CN211256391U - Full-automatic self-cleaning washing machine - Google Patents

Abstract

A full-automatic self-cleaning washing machine. In the structure of the existing full-automatic washing machine, an inner barrel is arranged in an outer barrel and connected with the outer barrel through a transmission shaft, and a washing machine self-cleaning drying system consisting of a self-cleaning control circuit, a reflection film, a graphene heating film, a power copper thin sealing ring, a sealing pressing strip fixing screw, a sealing pressing strip and a power binding post is additionally arranged. In the process of washing clothes, the washing machine heats the washing water in the inner barrel and the outer barrel by using the heat generated by the graphene heating film, so that the washing degree of the clothes is improved. The self-cleaning washing machine finishes a washing procedure to take clothes out of the inner drum of the washing machine, after the cabinet door of the washing machine is closed, residual moisture on the surfaces of the interlayer of the inner drum and the outer drum of the washing machine is automatically and effectively dried by utilizing heat generated by the graphene heating film, and the interlayer of the inner drum and the outer drum of the washing machine is ensured to be dried, so that various harmful bacteria and peculiar smell are prevented from breeding, and when the washing machine is used for washing the clothes again, the clothes cannot be secondarily polluted.

Description

Full-automatic self-cleaning washing machine

Technical Field

The utility model relates to a full-automatic automatically cleaning washing machine, this kind of full-automatic automatically cleaning washing machine take out the clothing in accomplishing the washing procedure from washing machine bucket, after closing washing machine box door, can dry the remaining moisture content on washing machine inside and outside bucket intermediate layer surface automatically effectively, ensure that washing machine inside and outside bucket intermediate layer is dry to avoid breeding various harmful bacterium and peculiar smell, when washing the clothing once more with washing machine, the clothing just can not by secondary pollution.

Background

At present, the structure of the known full-automatic washing machine is well known in the washing machine industry, and the inner tub of the washing machine is arranged in the outer tub of the washing machine and connected by a transmission shaft for combination. After the washing procedure is accomplished to full-automatic washing machine, there will be some residual moisture content in the interior bucket of washing machine and outer bucket intermediate layer surface, some full-automatic washing machine have set up bucket air-dry function, but must start bucket air-dry procedure alone, the key is that people ignore bucket air-dry function easily, bucket air-dry function rate of utilization is low, bucket air-dry effect is not thorough, because in the washing machine, outer bucket intermediate layer is very dark moist, breed various harmful bacterium and peculiar smell easily, when washing clothing once more with washing machine, interior, the harmful bacterium and the peculiar smell on outer bucket intermediate layer surface will produce secondary pollution to the clothing, there is very big injury to people's health.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects that after the existing full-automatic washing machine finishes a washing program, residual moisture exists on the surface of an interlayer between an inner barrel and an outer barrel of the washing machine, and some full-automatic washing machines are provided with a barrel air drying function, but the barrel air drying program is required to be started independently, the key is that people easily ignore the barrel air drying function, the utilization rate of the barrel air drying function is low, the interlayer between the inner barrel and the outer barrel is dark and moist for a long time, various harmful bacteria and peculiar smell are easily bred, and when the washing machine washes clothes again, the harmful bacteria and the peculiar smell on the surface of the interlayer between the inner barrel and the outer. The utility model provides a full-automatic automatically cleaning washing machine, this kind of full-automatic automatically cleaning washing machine can heat interior bucket and the washing water in the outer bucket when washing the clothing, improve the clean degree to the clothing, take out the clothing in accomplishing the washing procedure from the interior bucket of washing machine, after closing washing machine box door, can be automatically effectively in the washing machine, the moisture content that remains of outer bucket intermediate layer surface dries, ensure in the washing machine, outer bucket intermediate layer is dry, thereby avoid breeding various harmful bacterium and peculiar smell, when washing the clothing once more with washing machine, the clothing just can not be by secondary pollution.

