and a washing method for realizing the same, in particular to the technical field of washing equipment.

Background

In the washing demands of various kinds of laundry, people pay attention to the cleaning of private and special clothes, such as underwear, underpants, baby clothes and the like. Stains on private clothes are difficult to clean thoroughly, such as blood stains, milk stains and the like, and stain marks are often left. In addition, no matter common washings or private washings are always subjected to cleaning with various stains, the washings are made of special materials, the common washing mode is easy to deform, the washings need to be disinfected, and the like, so that the most of consumers mainly wash the private washings or the washings which are made of special materials, easy to deform and have the stains which are difficult to clean by hands. The hand washing consumes a large amount of life time of consumers, stains which are difficult to clean can be difficult to remove in the hand washing process, and washings cannot be disinfected in the washing process.

In the prior art, a washing device for women's underpants is an extrusion type temperature gradient rubbing washing device, a silica gel brush is used as a rubbing tool to improve washing mechanical force, and the temperature gradient is used for improving washing capacity, wherein the temperature gradient washing procedures are rubbing washing at 30-60 ℃, boiling washing at 65-85 ℃ and rinsing at 85 ℃, and the washing effect is improved in two aspects of adding washing tools, namely using a temperature control procedure. The washing machine is small in size and can be used for washing and disinfecting a single piece of female underpants in a portable mode. However, the high temperature washing and disinfection procedure is not suitable for underwear made of special materials, such as silk, and some special stains are not suitable for washing at high temperature. Finally, the device can only wash a single piece of female underwear, and the underwear still needs to be washed manually, which cannot meet the public demand.

Further, the problem of clothing shuffling is also receiving increased attention, particularly with regard to baby clothing and feminine undergarments. In the multiple washing machines existing in the prior art, the washing apparatus is provided with two washing sections. The upper part is a roller washing device which can wash normal clothes; the lower part is a small impeller washing device which can wash small clothes or large single clothes. The small impeller washing device at the lower part of the compound washing machine has the problem of inevitable cross contamination of the inner and outer barrels of the impeller washing machine.

The disinfection mode of the existing washing machine is high-temperature disinfection, generally the high temperature is about 90 ℃, although the high-temperature disinfection can achieve the sterilization effect, the high-temperature disinfection is not suitable for all materials, such as silk, and the high temperature can damage the material of cloth. In addition, the common washing device can generate large pulling force on the washed objects in the washing process, thereby causing deformation of the clothes.

In summary, a washing device capable of washing a wide range of cloth at a low temperature and quickly removing special stains is lacking in the prior art. Meanwhile, a washing device which can carry out multi-directional three-dimensional washing on the washings in the low-temperature washing process and avoid the deformation of the washings is lacked, and the problem of cross contamination of the washings which have special washing requirements and are washed by a traditional washing machine can be avoided.

Disclosure of Invention

In view of the above, the present invention provides a washing chamber and a washing method for implementing the same, which are used to solve the problem that the laundry may be washed quickly in the low-temperature washing process, the problem that the laundry is deformed due to the dragging of the laundry in the conventional pulsator washing and drum washing technologies, the problem of cross contamination of different types of laundry in a single washing tub or washing chamber, and the three-dimensional washing of the laundry may be implemented, thereby enhancing the washing effect.

Specifically, the method comprises the following steps:

the invention relates to a washing chamber, which comprises a washing cavity, wherein a first spraying device and a supporting net are arranged in the washing cavity, wherein: the supporting net is used for supporting washings to be washed, and the first spraying device is arranged below the supporting net; the first spraying device is provided with a first spraying nozzle group and a second spraying nozzle group, the first spraying nozzle group is used for forming vortex-shaped washing water flow acting on the washed objects, and the second spraying nozzle group is used for forming direct current jet acting on the washed objects.

