CN214060985U - Novel washing machine - Google Patents

Abstract

The utility model discloses a novel washing machine, which belongs to the technical field of washing machines and comprises a shell, an inner container, a washing chamber, a control module, an air inlet and outlet module and a circulating water spraying cleaning module for spraying water to clothes from a spray head above the washing chamber, wherein the air inlet and outlet module comprises a high-pressure airflow fan and an air inlet pipeline, and outside air enters the washing chamber through the high-pressure airflow fan and the air inlet pipeline to blow off the clothes and then is discharged to the outside from an exhaust pipe; the circulating water spraying cleaning module comprises a high-pressure water suction pump, a circulating water pipe and a spray head which are arranged at a drainage outlet of the washing bin. The utility model discloses break traditional washing machine's washing mode, through adopting high-pressure draught fan and high-pressure water pump that absorbs water, form normal direction stress and tangential stress with the fluid through certain pressure, the fluid forms the velocity of flow under pressure, under the effect of fluid water scrubbing agent, and spot in the fabric can be taken out completely, and air fluid passes through the fabric repeatedly and can separate out the dirt, still does not harm the clothing.

Description

Novel washing machine

Technical Field

The utility model discloses washing machine equipment technical field, concretely relates to novel washing machine.

Background

Washing clothes from ancient times to present is a housework which is difficult to escape, and before the appearance of the washing machine, for many people, the washing machine is not as fun as portrayed by the poetry of the countryside, and the repeated simple physical labor of rubbing hands, banging, washing and swinging … … is often left to feel: it is hard and hard to work.

1874, the "manual washing time" has met with unprecedented challenges — a new practical wooden hand-operated washing machine. The utility model is American Bill Blakex. The structure of the Brax washing machine is very simple, 6 blades are arranged in a wooden cylinder, and the handle and the gear are used for transmission, so that clothes are turned over in the cylinder, and the aim of cleaning the clothes is fulfilled. The advent of this device has led to the introduction of people who are meditation and wonderful to improve the efficiency of life, and the development of washing machines has begun to accelerate significantly.

The electric washing machine is improved, and a brand-new washing mode of a stirring type is introduced in 1922. The agitator washer was developed by Maritager, USA. The washing machine has one vertical shaft in the center of the tub, stirring wings in the lower end of the vertical shaft, and motor to drive the vertical shaft to oscillate periodically to make the clothes and water flow roll over and rub against each other to wash away dirt. The stirring type washing machine has a scientific and reasonable structure and is popular with people. However, after 10 years, Bendkex airlines announced that they developed the first front-loading drum washing machine and that washing, rinsing, and dewatering were completed in the same drum. This means that the version of the electric washing machine jumps to a new step, which is a big step towards automation! Until today, drum type washing machines are widely used in the european and american countries.

The development of the washing machine relieves the heavy housework of women in families, and provides great convenience for people to have clean and healthy clothes.

Most of the existing household washing machines adopt the operation modes of stirring, rolling and flushing, can really clean stains on the surfaces of clothes, but cannot clean the clothes thoroughly and quickly, and especially can expect 'dust' to be careless for the stains in the fabric. The stirring, rolling and mode water flow of the washing machines usually rotate in one direction to form a centrifugal vortex phenomenon, reverse flow is adopted and is generated in the moment, friction force is not enough to impact hidden stains inside fabrics, a large amount of water is needed, the washing machines are repeatedly washed, the clothes are easily torn to be broken and deformed in the stirring process, time and water are consumed, the washing machines are not thorough in cleaning, the clothes are wrinkled and crumpled after centrifugal dehydration, the clothes can be worn by ironing, and the light-color clothes washed by the washing machines cannot be cleaned. The high-grade clothes can not be washed by the washing machine, and the clothes are deformed and discolored inevitably.