The utility model provides a technical scheme that its technical problem adopted is: in the structure of the existing full-automatic washing machine, an inner barrel is arranged in an outer barrel and connected with the outer barrel through a transmission shaft, and a washing machine self-cleaning drying system consisting of a self-cleaning control circuit, a reflection film, a graphene heating film power copper thin a, a graphene heating film power copper thin b, a power copper thin sealing ring a, a power copper thin sealing ring b, a sealing pressing strip fixing screw, a sealing pressing strip, a power binding post a and a power binding post b is additionally arranged.

The self-cleaning switch K is arranged at the joint of the washing machine box body and the washing machine box body door, when the washing machine box body door is opened, the self-cleaning switch K is disconnected, and when the washing machine box body door is closed, the self-cleaning switch K is closed.

A self-cleaning control circuit is arranged in the structure of the existing full-automatic washing machine, in the self-cleaning control circuit, a power input end 1 pin of a 12V direct current power supply B and one end of a self-cleaning switch K are connected with a washing machine alternating current 220V power supply, the other end of the self-cleaning switch K is connected with a power input end 2 pin of the 12V direct current power supply B, a negative electrode 3 pin and a positive electrode 4 pin of a 12V direct current power supply output end of the 12V direct current power supply B are connected with a power supply of a delay circuit consisting of R, C1, C2, a time base integrated circuit NE555 and a relay J, 8 pins of the time base integrated circuit NE555 are connected with a positive electrode of the 12V direct current power supply, 1 pin is connected with a negative electrode of the 12V direct current power supply, 1 pin of a starting coil 1 pin of the relay J is connected with the 3 pins of the time base integrated circuit NE555, 2 pins are connected with the positive electrode of the 12V direct current, the C, D feet at the other ends of J-1 and J-2 are respectively connected with a power supply terminal a and a power supply terminal b in the barrel drying device.

The structure of the outer barrel of the existing full-automatic washing machine is provided with a barrel drying device which is composed of a reflecting film, a graphene heating film power copper thin a, a graphene heating film power copper thin b, a power copper thin sealing ring a, a power copper thin sealing ring b, a sealing pressing strip fixing screw, a sealing pressing strip, a power wiring terminal a and a power wiring terminal b.

The inner wall of an outer barrel of the existing full-automatic washing machine is provided with a reflecting film, a graphene heating film power copper thin a, a graphene heating film power copper thin b, a power copper thin sealing ring a, a power copper thin sealing ring b, a sealing pressing strip fixing screw and a sealing pressing strip, wherein the reflecting film is arranged between the inner wall of the outer barrel and the graphene heating film, the power copper thin sealing ring a is pressed on the surface of the graphene heating film power copper thin a, the power copper thin sealing ring b is pressed on the surface of the graphene heating film power copper thin b, the sealing pressing strip is pressed at the joint of two ends of the graphene heating film, and the sealing pressing strip fixing screw fixes the sealing pressing strip on the surface of the inner wall of the outer barrel of the washing machine.

A power supply wiring terminal a and a power supply wiring terminal b are arranged on the outer wall of an outer barrel of the existing full-automatic washing machine, two ends of a graphene heating film power copper film a penetrate through the outer barrel of the washing machine to be connected with the power supply wiring terminal a, and two ends of the graphene heating film power copper film b penetrate through the outer barrel of the washing machine to be connected with the power supply wiring terminal b.