Further optionally, the first spraying device includes an annular pipe, the first spraying nozzle set includes a plurality of first spraying nozzles, the second spraying nozzle set includes a plurality of second spraying nozzles, the plurality of first spraying nozzles are annularly arranged on the inner annular wall of the annular pipe, and the plurality of second spraying nozzles are annularly arranged on the top of the annular pipe; further preferably, the plurality of first spray nozzles are symmetrically or uniformly arranged on the inner annular wall of the annular pipe at intervals in an annular mode, and the plurality of second spray nozzles are symmetrically or uniformly arranged on the top of the annular pipe at intervals in an annular mode.

Further optionally, the first spray nozzle has a nozzle structure for spraying water obliquely upwards.

Further optionally, the first spray nozzle is arranged on the annular pipe with adjustable spray angle.

Further optionally, each first spray nozzle forms a convex arc-shaped spray face provided with at least one first spray hole.

Further optionally, the top of the ring pipe is provided with a hole for arranging a second spray nozzle group, a second spray nozzle is correspondingly arranged on each hole, the second spray nozzle is an elastic sheet sealed on the hole, the elastic sheet is provided with a jet hole, when the water pressure in the ring pipe is greater than the external pressure, the elastic sheet deforms and protrudes outwards, and water flow is sucked into the second spray nozzle and sprayed out through the jet hole.

Further optionally, the first spraying device is provided with at least one first water pressure adjusting device, and the first water pressure adjusting device is used for adjusting the water pressure when the first spraying nozzle group and/or the second spraying nozzle group sprays.

Further optionally, a second spraying device is arranged in the washing cavity and arranged above the supporting net; when washing, the object to be washed is paved on the supporting net, and the second spraying device can spray the object to be washed from top to bottom.

Further optionally, the second spraying device is provided with at least one third spraying nozzle, and the spraying angle of the second spraying device is adjustable.

Further optionally, the washing chamber is provided with a second water pressure adjusting device for adjusting the spraying water pressure of the second spraying device.

Further alternatively, the first and second showers can be controlled to be used separately or simultaneously.

Further alternatively, the plurality of first spray nozzles of the first spray device may be divided into a plurality of first spray nozzle units, the plurality of first spray nozzle units spray separately or simultaneously, the plurality of second spray nozzles of the first spray device may be divided into a plurality of second spray nozzle units, and the plurality of second spray nozzle units spray separately or simultaneously.

The invention also relates to a washing method adopting any washing chamber of the invention, when washing is needed, the water level of the inlet water of the washing chamber is higher than the highest position of the first spray nozzle group, so that the first spray nozzle group can form vortex-shaped washing water flow acting on the washed objects.

Advantageous effects

The washing chamber sprays the washed objects from top to bottom through the second spraying device and/or sprays the washed objects from bottom to top through the direct current jet flow of the first spraying device and/or forms vortex-shaped washing water flow acting on the washed objects through the first spraying device to wash the washed objects in multiple directions, so that the washing machine has the advantages of strong dirt removal capability, high washing efficiency and more remarkable washing effect on stains, particularly special stains. The user can get rid of the trouble of washing by hands.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The above and other objects, features and advantages of the present disclosure will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings. The drawings described below are merely some embodiments of the present disclosure, and other drawings may be derived from those drawings by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic perspective view of a washing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of a water path structure of a washing apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a washing chamber with a first spraying device according to an embodiment of the present invention;

FIG. 3(a) is a schematic diagram of a washing chamber with a first spraying device having a supporting mesh;

FIG. 3(b) is a schematic view of a washing chamber with a first spraying device without a supporting mesh;

FIG. 4 is a schematic structural diagram of a first spraying device in the embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of a first spray assembly in an embodiment of the present invention;