The manual washing mode is rubbing, extruding, beating and the like, and can generate relatively soft friction and extrusion force with each other, so that stains in the fabric are extruded under the action of friction, pressure and extrusion, and the aim of cleaning is fulfilled.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel washing machine, through adding into air intake and exhaust module and circulation water spray cleaning module, through high-pressure draught fan and high-pressure water pump that absorbs water, form normal direction stress and tangential stress with fluid (air and water) through certain pressure, the fluid forms the velocity of flow under pressure, make the fast repetitious fabric fibre that passes of velocity of flow through control module, the dimension forms gentle frictional force, like rubbing, the extrusion, the effect of hammering, under the effect of fluid water washing agent, can the interior spot of fabric be taken over completely, air fluid can separate out the dirt through the fabric repeatedly, still utilize heating device to heat 45 left and right sides under the wind speed effect stoving under the washing finishes, thereby reach the washing, it dries, disinfect the purpose of disinfection clothing.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a novel washing machine comprises a shell, an inner container, a washing bin and a control module, wherein the washing bin and the control module are arranged in the inner container, the novel washing machine also comprises an air inlet and exhaust module and a circulating water spraying and cleaning module for spraying water to clothes from a spray head above the washing bin; the circulating water spray cleaning module comprises a high-pressure water suction pump, a circulating water pipe and a spray head, wherein the high-pressure water suction pump is arranged at a drainage port of a washing bin, water in the washing bin is pumped out by the high-pressure water suction pump and conveyed to a water storage tank through the circulating water pipe in the washing stage, then the water is sprayed into the washing bin again from the spray head at the top of the washing bin through a sewer pipe, clothes are sprayed, the purpose of washing the clothes is achieved, the circulating water spray cleaning module further comprises a drain pipe penetrating through a shell, the bottom of the circulating water pipe is connected with the drain pipe, and a first water discharge control valve is arranged at the drain pipe.

Furthermore, the drying device also comprises a drying electric heating plate, wherein the drying electric heating plate is arranged between an outlet of the high-pressure airflow fan and the air inlet pipeline.

Furthermore, the exhaust pipe penetrates through the inside and the outside of the shell, the air inlet pipeline comprises a first air inlet pipeline and a second air inlet pipeline, the first air inlet pipeline penetrates through the inside and the outside of the shell, and the second air inlet pipeline is arranged inside the shell; the first end of the first air inlet pipeline is communicated with the outside, the second end of the first air inlet pipeline is connected with an inlet of a high-pressure airflow fan, an outlet of the high-pressure airflow fan is communicated with an air inlet on the washing bin through a second air inlet pipeline, an air inlet control valve is arranged at the air inlet on the washing bin, outside air enters the washing bin, is discharged from an air outlet on the washing bin after being blown away, and is finally discharged to the outside through an exhaust pipe.

Furthermore, the water storage tank is also connected with an external water source through a water inlet pipe, a water inlet control valve is arranged at the water inlet pipe, and a flow detector is arranged at the water inlet pipe; the water storage tank is connected with a spray header at the top of the laundry bin through a sewer pipe, and a sewer control valve is arranged on the sewer pipe; the water storage tank is connected with the second end of the circulating water pipe, the first end of the circulating water pipe is connected with the outlet of the high-pressure water-absorbing water pump, and a second water drainage control valve is arranged at one end, close to the water storage tank, of the circulating water pipe.

Furthermore, the laundry bin is a spherical laundry bin or a flat laundry bin or a structure with a flat top, a hemispherical bottom or a hemispherical top and a flat bottom.

Furthermore, the laundry bin is a spherical laundry bin, the laundry bin comprises a spherical fluid laundry upper cavity, a spherical fluid laundry cavity and a spherical fluid laundry lower cavity, the spherical fluid laundry upper cavity is connected with an exhaust port gland, and a filter screen is arranged at a water outlet of the laundry bin.

Furthermore, the spray head is a shower head matched with the top structure of the washing bin.

The detergent filling device comprises a detergent storage cavity, a piston dosing device, a pressing rod, a pressing head and a sealing plug, wherein a detergent feeding port for feeding detergent into the detergent storage cavity is formed in the shell, a discharge port of the detergent storage cavity is communicated with the water storage tank, the piston dosing device is adaptive to the detergent storage cavity and used for squeezing the detergent in the detergent storage cavity into the water storage tank, the piston dosing device comprises the pressing rod, two ends of the pressing rod are respectively connected with the pressing head and the sealing plug, and a groove adaptive to the pressing head and used for accommodating the pressing head is formed in the shell; and a positioning pressure plate rotatably connected with the shell is arranged at the groove.

Further, control module includes control panel, the integrated automatically controlled board that has microprocessor, control panel is last to be equipped with the power button, to start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, the power button, start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, the signal output of flow detector connects microprocessor's signal input part, microprocessor's signal output connection display screen, high-pressure air current fan, advances air control valve, high-pressure water pump that absorbs water, first drain control valve, second drain control valve, lower water control valve, water control valve and stoving electric heating dish.