When the full-automatic self-cleaning washing machine washes clothes, the box body door of the washing machine is closed, the self-cleaning switch K transmits an alternating current 220V power supply to a power supply input end 2 pin of a 12V direct current power supply B, after power supply input ends 1 and 2 pins of the 12V direct current power supply B are electrified, the 12V direct current power supply B converts an alternating current 220V voltage into a 12V direct current voltage, the 12V direct current voltage is output by a negative electrode 3 pin and a positive electrode 4 pin, and power is supplied to a time delay circuit formed by R, C1, C2, a time base integrated circuit NE555 and a. 8 feet of the time base integrated circuit NE555 are connected with a positive electrode of a 12V direct-current power supply, 1 foot is connected with a negative electrode of the 12V direct-current power supply, 1 foot of a starting coil of the relay J is connected with 3 feet of the time base integrated circuit NE555, 2 feet of the relay J are connected with a positive electrode of the 12V direct-current voltage, R charges C1 at the moment, 3 feet of the time base integrated circuit NE555 are low voltage, potential difference is formed at two ends of the starting coil 1 and 2 feet of the relay J, current is generated in the starting coil of the relay J, switches J-1 and J-2 of the relay J are closed, alternating current 220V power supply of the washing machine is respectively transmitted to a power supply terminal a and a power supply terminal b, and power is supplied to the graphene heating film through a graphene heating film power copper film power supply and a graphene heating. The graphene heating film has the function of converting electric energy into heat energy, and the heat generated by the graphene heating film is utilized to heat the washing water in the inner barrel and the outer barrel, so that the washing degree of clothes is improved. Along with the increase of the charging time of the R pair C1, when the voltages of the pins 2 and 6 of the time base integrated circuit NE555 reach the power supply voltage of 2/3, the voltage of the pin 3 of the time base integrated circuit NE555 is suddenly changed into high voltage, the starting coils 1 and 2 of the relay J lose current, meanwhile, the pins J-1 and J-2 are disconnected, the power supply of the graphene heating film is cut off, and the graphene heating film stops generating heat. After the full-automatic self-cleaning washing machine finishes a washing program, clothes are taken out, the box body of the washing machine is closed, the self-cleaning switch K transmits an alternating current 220V power supply to a power supply input end 2 pin of a 12V direct current power supply B, after power supply input ends 1 and 2 pins of the 12V direct current power supply B are electrified, the 12V direct current power supply B converts an alternating current 220V voltage into a 12V direct current voltage, the 12V direct current voltage is output by a negative electrode 3 pin and a positive electrode 4 pin, and power is supplied to a time delay circuit formed by R, C1, C2, a time base integrated circuit. 8 feet of the time base integrated circuit NE555 are connected with a positive electrode of a 12V direct-current power supply, 1 foot is connected with a negative electrode of the 12V direct-current power supply, 1 foot of a starting coil of the relay J is connected with 3 feet of the time base integrated circuit NE555, 2 feet of the relay J are connected with a positive electrode of the 12V direct-current voltage, R charges C1 at the moment, 3 feet of the time base integrated circuit NE555 are low voltage, potential difference is formed at two ends of the starting coil 1 and 2 feet of the relay J, current is generated in the starting coil of the relay J, switches J-1 and J-2 of the relay J are closed, alternating current 220V power supply of the washing machine is respectively transmitted to a power supply terminal a and a power supply terminal b, and power is supplied to the graphene heating film through a graphene heating film power copper film power supply and a graphene heating. Residual moisture on the surfaces of the interlayer of the inner barrel and the outer barrel of the washing machine is dried by utilizing heat generated by the graphene heating film, and the interlayer of the inner barrel and the outer barrel of the washing machine is ensured to be dry, so that various harmful bacteria and peculiar smell are prevented from breeding, and when the washing machine is used for washing clothes again, the clothes cannot be secondarily polluted. Along with the increase of the charging time of the R pair C1, when the voltages of the pins 2 and 6 of the time base integrated circuit NE555 reach the power supply voltage of 2/3, the voltage of the pin 3 of the time base integrated circuit NE555 is suddenly changed into high voltage, the starting coils 1 and 2 of the relay J lose current, meanwhile, the pins J-1 and J-2 are disconnected, the power supply of the graphene heating film is cut off, the graphene heating film stops generating heat, and the self-cleaning process of the washing machine is finished.

The utility model has the advantages that: the washing machine self-cleaning drying system is formed by adding a self-cleaning control circuit, a reflection film, a graphene heating film power copper thin a, a graphene heating film power copper thin b, a power copper thin sealing ring a, a power copper thin sealing ring b, a sealing pressing strip fixing screw, a sealing pressing strip, a power wiring terminal a and a power wiring terminal b into the structure of the existing full-automatic washing machine. The full-automatic self-cleaning washing machine finishes a washing procedure to take clothes out of the inner drum of the washing machine, after the cabinet door of the washing machine is closed, residual moisture on the surfaces of the interlayer of the inner drum and the outer drum of the washing machine is automatically and effectively dried by utilizing heat generated by the graphene heating film, and the interlayer of the inner drum and the outer drum of the washing machine is ensured to be dry, so that various harmful bacteria and peculiar smell are prevented from breeding, when the clothes are washed by the washing machine again, the clothes cannot be secondarily polluted, and a guarantee is provided for the health of people.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the combination of the inner tub, the outer tub and the transmission shaft of the prior full-automatic washing machine.