FIG. 6 is a front cross-sectional view of a first spray assembly in an embodiment of the present invention;

in the figure:

a 1-top cover; a2-tube wall; a3-second spray device; a4-box; a5-washing plate; a6-washing chamber; a7-pump; a8-washing device drain; a 9-three-way valve; a10-water pipe; a11-water inlet; a12-water outlet; a13-display screen; a14-digital display; A15-Power supply; a 16-pause/start button;

b1-a first washing chamber drain pipe, B2-a first drain three-way valve, B3-a second washing chamber drain pipe, B4-a circulating water pump, B5-a second drain valve, B6-a first water inlet three-way valve, B7-a second water inlet three-way valve, B8-a second washing chamber water inlet pipe, B9-a first washing chamber water inlet pipe, B10-a second washing chamber, and B11-a first washing chamber; b12 — total drain; b13-circulating water return pipe; b14-total inlet pipe;

c100-a first spraying device; c110-a first spray device water inlet; c120-a first water pressure regulating device; c130-supporting net; c140-first spray nozzle; c141-first spray holes; c150-a second spray nozzle; c151-jet hole; c160-ultraviolet emitting device; c170-washing chamber drain; c171-strainer; c180-a water inlet of a second spraying device;

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals denote the same or similar parts in the drawings, and thus, a repetitive description thereof will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the subject matter of the present disclosure can be practiced without one or more of the specific details, or with other methods, components, devices, steps, and so forth. In other instances, well-known methods, devices, implementations, or operations have not been shown or described in detail to avoid obscuring aspects of the disclosure.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various structures, these structures should not be limited by these terms. These terms are used to distinguish one structure from another structure. Thus, a first structure discussed below may be termed a second structure without departing from the teachings of the disclosed concept. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is to be understood by those skilled in the art that the drawings are merely schematic representations of exemplary embodiments, and that the blocks or processes shown in the drawings are not necessarily required to practice the present disclosure and are, therefore, not intended to limit the scope of the present disclosure.

[ example 1 ]

This embodiment specifically describes: the invention provides a structure of a washing device with a washing chamber, a washing process of the washing device and a washing method.

Referring to fig. 1, a schematic perspective view of a part of the washing apparatus of this embodiment is shown, and a washing chamber is disposed in the washing apparatus of fig. 1. Fig. 1 is a diagram illustrating an example of a washing apparatus having one washing chamber in the present embodiment, and the washing apparatus in the present embodiment may be provided with one or more (including two) washing chambers.

As shown in fig. 1, a digital display screen a14, a power display lamp a15, and a pause/start button a16 are provided on a top cover a1 of the washing apparatus of the present embodiment. The pause/start button A16 controls the washing device to start the washing process, and the washing process is displayed on the digital display screen A14 in real time, so that the user can know the washing process conveniently. Before washing begins, the top cover A1 is unlocked, the top cover A1 can be opened, and the washings are put into the washing chamber. After the washings are placed, the washing program is started. Preferably, the lid a1 is locked and cannot be opened during the washing process.

The water inlet A11 is the water inlet end of the washing device in FIG. 1, tap water enters the water pipe A10 from the water inlet A11, and due to the action of the three-way valve A9 and the circulating water pump A7, washing water is sprayed out of the second spraying device A3 and is hit on clothes to be washed, and specific stains are washed in a targeted manner. For convenience of illustration, the first spraying device C100, the support net C130, and the like are not shown in fig. 1. The water inlet pipe A10 for supplying water to the washing water in the actual washing process is divided into two water inlet branches, the first water inlet branch enters the first spraying device to provide spraying water for the first spraying device, and the second water inlet branch enters the second spraying device to provide spraying water for the second spraying device.

When the water inflow reaches the preset water amount, the external water inflow is stopped, and the circulating pump A7 circulates the washing water in the cavity of the washing chamber A6 in the circulating washing process, so that the circulating washing effect is achieved. And (4) finishing the circulating washing process, discharging the used washing water in the cavity of the washing chamber A6 out of the washing chamber from a washing device water outlet A8 connected with a washing chamber water outlet C170, and discharging the used washing water out of the washing device through a water outlet A12 connected with a washing device water outlet A8, thus finishing the washing of one time.