The washing machine further comprises a washing agent storage cavity, wherein a washing agent adding port for adding washing agent into the washing agent storage cavity is arranged on the shell, the washing machine further comprises a miniature liquid metering pump for delivering the washing agent in the washing agent storage cavity to the water storage tank, an inlet of the miniature metering liquid pump is communicated with the washing agent storage cavity, and an outlet of the miniature metering liquid pump is communicated with the water storage tank;

the signal input end of the micro metering liquid pump is connected with the control module;

control module includes control panel, the integrated automatically controlled board that has microprocessor, control panel is last to be equipped with the power button, to start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, the power button, start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, flow detector's signal output connects microprocessor's signal input part, microprocessor's signal output connects display screen, high-pressure air current fan, advances the air control valve, the high pressure water pump that absorbs water, first drain control valve, second drain control valve, lower water control valve, stoving electric heating dish and miniature measurement liquid pump.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model breaks through the washing mode of the traditional washing machine, changes the fabric washing mode from stirring, rolling and scouring mode to a brand new fluid flow velocity precipitation mode, by adopting a high-pressure airflow fan and a high-pressure water absorption pump, normal stress and tangential stress are formed by fluid (air and water) under certain pressure, the fluid forms flow velocity under the pressure, the flow velocity is rapidly and repeatedly passed through the fabric fiber by the control module to form soft friction force, which is like the actions of kneading, extruding and hammering, under the action of the fluid water washing agent, dirt in the fabric can be completely taken out, air fluid repeatedly passes through the fabric to separate out the dirt, air is heated by the drying electric heating plate for about 45 degrees after washing is finished and then is sent into a washing bin, the clothes in the washing bin are dried and sterilized, so that the purposes of washing, drying, sterilizing and disinfecting the clothes are achieved.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

fig. 3 is a schematic structural view of a state in which a pressing lever is pressed in embodiment 1 of the present invention;

FIG. 4 is an enlarged view of B in FIG. 3;

fig. 5 is a control schematic block diagram of a control module in embodiment 1;

fig. 6 is a schematic structural view of embodiment 2 of the present invention;

FIG. 7 is an enlarged view of C in FIG. 6;

fig. 8 is a control schematic block diagram of a control module in embodiment 2;

in the figure: the device comprises a control panel 001, an electric control board 002, a water inlet control valve 01, a first water outlet control valve 02, a second water outlet control valve 03, a water outlet control valve 04, a water inlet control valve 05, a shell 100, an inner container 200, a washing bin 300, a spherical fluid washing upper chamber 301, a spherical fluid washing chamber 302, a spherical fluid washing lower chamber 303, an exhaust gland 304, an exhaust port 305, a filter screen 306, a high-pressure airflow fan 501, a first air inlet pipeline 502, a second air inlet pipeline 503, an exhaust pipe 504, a fan bracket 505, a support plate 600, a drying electric heating plate 700, a shower head 801, a high-pressure water suction pump 802, a sewage discharge pipe 803, a first circulating water pipe 804, a second circulating water pipe 805, a water storage tank 900, a detergent storage chamber 1000, a detergent inlet 1001, a connecting port 1002, a pressing rod 1003, a pressing head 1004, a sealing plug 1005, a positioning pressing plate 1006, a return spring 1007 and a micro metering liquid pump 1100.

Detailed Description

For a better understanding of the present invention by those skilled in the art, the present invention will be further described with reference to the following detailed description:

as shown in fig. 1-5, a novel washing machine comprises a shell 100, an inner container 200, a washing bin 300 arranged in the inner container, a clothes throwing opening 400 and a control module, wherein a sealing door is arranged at the clothes throwing opening 400, the washing bin 300 cannot horizontally rotate relative to the inner container 200, and the specific washing bin 300 is detachably connected with the inner wall of the inner container 200 through a connecting piece, so that later-stage disassembly and maintenance are facilitated.

The utility model discloses do not do special requirement to laundry bin 300's structural shape, the laundry bin can be spherical laundry bin or flat laundry bin or the top be the structure that the flat bottom is the hemisphere or the top is the hemisphere bottom is the flat shape.

Preferably, as shown in fig. 1, the laundry chamber 300 in this embodiment is a spherical laundry chamber, the laundry chamber 300 includes a spherical fluid upper washing chamber 301, a spherical fluid washing chamber 302 and a spherical fluid lower washing chamber 303, and the spherical fluid upper washing chamber 301 is connected to the exhaust gland 304. An air inlet, an air outlet 305 and a water outlet are provided on the washing compartment 300.