Fig. 2 is a schematic view of the combination of the self-cleaning drying system of the washing machine in the fully automatic self-cleaning washing machine and the inner barrel, the outer barrel and the transmission shaft of the existing fully automatic washing machine.

Fig. 3 is a schematic diagram of a self-cleaning control circuit in the fully automatic self-cleaning washing machine of the present invention.

Fig. 4 is a schematic view of the combination of the middle barrel drying device of the full-automatic self-cleaning washing machine and the outer barrel of the existing full-automatic washing machine.

Fig. 5 is a schematic view of the combination of the reflection film and the graphene heating film in the drum drying device of the full-automatic self-cleaning washing machine of the present invention.

In the drawings of fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, 1 is an outer barrel, 2 is an inner barrel, 3 is an outer barrel wall, 4 is an outer barrel inner wall, 5 is an inner barrel interlayer and an outer barrel interlayer, 6 is a transmission shaft, 7 is a graphene heating film, 8 is a graphene heating film power copper film a, 8.1 is a graphene heating film power copper film b, 9 is a reflection film, 10 is a power copper thin sealing ring a, 10.1 is a power copper thin sealing ring b, 11 is a sealing pressing strip fixing screw, 12 is a sealing pressing strip, 13 is a power binding post a, 13.1 is a power binding post b, 14 is a self-cleaning control circuit.

In fig. 3, k is a self-cleaning switch; b is a 12V direct current power supply, pins 1 and 2 of B are input ends of an alternating current 220V power supply, pins 3 and 4 are output ends of a direct current 12V power supply, wherein pin 4 is a positive electrode, and pin 3 is a negative electrode; the resistance value of the R resistor can be adjusted; c1 capacitor, capacity is adjustable; NE555 is a time base integrated circuit; c2 capacitor with capacity of 0.01 uf; j is a relay, pins 1 and 2 of the relay J are starting coils, and J-1 and J-2 are two groups of switches of the relay J respectively.

Detailed Description

In fig. 1, 2, 3, 4 and 5, in the structure of the existing full-automatic washing machine, an inner barrel (2) is installed in an outer barrel (1) and connected by a transmission shaft (6), and a washing machine self-cleaning drying system composed of a self-cleaning control circuit (14), a reflective film (9), a graphene heating film (7), a graphene heating film power copper film a (8), a graphene heating film power copper film b (8.1), a power copper thin sealing ring a (10), a power copper thin sealing ring b (10.1), a sealing pressing strip fixing screw (11), a sealing pressing strip (12), a power binding post a (13) and a power binding post b (13.1) is added.

In fig. 3, a self-cleaning switch K is arranged at the joint of the washing machine box body and the washing machine box body door, when the washing machine box body door is opened, the self-cleaning switch K is turned off, and when the washing machine box body door is closed, the self-cleaning switch K is turned on.

In fig. 3, a self-cleaning control circuit (14) is provided in the structure of the existing full-automatic washing machine, in the self-cleaning control circuit (14), the power input end 1 pin of the 12V dc power supply B and one end of the self-cleaning switch K are connected with the washing machine ac 220V power supply, the other end of the self-cleaning switch K is connected with the power input end 2 pin of the 12V dc power supply B, the negative electrode 3 pin and the positive electrode 4 pin of the 12V dc power supply output end of the 12V dc power supply B are connected with R, C1, C2, the power supply of the delay circuit composed of the time-base integrated circuit NE555 and the relay J, the 8 pin of the time-base integrated circuit NE555 is connected with the positive electrode of the 12V dc power supply, the 1 pin is connected with the negative electrode of the 12V dc power supply, the 1 pin of the starting coil 1 pin of the relay J is connected with the 3 pin of the time-base integrated circuit NE555, the 2 pin, One end of J-2 is connected with an alternating current 220V power supply of the washing machine, and the other ends C, D feet of J-1 and J-2 are respectively connected with a power supply terminal a (13) and a power supply terminal b (13.1) in the barrel drying device.