Fig. 2 is a schematic view of a water path of a washing device according to an embodiment of the present invention. When the washing apparatus of this embodiment is provided with two washing chambers, the water paths of the washing apparatus are distributed as shown in fig. 2.

The washing chamber forms a first washing chamber B11 and a second washing chamber B10, and a first spray device C100 and a second spray device A3 are provided in each of first washing chamber B11 and second washing chamber B10. .

First washing chamber drain pipe B1 is connected to the bottom of first washing chamber B11, second washing chamber drain pipe B3 is connected to the bottom of second washing chamber B10, and one end of circulation return pipe B13 is connected to second washing chamber drain pipe B3 and first washing chamber drain pipe B1 by first drain three-way valve B2.

The other end of the circulating water return pipe B13 is connected to a first washing chamber water inlet pipe B9 and a second washing chamber water inlet pipe B8, and a second water inlet three-way valve B7 is provided at the intersection of the three. The circulating water return pipe B13 is also connected with a main water inlet pipe B14, and a first water inlet three-way valve B6 is arranged at the intersection of the circulating water return pipe B13 and the main water inlet pipe B14. A circulation water pump B4 is provided in the circulation water return pipe B13 between the first drain three-way valve B2 and the first water inlet three-way valve B6. The circulating water return pipe B13 is also connected with a main water discharge pipe B12, and the junction of the circulating water return pipe B13 and the main water discharge pipe B12 is positioned between the circulating water pump B4 and the first water inlet three-way valve B6. The main drain pipe B12 is provided with a second drain valve B5, and the second drain valve B5 is used for controlling the washing water in the washing chamber to be drained out of the washing device.

Further, the circulation water pump B4 is a centrifugal compound pump for realizing circulation washing of the washing water in the washing chamber.

Furthermore, the water inlet pipe B8 of the second washing chamber branches into two water inlet branches, the first water inlet branch enters the first spraying device to provide sprayed water for the first spraying device, and the second water inlet branch enters the second spraying device to provide sprayed water for the second spraying device. The washing water flows into the first spray device and the second spray device through the second washing chamber water inlet pipe B8. The water inlet pipe B9 of the first washing chamber branches into two water inlet branches, the first water inlet branch enters the first spraying device to provide spraying water for the first spraying device, and the second water inlet branch enters the second spraying device to provide spraying water for the second spraying device. The washing water flows into the first spray device and the second spray device through the first washing chamber water inlet pipe B9.

As shown in fig. 2, during the washing process, the first water inlet three-way valve B6 is opened to supply water to the washing apparatus, and tap water is controlled to enter the second washing chamber B10 from the second washing chamber water inlet pipe B8 or enter the first washing chamber B11 from the first washing chamber water inlet pipe B9 by controlling the second water inlet three-way valve B7 according to the washing mode. And controlling the first water inlet three-way valve B6 to stop the water supply when the second washing chamber B10 and/or the first washing chamber B11 reaches a preset water supply level.

Further, the preset lowest water level of the inlet water in each washing chamber should be submerged at the highest position of the first spraying device C100.

Further preferably, the lowest preset water level in each washing chamber is not lower than the highest position of the first spraying device C100 and not higher than the highest position of the washings on the support net.

Furthermore, when the washing chamber is subjected to water inlet or circulating water inlet operation, the first water inlet branch and/or the second water inlet branch of the water inlet pipe of the washing chamber are controlled to be a passage, so that washing water can enter the first spraying device C100 and/or the second spraying device A3 from each water inlet pipe of the washing chamber, and water is fed into the washing chamber through the first spraying device C100 and/or the second spraying device A3.