The washing machine further comprises an air intake and exhaust module, wherein the air intake and exhaust module comprises a high-pressure airflow fan 501, an air inlet pipeline and an exhaust pipe 504, and outside air enters the washing bin 300 through the high-pressure airflow fan 501 and the air inlet pipeline to blow off clothes and then is exhausted to the outside through the exhaust pipe 504. The high pressure air blower 501 is installed on the support plate 600 above the washing tub 300 through the blower bracket 505.

Specifically, the exhaust duct 504 penetrates the inside and outside of the casing, the air inlet duct includes a first air inlet duct 502 and a second air inlet duct 503, the first air inlet duct 502 penetrates the inside and outside of the casing 100, the second air inlet duct 503 is disposed inside the casing 100 (the casing has a certain thickness, and a passage for accommodating the first air inlet duct is disposed inside the casing).

The first end of the first air inlet pipeline 502 is communicated with the outside, the second end of the first air inlet pipeline 502 is connected with the inlet of the high-pressure air flow fan 501, the outlet of the high-pressure air flow fan 501 is communicated with the air inlet on the washing bin 300 through the second air inlet pipeline 503, and the air inlet on the washing bin 300 is provided with an air inlet control valve 05. The air inlet control valve 05 can prevent water in the washing chamber 300 from flowing into the air inlet pipeline, and when the air inlet control valve 05 is in a closed state, the water pumping of the high-pressure water absorption pump 802 is not influenced.

In the air blowing stage (water in the washing chamber is pumped into the water storage tank or discharged from the discharge drain pipe), the outside air enters the washing chamber 300, blows out the laundry, is discharged from the exhaust port 305 of the washing chamber 300, and is finally discharged to the outside through the exhaust pipe 504.

The washing machine further comprises a circulating water spraying cleaning module for spraying water to clothes from a spray head 801 above the washing bin 300, the circulating water spraying cleaning module comprises a high-pressure water suction pump 802, a circulating water pipe and the spray head 801 which are arranged at a water discharge port of the washing bin 300, a filter screen 306 is arranged at the water discharge port of the washing bin 300, the bottom of the circulating water pipe is connected with a sewage discharge pipe 803, and a first water discharge control valve 02 is arranged at the sewage discharge pipe 803.

Specifically, the water circulating pipe includes a first water circulating pipe 804 and a second water circulating pipe 805, wherein a water inlet of the high-pressure water suction pump 802 is connected to a water outlet of the washing machine 300, a water outlet of the high-pressure water suction pump 802 is connected to an inlet of the first water circulating pipe 804, an outlet of the first water circulating pipe 804 is connected to an inlet of the second water circulating pipe 805, an outlet of the second water circulating pipe 805 is connected to the water storage tank 900, and a second drain control valve 03 is disposed at one end of the second water circulating pipe 805 close to the water storage tank 900 (specifically, an outlet of the second water circulating pipe is located at the upper middle portion of the water storage tank, so that water in the water storage tank is prevented from flowing backwards through the water circulating pipe). The second circulation water pipe 805 is vertically disposed in the case 100 (the case has a certain thickness, and a passage for accommodating the second circulation water pipe is provided in the case). The outlet of the first water circulation pipe 804 is further connected with a drain pipe 803, the drain pipe 803 penetrates through the casing 100, and a first drain control valve 02 is arranged at the drain pipe 803 and is used for controlling the water in the washing compartment 300 to be drained.

The water storage tank 900 is also connected with an external water source through a water inlet pipe, a water inlet control valve 01 is arranged at the position of the water inlet pipe, and a flow detector is arranged at the position of the water inlet pipe; the water storage tank 900 is connected with a spray head 801 at the top of the laundry bin 300 through a sewer pipe, a sewer control valve 04 is arranged on the sewer pipe, and the spray head 801 is a shower head matched with the top structure of the laundry bin 300.

The spray rinsing principle is as follows: fluid water forms normal stress and tangential stress through certain pressure, the fluid forms the velocity of flow under pressure, make the velocity of flow pass fabric fibre fast repeatedly through control system, the fibre forms gentle frictional force, like the effect of rubbing, extrusion, hammering, under the effect of fluid water scrubbing agent, can the spot in the fabric can be taken out completely, (the gondola water faucet shower nozzle can be from the top to the clothing spray and wash, similar raining).

In the stage of spraying the clothes with water flow, the high pressure water pump 802 pumps the water in the washing chamber 300 and conveys the water upwards to the water storage tank 900 through the circulating water pipe, and then the water is sprayed to the clothes in the washing chamber 300 again from the spray header 801 at the top of the washing chamber 300 through the sewer pipe to spray the clothes, so as to achieve the purpose of washing the clothes.