In FIG. 3, the time for the switches J-1 and J-2 of the electrical appliance J to supply power to the graphene heating film (7) can be set by changing the resistance of R and the capacity of C1.

In fig. 1, 2, 4 and 5, a tub drying device composed of a reflective film (9), a graphene heating film (7), a graphene heating film power copper thin a (8), a graphene heating film power copper thin b (8.1), a power copper thin sealing ring a (10), a power copper thin sealing ring b (10.1), a sealing strip fixing screw (11), a sealing strip (12), a power wiring terminal a (13) and a power wiring terminal b (13.1) is arranged in the structure of an outer tub (1) of a conventional full-automatic washing machine.

In the figures 1, 2 and 4, a reflection film (9), a graphene heating film (7) and a graphene heating film power copper thin film a (8) are arranged on the inner wall (4) of the outer barrel of the prior full-automatic washing machine, the power copper thin sealing ring is characterized in that a graphene heating film power copper thin b (8.1), a power copper thin sealing ring a (10), a power copper thin sealing ring b (10.1), a sealing pressing strip fixing screw (11) and a sealing pressing strip (12) are arranged between an outer barrel inner wall (4) and a graphene heating film (7), the power copper thin sealing ring a (10) is pressed on the surface of the graphene heating film power copper thin a (8), the power copper thin sealing ring b (10.1) is pressed on the surface of the graphene heating film power copper thin b (8.1), the sealing pressing strip (12) is pressed at the joint of two ends of the graphene heating film (7), and the sealing pressing strip (12) is fixed on the surface of the outer barrel inner wall (4) of the washing machine through the sealing pressing strip fixing screw (11).

In fig. 1, 2 and 4, a power terminal a (13) and a power terminal b (13.1) are arranged on an outer wall (3) of an outer barrel of a conventional full-automatic washing machine, two ends of a graphene heating film power copper film a (8) penetrate through the outer barrel of the washing machine to be connected with the power terminal a (13), and two ends of the graphene heating film power copper film b (8.1) penetrate through the outer barrel of the washing machine to be connected with the power terminal b (13.1).

In fig. 2, 4 and 5, the heat generated by the graphene heat generating film (7) is transferred to the inner and outer tub interlayers (5) of the washing machine through the reflection film (9), thereby increasing the temperature of the inner and outer tub interlayers (5) of the washing machine.