When the washing device performs the washing water circulation washing mode, the washing water of the first washing chamber B11 flows through the first washing chamber drain pipe B1 by the gravity or the washing water of the second washing chamber B10 flows through the second washing chamber drain pipe B3 by the gravity. The first drain three-way valve B2 is controlled by a specific signal such that the first washing chamber drain B1 is communicated with the circulation water return B13 or the second washing chamber drain B3 is communicated with the circulation water return B13, and at this time, the second drain valve B5 is controlled to be in a closed state. At this time, the circulation water return pipe B13 is communicated through the first water inlet three-way valve B6. At this time, the circulation water pump B4 is turned on to pressurize the washing water in the first washing chamber B11 or the washing water in the second washing chamber B10 such that the washing water flows to the second water inlet three-way valve B7 through the circulation water return pipe B13. While controlling the second water inlet three-way valve B7 such that the washing water in the first washing chamber B11 flows back to the first washing chamber B11 through the second water inlet three-way valve B7 and the first washing chamber water inlet pipe B9; or the washing water in the second washing chamber B10 is returned to the second washing chamber B10 through the second water inlet three-way valve B7 and the second washing chamber water inlet pipe B8.

The washing water may be separately circulated in the first washing chamber B11 or the second washing chamber B10 according to fig. 2. The beneficial effects are that: the washing water is circulated in the washing chambers independently, so that the cross contamination of the dirt and bacteria of the washings in different washing chambers can be avoided, and the two washing chambers and the upper washing chamber can be used for washing different types of clothes simultaneously. For example, the first washing chamber may be used for washing upper intimate apparel, such as a woman's brassiere, etc., and the second washing chamber may be used for washing lower intimate apparel, such as underpants, etc. The circulation of the washing water in different washing chambers can increase the solubility of the laundry detergent, reduce the washing time of special stains and achieve the effects of energy conservation and time conservation.

The structure of the first spraying means and the function in the washing process are described in detail below with reference to fig. 3 to 5.

Fig. 3 is a schematic structural view of a washing chamber with a first spraying device in an embodiment of the present invention. Fig. 4 is a schematic structural view of a first spraying device in the embodiment of the invention. Fig. 5 is a partially enlarged view of the first shower device in the embodiment of the present invention.

A first spraying device C100 and a support net C130 are arranged in a washing cavity formed by the washing chamber in the embodiment, wherein the first spraying device C100 is arranged below the support net C130, and the first spraying device C100 is arranged above the bottom of the washing cavity of the washing chamber; the first spray device C100 is provided with a first spray nozzle group for forming a swirl-like washing water flow acting on the laundry and a second spray nozzle group for forming a direct current jet acting on the laundry. The outer periphery of the supporting net C130 is closely connected with the inner peripheral wall of the washing chamber, and the supporting net C130 is arranged substantially parallel to the bottom of the washing chamber.

Furthermore, the supporting net is an elastic supporting net, a plurality of water permeable holes are respectively arranged on the supporting net, and the water permeable holes can be uniform in size and also can be water permeable holes with different shapes and sizes.

As shown in fig. 3 and 4, the first spray device C100 includes a ring pipe and a first spray device inlet C110. The first water inlet branch in the washing chamber is communicated with the first spraying device C100. First spray nozzle group contains a plurality of first spray nozzles C140, and second spray nozzle group includes a plurality of second spray nozzles C150, and a plurality of first spray nozzles C140 encircle and establish on the inner ring wall of ring pipe, a plurality of second spray nozzles C150 encircle and establish the top of ring pipe, and further preferred, a plurality of first spray nozzles C140 symmetry or interval encircle evenly and establish on the inner ring wall of ring pipe, and a plurality of second spray nozzles C150 symmetry or interval encircle evenly and establish the top at the ring pipe.

It should be noted that in the present embodiment, an annular water cavity is formed in the annular pipe of the first spraying device C100, and the annular water cavity is communicated with the first spraying device water inlet C110, and the washing water enters the annular water cavity from the first spraying device water inlet C110. In this embodiment, the first spray nozzle group and the second spray nozzle group are both communicated with the annular water cavity, and the washing water sprayed by the first spray nozzle group and the second spray nozzle group is from the annular water cavity. The embodiment is only one implementation manner of the present invention, and is not intended to limit the present invention. In different implementation scenarios, different annular water cavities can be arranged in the first spraying device and are respectively communicated with different spraying nozzle groups.