The embodiment further comprises a drying electric heating plate 700, and the drying electric heating plate 700 is arranged between the outlet of the high-pressure airflow fan 501 and the air inlet pipeline. And (5) after washing is finished. The control module controls the drying electric heating plate 700 to be started, the drying electric heating plate 700 can heat the boundary air to about 45 degrees, and under the action of the wind speed, hot air of about 45 degrees enters the washing bin 300 to dry and sterilize clothes in the washing bin 300, so that the purposes of washing, drying, sterilizing and disinfecting the clothes are achieved.

In addition, the washing machine further comprises a washing agent storage cavity 1000, a washing agent inlet 1001 for adding washing agent into the washing agent storage cavity 1000 is arranged on the casing 100, a sealing cap is arranged at the washing agent inlet 1001, and a discharge hole of the washing agent storage cavity 1000 is communicated with the water storage tank 900.

The embodiment further comprises a piston dosing device which is matched with the detergent storage cavity 1000 and used for squeezing detergent in the detergent storage cavity 1000 into the water storage tank 900, the piston dosing device comprises a pressing rod 1003, a reset spring 1007 is sleeved on the pressing rod 1003, two ends of the pressing rod 1003 are respectively connected with a pressing head 1004 and a sealing plug 1005, the shell 100 is provided with a groove matched with the pressing head 1004 and used for containing the pressing head 1004, and the groove is provided with a positioning pressing plate 1006 which is rotatably connected with the shell 100.

By arranging the detergent storage cavity 1000, before clothes are washed, according to the amount of clothes, a proper amount of detergent can be squeezed into the water storage tank 900 by pressing the piston dosing device (finally, the detergent can enter a washing bin along with water in the water storage tank), after the proper amount of detergent is added, the piston dosing device is pressed down, the positioning pressing plate 1006 is rotated at the same time, and the pressing head 1004 is limited in the groove, so that as shown in fig. 3 and 4, the sealing plug 1005 can block a connecting port 1002 between the detergent and the water storage tank, the resetting of the pressing rod 1003 under the action of the reset spring 1007 is avoided, and the water in the water storage tank 900 enters the detergent storage cavity 1000 from the connecting port 1002 between the detergent and the water storage tank.

The control module comprises a control panel 001, an electric control board 002 integrated with a microprocessor, a power button is arranged on the control panel 001, a start/stop button, a parameter setting button, a water quantity setting button and a washing mode setting button, wherein the power button, the start/stop button, the parameter setting button, the water quantity setting button, the washing mode setting button, a signal output end of a flow detector is connected with a signal input end of the microprocessor, and a signal output end of the microprocessor is connected with a display screen, a high-pressure airflow fan, an air inlet control valve, a high-pressure water absorption pump, a first water discharge control valve, a second water discharge control valve, a lower water control valve, a water inlet control valve and a drying electric heating disc. The display screen is embedded in the housing 100 and is used for displaying the current working state of the washing machine and other parameter indications (such as water quantity indication, washing remaining time indication, washing stage indication, etc.).

The parameter setting key can be used for setting standard cleaning parameters, when the standard cleaning parameters are set, the system has default cleaning standards, the power supply is switched on, the start/stop key is pressed, the water quantity and the cleaning mode are not required to be set, the washing machine starts to work according to the set standard mode (the interval duration of circulating water spraying and air spraying is controlled by a program according to different cleaning modes, for example, the standard mode water quantity is 36L after the standard parameters are set, the spraying time of each time of washing is 5min, the air blowing time of each time is 2min, the rinsing is carried out after 3 times of circulating spraying/air blowing, the rinsing and spraying time of each time is 5min, the air blowing time of each time is 2min, the rinsing and spraying/air blowing are carried out after 3 times of circulating, the drying is carried out, and the drying time is 3 min).

During normal use, if the set default standard mode is not adopted, the operation is as follows: the power is switched on, the power button is pressed, the water quantity is set, the washing mode (normal, quick washing, cleaning and the like) is set, and the normal mode is adopted in the embodiment.