Further, the first spray nozzle C140 has a nozzle structure for spraying water obliquely upward.

Further, the first spray nozzles C140 are provided on the ring pipe with adjustable spray angles.

Each first spray nozzle C140 forms a convex spray face provided with at least one first spray hole C141. Specifically, in the present embodiment, a plurality of first shower holes C141 are provided in the convex spray surface in each first shower nozzle.

In this embodiment, the top of the ring pipe is provided with openings for the second spray nozzle set, each opening is correspondingly provided with a second spray nozzle C150, the second spray nozzle C150 is an elastic sheet sealed on the opening, the elastic sheet is provided with a jet hole C151, and when the water pressure in the ring pipe is higher than the external pressure, the elastic sheet deforms and protrudes outwards, and the water flow is sucked into the second spray nozzle C150 and is ejected out through the jet hole C151. When the water pressure in the annular pipe is less than or equal to the external pressure, the water in the annular pipe cannot be sprayed out through the jet hole C151 under the action of the external pressure.

It should be noted that the second spraying nozzle set sprays the washed clothes on the supporting net when the water pressure in the annular pipe is higher than the external pressure, and at the moment, because the water pressure is higher, direct current jet flow is formed during spraying and acts below the washed clothes.

The first spraying device C100 is provided with at least one first water pressure adjusting device C120, and the first water pressure adjusting device C120 is used for adjusting the water pressure when the first spraying nozzle group and/or the second spraying nozzle group sprays.

Specifically, in the present embodiment, the first spraying device C100 is provided with a first water pressure adjusting device C120, and the first water pressure adjusting device C120 is disposed at the first spraying device water inlet C110. The first water pressure adjusting device C120 is used for adjusting the water pressure of the first spraying device water inlet C110 in this embodiment, so as to adjust the water pressure in the annular water cavity communicated with the first spraying device water inlet C110, and finally, adjust the water pressure when the first spraying nozzle group and the second spraying nozzle group spray.

A second spraying device A3 is arranged in a washing cavity of the washing chamber in the embodiment, a second water inlet branch in the washing chamber is communicated with the second spraying device A3 through a second spraying device water inlet C180, and the second spraying device A3 is arranged above the supporting net C130 in the washing chamber; when washing, the washing is spread on the supporting net, and the second spraying device A3 can spray the washing from top to bottom.

Further, the spraying angle of the second spraying device A3 can be adjusted. The second spraying device A3 is provided with at least one third spraying nozzle, and the spraying angle of the second spraying device is adjustable.

Further, the washing chamber is provided with a second water pressure adjusting device for adjusting the spraying water pressure of the second spraying device A3.

In this embodiment, the first spray device C100 and the second spray device a3 may be controlled to be used separately or simultaneously.

Further, the plurality of first spray nozzles C140 of the first spray device C100 may be divided into a plurality of first spray nozzle units, which spray separately or simultaneously, and the plurality of second spray nozzles C150 of the first spray device may be divided into a plurality of second spray nozzle units, which spray separately or simultaneously.

The following describes in detail the washing method of the washing chamber of the present embodiment when washing is performed:

when washing is carried out, the top cover A1 is opened, the washed clothes are put on the supporting net C130, when the operation of putting the washed clothes is completed, the top cover A1 is closed, and the top cover A1 is locked and can not be opened.

And controlling the washing chambers to feed water to a preset water inlet level according to a washing program selected by a user or a washing program preset by the washing device, and further, controlling the preset lowest water inlet level in each washing chamber to be immersed in the highest position of the first spraying device. Further preferably, the lowest preset water level in each washing chamber is not lower than the highest position of the first spraying device and not higher than the highest position of the washings on the support net.