In the washing stage, the water inlet control valve 01 is opened (after the water inlet control valve is automatically closed after the water amount in the washing bin 300 reaches a certain amount), the microcontroller controls the high-pressure water suction pump 802 to work, the first water discharge control valve 02 is closed, the second water discharge control valve 03 is opened, the lower water control valve 04 is opened, the water in the washing bin 300 is pumped into the water storage tank 900 through the high-pressure water suction pump 802, then the water is sprayed to the clothes in the washing bin 300 from the spray head 801 at the top of the washing bin 300, and a cyclic spraying stage is started, wherein the cyclic spraying stage is a process of spraying the clothes, when the first spraying time is up, the lower water control valve 04 is closed, the washing water is pumped to the water storage tank 900 by the high-pressure water suction pump 802 for storage, when all the water in the washing bin 300 is pumped to the water storage tank 900, the microcontroller controls the high-pressure water suction pump 802 to be closed, and the high-pressure air flow motor 501 starts to start the water suction pump, The air inlet control valve 05 is opened, outside air enters the washing bin 300 through the air inlet pipeline and enters the air blowing air flow cleaning stage, the air blowing time is up, the microcontroller controls the high-pressure air flow motor 501 to stop, the air inlet control valve 05 is closed, and one washing air blow cleaning is completed (one washing and blowing cycle is formed by one water flow spraying and one air blow cleaning, and one washing and blowing cycle is 7-10 minutes, the system is set according to a program, and the washing and blowing process is repeated for 3-5 times, and the system is controlled by the program according to actual conditions). In this embodiment, after 3 times of circulation of washing air (4 times of spraying, 3 times of purging, spraying-blowing-spraying-discharging), the microcontroller controls the high-pressure airflow motor 501 to be closed, the air inlet control valve 05 to be closed, the second water discharge control valve 03 to be closed, the first water discharge control valve 02 to be opened, the high-pressure water suction pump 802 discharges the washing water in the washing bin 300 from the sewage discharge pipe 803, and after the washing water is discharged, the system enters the rinsing stage.

In the rinsing stage, the microcontroller controls the first water discharge control valve 02 to be closed, the water inlet control valve 01 to be opened (after the preset water amount is reached, the water inlet control valve is automatically closed), when the water amount in the washing bin 300 reaches a certain amount, the microcontroller controls the high-pressure water suction pump 802 to work, the second water discharge control valve 03 is opened, the water discharge control valve 04 is opened, the water in the washing bin 300 is pumped into the water storage tank 900 through the high-pressure water suction pump 802 and then sprayed to the clothes in the washing bin 300 from the spray header 801 at the top of the washing bin 300, when the first spraying time is up, the microcontroller controls the first water discharge control valve 02 to be opened, the rinsing water is pumped out by the high-pressure water suction pump 802 and discharged through the sewage discharge pipe 803, when the water in the washing bin 300 is completely discharged, the microcontroller controls the high-pressure water suction pump 802 to be closed, the high-pressure air flow motor 501 is started, the air inlet control valve 05 is opened, and the outside air enters the washing bin 300 through the air inlet pipe, and (2) entering an air blowing air flow cleaning stage, stopping the high-pressure air flow motor 501 when the air blowing time is up, closing the air inlet control valve 05, and completing one rinsing/air blowing (one rinsing and air blowing cycle is formed by one water flow rinsing and one air blowing cycle, and one rinsing and air blowing cycle is 7-10 minutes, wherein the system repeats the above washing and blowing process for 3-5 times according to the program setting, and is specifically controlled by the program according to the actual situation). In this example, the system enters a drying stage after 3 cycles of rinsing air-blown cycles (4 spraying cycles, 3 purging cycles, spray-drain-blow-spray-drain-blow-spray-drain) and the rinse water of the last rinsing cycle is drained.

In the drying stage, the microcontroller controls the high-pressure water suction pump 802 to stop working, the high-pressure airflow motor 501 to start, the air inlet control valve 05 to open, the first water discharge control valve 02 to open, the drying electric heating plate 700 to start, the drying electric heating plate 700 can heat the outside air to about 45 degrees, under the action of the high-pressure airflow motor 501, the heated hot air of about 45 degrees enters the washing bin 300 through the ventilation pipeline, and the clothes in the washing bin 300 are dried and sterilized, so that the purposes of washing, drying, sterilizing and disinfecting the clothes are achieved.

The utility model discloses break traditional washing machine's washing mode, with the fabric washing by stirring, roll, wash the mode, change into brand-new fluid velocity of flow and separate out the mode, so-called fluid is for rivers, air current, and fluid can have normal stress and tangential stress effect simultaneously under the motion state, obeys newton's internal friction law between the two.