In this embodiment, the first spraying device C100 is provided with a preset water pressure value P₀The first water pressure regulating device C120 controls the water pressure of the annular water cavity in the first spraying device C100 to be less than or equal to P₀When the annular pipe surrounds the washing chamber, the first spraying nozzles in the first spraying nozzle group are controlled to keep the same spraying angle, so that the water area of the annular pipe surrounding the washing chamber is sprayed obliquely all the time, and preferably, the first spraying nozzles spray obliquely upwards; in this case, a whirlpool-like washing water flow acting on the laundry is formed in the washing chamber, and the laundry on the support net is washed by the whirlpool-like washing water flow.

In this embodiment, the first water pressure adjusting device C120 is arranged to adjust the pressure of the water in the annular water cavity, so as to adjust the spraying angle of the first spraying nozzle, and the spraying angle of the first spraying nozzle changes along with the pressure change of the water in the annular water cavity. In other embodiments, the spray angle of the first spray nozzle can also be controlled by controlling the rotation of the first spray nozzle.

When the first water pressure regulating device 120 controls the water pressure in the annular water cavity to be more than P₀In the meantime, since the second spray nozzle C150 is an elastic sheet sealed on the opening, the elastic sheet is provided with the jet hole C151, and the elastic sheet is deformed and outwardly protruded and sucks water flow into the second spray nozzle C150 to be ejected through the jet hole C151. At this time, the water sprayed from the second spray nozzle C150 is sprayed upward in a spray shape to spray the laundry on the support, forming an upward direct current jet, increasing the mechanical force of the reciprocating spray of the laundry in the vertical direction, and enhancing the washing effect. At this time, the first spray nozzle group is still in a working state, and a vortex-shaped washing water flow acting on the washed objects is continuously formed in the washing chamber.

Further optionally, in this embodiment, the second spraying device A3 is controlled to work simultaneously with the first spraying device C100, so that the washings can be sprayed from top to bottom by the second spraying device A3 and/or sprayed from bottom to top by the first spraying device C100 and/or the first spraying device forms a vortex-like washing water flow acting on the washings for multi-directional washing. The beneficial effects are that: the washing effect is enhanced, the washings in the supporting net are washed in an all-around way, the strong cleaning force on special stains is achieved, the washing efficiency is improved, and the washing time is saved.

Fig. 6 is a front cross-sectional view of a first spraying device C100 according to an embodiment of the present invention, in fig. 6, an ultraviolet emitting device C160 is disposed in the first spraying device C100, and when a washing process is started in a washing chamber, the ultraviolet emitting device C160 is controlled to operate to emit ultraviolet rays to sterilize the washing chamber, and the ultraviolet emitting device C160 can sterilize and disinfect circulating washing water in the washing chamber while sterilizing the washing water in an annular water cavity of the first spraying device, so that washings are washed more thoroughly, and the recycling rate of the washing water is further increased.

Further, the ultraviolet ray generating device C160 is an ultraviolet quartz lamp uniformly disposed inside the annular tube of the first shower device C100. The circuit of the ultraviolet quartz lamp is arranged in a water-proof chamber, so that the circuit is isolated from a water path, and the use safety is ensured.

Further, after washing, the washing water is discharged from the washing chamber through the washing chamber drain port C170, and a strainer C171 for filtering foreign substances is further provided at the washing chamber drain port C170.

Has the advantages that:

the washing chamber sprays the washed objects from top to bottom through the second washing device and/or sprays the washed objects from bottom to top through the direct current jet flow of the first washing device and/or forms vortex-shaped washing water flow acting on the washed objects through the first spraying device to wash the washed objects in multiple directions, so that the washing machine has the advantages of strong dirt removal capability, high washing efficiency and more remarkable washing effect on stains, particularly special stains.

The washing chamber is also provided with an ultraviolet emission device, so that the washing water can be sterilized and disinfected even in the low-temperature washing process, and the washing is cleaner. The washing chamber is provided with the water circulation system, so that the washing effect can be enhanced, water can be saved, and two washing chambers can be formed when the washing chamber is applied to the washing device, so that clothes can be conveniently classified and washed.

Exemplary embodiments of the present disclosure are specifically illustrated and described above. It is to be understood that the present disclosure is not limited to the precise arrangements, instrumentalities, or instrumentalities described herein; on the contrary, the disclosure is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (13)

1. A washing chamber comprising a washing chamber, characterized in that: be provided with first spray set, supporting network in the washing chamber, wherein: the supporting net is used for supporting washings to be washed, and the first spraying device is arranged below the supporting net; the first spraying device is provided with a first spraying nozzle group and a second spraying nozzle group, the first spraying nozzle group is used for forming vortex-shaped washing water flow acting on the washed objects, and the second spraying nozzle group is used for forming direct current jet acting on the washed objects;

first spray set includes a ring pipe, first spray nozzle group includes a plurality of first spray nozzles, second spray nozzle group includes a plurality of second spray nozzles, a plurality of first spray nozzle ring establish on the interior rampart of ring pipe, a plurality of second spray nozzle ring establish the top of ring pipe.

2. The washing chamber as claimed in claim 1, wherein: the first spray nozzle is provided with a nozzle structure which enables water flow to be sprayed upwards in an inclined mode.

3. The washing chamber as claimed in claim 2, wherein: the first spraying nozzle is arranged on the annular pipe in a spraying angle adjustable mode.

4. The washing chamber as claimed in claim 3, wherein: each first spraying nozzle forms a convex arc-shaped spraying surface, and the convex arc-shaped spraying surface is provided with at least one first spraying hole.

5. The washing chamber as claimed in claim 4, wherein: the annular pipe top is formed with the trompil that sets up the second and spray the mouth group, at each it sets up one to correspond on the trompil the second spouts the nozzle, the second sprays the mouth and establishes for one the flexure strip on the trompil, the flexure strip is opened there is the jet orifice, works as when water pressure is greater than ambient pressure in the annular pipe, the flexure strip warp and outside arch to suction rivers get into the second and spray the mouth in the jet orifice blowout.

6. The washing chamber as claimed in claim 5, wherein: the first spraying device is provided with at least one first water pressure adjusting device, and the first water pressure adjusting device is used for adjusting the water pressure when the first spraying nozzle group and/or the second spraying nozzle group spray.

7. A washing chamber as claimed in any one of claims 1 to 6, characterized in that: a second spraying device is arranged in the washing cavity and is arranged above the supporting net; when washing, the object to be washed is paved and pasted on the supporting net, and the second spraying device can spray the object to be washed from top to bottom.

8. The washing chamber as claimed in claim 7, wherein: the second spraying device is provided with at least one third spraying nozzle, and the spraying angle of the second spraying device is adjustable.

9. The washing chamber as claimed in claim 8, wherein: and the washing chamber is provided with a second water pressure adjusting device for adjusting the spraying water pressure of the second spraying device.

10. The washing chamber as claimed in claim 9, wherein: the first and second showers can be controlled to be used separately or simultaneously.

11. The washing chamber as claimed in claim 1, wherein: the first spraying nozzles are symmetrically or uniformly arranged on the inner annular wall of the annular pipe at intervals in an encircling manner, and the second spraying nozzles are symmetrically or uniformly arranged on the top of the annular pipe at intervals in an encircling manner.

12. The washing chamber as claimed in claim 10, wherein: the plurality of first spray nozzles of the first spray device may be divided into a plurality of first spray nozzle units which spray separately or simultaneously, and the plurality of second spray nozzles of the first spray device may be divided into a plurality of second spray nozzle units which spray separately or simultaneously.

13. A washing method for implementing a washing chamber according to any one of claims 1 to 12, characterized in that: when washing is needed, the water level of the inlet water of the washing chamber is higher than the highest position of the first spray nozzle group, so that the first spray nozzle group can form vortex-shaped washing water flow acting on the washed objects.

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