The utility model discloses a high-pressure draught fan 501 and high-pressure water pump 802 that absorbs water, form normal direction stress and tangential stress with fluid (air and water) through certain pressure, the fluid forms the velocity of flow under pressure, pass the fabric fibre through control module messenger's velocity of flow relapse fast, form gentle frictional force, like rubbing and rubbing, the extrusion, the effect of hammering, under the effect of fluid water scrubbing agent, spot in the fabric can be taken out completely, air fluid passes through the fabric repeatedly and can separate out the dirt, can not cause the destruction to the clothing again. After washing, the external air is heated to about 45 degrees by the drying electric heating plate 700, and enters the washing chamber 300 to dry and sterilize the clothes under the action of the high-pressure airflow motor 501, so that the purposes of washing, drying, sterilizing and disinfecting the clothes are achieved.

Example 2

The embodiment 2 is basically the same as the embodiment 1 in technical scheme, and the differences include: the embodiment 2 further comprises an automatic detergent adding module controlled by the microprocessor, wherein the automatic detergent adding module comprises an electromagnetic control valve or a miniature liquid metering pump (for example, the electromagnetic control valve is arranged on a pipeline connecting the detergent storage chamber 1000 and the water storage tank 900, or the miniature liquid metering pump is adopted to automatically add detergent).

As shown in fig. 6-8, example 2 employs a miniature liquid metering pump to automatically add detergent instead of the manual press addition of detergent of example 1. Before washing clothes, the micro-control processor automatically controls the micro-liquid metering pump to pump a proper amount of detergent into the water storage tank 900 according to the water quantity information. The principle of washing and rinsing in example 2 is the same as that in example 1, and only the manner of adding a detergent is different from that in example 1.

Specifically, the embodiment 2 comprises a micro liquid metering pump for delivering the detergent in the detergent storage cavity 1000 to the water storage tank, wherein an inlet of the micro liquid metering pump is communicated with the detergent storage cavity, and an outlet of the micro liquid metering pump is communicated with the water storage tank;

the signal input end of the micro metering liquid pump is connected with the control module; the control module in embodiment 2 includes a control panel, an electric control board integrated with a microprocessor, a power button, a start/stop button, a parameter setting button, a water quantity setting button, a washing mode setting button, a signal output of a flow detector is connected with a signal input end of the microprocessor, and a signal output of the microprocessor is connected with a display screen, a high-pressure airflow fan 501, an air inlet control valve 05, a high-pressure water suction pump 802, a first water discharge control valve 02, a second water discharge control valve 03, a water discharge control valve 04, an air inlet control valve 01, a drying electric heating plate 700 and a micro metering liquid pump 1100.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, and any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a novel washing machine, includes casing (100), inner bag (200), sets up laundry bin (300), the control module in inner bag (200), its characterized in that: the washing machine further comprises an air inlet and exhaust module and a circulating water spraying cleaning module for spraying water to clothes from a spray head (801) above the washing bin (300), wherein the washing bin (300) is provided with an air inlet, an air outlet (305) and a water outlet, the air inlet and exhaust module comprises a high-pressure airflow fan (501) and an air inlet pipeline, and outside air enters the washing bin (300) through the high-pressure airflow fan (501) and the air inlet pipeline to blow off the clothes and then is exhausted to the outside through an exhaust pipe (504); the circulating water spraying cleaning module comprises a high-pressure water suction pump (802) arranged at a water outlet of a washing bin (300), a circulating water pipe and a spray header (801), during a washing stage, water in the washing bin (300) is pumped out by the high-pressure water suction pump (802) and conveyed to a water storage tank (900) through the circulating water pipe, then is sprayed into the washing bin (300) again from the spray header (801) at the top of the washing bin (300) through a sewer pipe, clothes are sprayed, the purpose of washing the clothes is achieved, the circulating water spraying cleaning module further comprises a drain pipe (803) penetrating through a shell (100), the bottom of the circulating water pipe is connected with the drain pipe (803), and a first water discharge control valve (02) is arranged at the drain pipe (803).

2. The new washing machine as claimed in claim 1, characterized in that: the electric heating drying plate is characterized by further comprising an electric drying heating plate (700), wherein the electric drying heating plate (700) is arranged between an outlet of the high-pressure airflow fan (501) and the air inlet pipeline.

3. The new washing machine as claimed in claim 2, characterized in that: the exhaust pipe (504) penetrates through the inside and the outside of the shell (100), the air inlet pipeline comprises a first air inlet pipeline (502) and a second air inlet pipeline (503), the first air inlet pipeline (502) penetrates through the inside and the outside of the shell (100), and the second air inlet pipeline (503) is arranged inside the shell (100); the first end of first air inlet pipe (502) communicates with each other with the external world, the access connection of second end and high-pressure air flow fan (501), the export of high-pressure air flow fan (501) is through second air inlet pipe (503) and the air inlet intercommunication on laundry bin (300), air inlet department on laundry bin (300) is equipped with into air control valve (05), outer air admission gets into laundry bin (300), blow off the clothing after, discharge from the gas vent on laundry bin (300), finally discharge into the external world through exhaust pipe (504).

4. A novel washing machine as claimed in claim 3 wherein: the water storage tank (900) is also connected with an external water source through a water inlet pipe, a water inlet control valve (01) is arranged at the water inlet pipe, and a flow detector is arranged at the water inlet pipe; the water storage tank (900) is connected with a spray header (801) at the top of the washing bin (300) through a sewer pipe, and a sewer control valve (04) is arranged on the sewer pipe; the water storage tank (900) is connected with the second end of the circulating pipe, the first end of the circulating pipe is connected with the outlet of the high-pressure water-absorbing pump (802), and a second water discharge control valve (03) is arranged at one end, close to the water storage tank (900), of the circulating pipe.

5. The novel washing machine as claimed in claim 4, characterized in that: the washing bin (300) is a spherical washing bin or a flat washing bin or a structure with a flat top, a hemispherical bottom or a hemispherical top and a flat bottom.

6. The novel washing machine as claimed in claim 5, characterized in that: the washing bin (300) is a spherical washing bin, the washing bin (300) comprises an upper spherical fluid washing cavity (301), a lower spherical fluid washing cavity (302) and a lower spherical fluid washing cavity (303), the upper spherical fluid washing cavity (301) is connected with an air exhaust port gland (304), and a filter screen (306) is arranged at the water exhaust port of the washing bin (300).

7. The novel washing machine as claimed in claim 6, characterized in that: the spray head (801) is a shower head matched with the top structure of the washing bin (300).

8. The novel washing machine as claimed in claim 7, characterized in that: the detergent filling device comprises a detergent storage cavity (1000), a detergent filling port (1001) used for filling detergent into the detergent storage cavity (1000) is arranged on the shell (100), a discharge port of the detergent storage cavity (1000) is communicated with a water storage tank (900), the detergent filling device also comprises a piston dosing device which is matched with the detergent storage cavity (1000) and used for squeezing the detergent in the detergent storage cavity (1000) into the water storage tank (900), the piston dosing device comprises a pressing rod (1003), two ends of the pressing rod (1003) are respectively connected with a pressing head (1004) and a sealing plug (1005), and a groove which is matched with the pressing head (1004) and used for accommodating the pressing head (1004) is arranged on the shell (100); and a positioning pressure plate (1006) rotatably connected with the shell (100) is arranged at the groove.

9. The novel washing machine as claimed in claim 8, characterized in that: control module includes control panel (001), integrated automatically controlled board (002) that has microprocessor, be equipped with the power button on control panel (001), start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, the power button, start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, flow detector's signal output connects microprocessor's signal input part, microprocessor's signal output connects display screen, high-pressure air flow fan (501), advances water control valve (05), high-pressure water pump (802) that absorbs water, first water control valve (02), second water control valve (03), lower water control valve (04), advances water control valve (01) and stoving electric heating dish (700).

10. The novel washing machine as claimed in claim 7, characterized in that: the washing machine further comprises a washing agent storage cavity (1000), a washing agent adding port (1001) used for adding washing agent into the washing agent storage cavity (1000) is arranged on the shell (100), the washing machine further comprises a micro liquid metering pump used for conveying the washing agent in the washing agent storage cavity (1000) to the water storage tank (900), an inlet of the micro liquid metering pump is communicated with the washing agent storage cavity (1000), and an outlet of the micro liquid metering pump is communicated with the water storage tank (900); the signal input end of the micro metering liquid pump is connected with the control module; control module includes control panel (001), integrated automatically controlled board (002) that has microprocessor, be equipped with the power button on control panel (001), start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, the power button, start/stop the button, the parameter sets up the button, the water yield sets up the button, the washing mode sets up the button, flow detector's signal output connects microprocessor's signal input part, microprocessor's signal output connects display screen, high-pressure air flow fan (501), advances water control valve (05), high-pressure water pump (802) that absorbs water, first water control valve (02), second water control valve (03), lower water control valve (04), advances water control valve (01), stoving electric heating dish (700) and miniature measurement liquid pump (1100).

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