In fig. 1, 2, 3, 4, and 5, when the full-automatic self-cleaning washing machine washes clothes, the washing machine cabinet is closed, the self-cleaning switch K supplies ac 220V power to the power input terminal 2 of the 12V dc power supply B, after the power input terminals 1 and 2 of the 12V dc power supply B are powered on, the 12V dc power supply B converts the ac 220V voltage into 12V dc voltage, and outputs the voltage from the negative terminal 3 pin and the positive terminal 4 pin, and supplies power to the delay circuit formed by R, C1, C2, the time-base integrated circuit NE555, and the relay J. 8 feet of the time base integrated circuit NE555 are connected with a positive electrode of a 12V direct-current power supply, 1 foot is connected with a negative electrode of the 12V direct-current power supply, 1 foot of a starting coil of the relay J is connected with 3 feet of the time base integrated circuit NE555, 2 feet of the relay J are connected with a positive electrode of the 12V direct-current voltage, R charges C1 at the moment, 3 feet of the time base integrated circuit NE555 are low voltage, potential difference is formed at two ends of the starting coil 1 and 2 feet of the relay J, current is generated in the starting coil of the relay J, switches J-1 and J-2 of the relay J are closed, a washing machine alternating current 220V power supply is respectively transmitted to a power supply terminal a (13) and a power supply terminal b (13.1), and power is supplied to the graphene heating film (7) through a (8) of a graphene heating film power supply copper film and b (8.1). The graphene heating film (7) has the function of converting electric energy into heat energy, so that the heat generated by the graphene heating film (7) is utilized to heat the washing water in the inner barrel (2) and the outer barrel (1), and the washing degree of clothes is improved. Along with the increase of the charging time of the R pair C1, when the voltages of the pins 2 and 6 of the time base integrated circuit NE555 reach the power supply voltage of 2/3, the voltage of the pin 3 of the time base integrated circuit NE555 is suddenly changed into high voltage, the starting coils 1 and 2 of the relay J lose current, meanwhile, the pins J-1 and J-2 are disconnected, the power supply of the graphene heating film (7) is cut off, and the graphene heating film (7) stops generating heat. After the full-automatic self-cleaning washing machine finishes a washing program, clothes are taken out, the box body of the washing machine is closed, the self-cleaning switch K transmits an alternating current 220V power supply to a power supply input end 2 pin of a 12V direct current power supply B, after power supply input ends 1 and 2 pins of the 12V direct current power supply B are electrified, the 12V direct current power supply B converts an alternating current 220V voltage into a 12V direct current voltage, the 12V direct current voltage is output by a negative electrode 3 pin and a positive electrode 4 pin, and power is supplied to a time delay circuit formed by R, C1, C2, a time base integrated circuit. 8 feet of the time base integrated circuit NE555 are connected with a positive electrode of a 12V direct-current power supply, 1 foot is connected with a negative electrode of the 12V direct-current power supply, 1 foot of a starting coil of the relay J is connected with 3 feet of the time base integrated circuit NE555, 2 feet of the relay J are connected with a positive electrode of the 12V direct-current voltage, R charges C1 at the moment, 3 feet of the time base integrated circuit NE555 are low voltage, potential difference is formed at two ends of the starting coil 1 and 2 feet of the relay J, current is generated in the starting coil of the relay J, switches J-1 and J-2 of the relay J are closed, a washing machine alternating current 220V power supply is respectively transmitted to a power supply terminal a (13) and a power supply terminal b (13.1), and power is supplied to the graphene heating film (7) through a (8) of a graphene heating film power supply copper film and b (8.1). Residual moisture on the surfaces of the inner drum interlayer (5) and the outer drum interlayer (5) of the washing machine is dried by utilizing heat generated by the graphene heating film (7), and the inner drum interlayer (5) and the outer drum interlayer (5) of the washing machine are ensured to be dried, so that various harmful bacteria and peculiar smell are prevented from breeding, and when the washing machine is used for washing clothes again, the clothes cannot be secondarily polluted. Along with the increase of the charging time of the R pair C1, when the voltages of the pins 2 and 6 of the time base integrated circuit NE555 reach the power supply voltage of 2/3, the voltage of the pin 3 of the time base integrated circuit NE555 is suddenly changed into high voltage, the starting coils 1 and 2 of the relay J lose current, meanwhile, the pins J-1 and J-2 are disconnected, the power supply of the graphene heating film (7) is cut off, the graphene heating film (7) stops generating heat, and the self-cleaning process of the washing machine is finished.

In fig. 2, 3, 4 and 5, the structures of the 12V dc power supply B and the graphene heating film (7) are well known in the related industry, and the structure and principle of the present invention are not described and identified in detail in the description and the drawings of the description, but the connection relationship between the graphene heating film and the related circuit is described and identified in detail in the present invention.

In fig. 1, fig. 2 and fig. 4, since the structure of the existing full-automatic washing machine is well known in the washing machine industry, for the sake of simplifying the description and the description drawings, the present invention only describes and identifies the partial structure of the existing full-automatic washing machine in the description and the description drawings, but describes and identifies the whole structure of the self-cleaning drying system of the full-automatic washing machine in detail.

Claims (2)

1. The utility model provides a full-automatic automatically cleaning washing machine, interior bucket are installed and are connected by the transmission shaft in outer bucket, with automatically cleaning control circuit, reflectance coating, graphite alkene heating film power copper thin a, graphite alkene heating film power copper thin b, power copper thin sealing washer an, power copper thin sealing washer b, sealing depression bar fixed screw, sealing depression bar, power terminal a, the washing machine automatically cleaning drying system combination that power terminal b constitutes, characterized by: in the self-cleaning control circuit, a power input end 1 pin of a 12V direct current power supply B and one end of a self-cleaning switch K are connected with an alternating current 220V power supply of the washing machine, the other end of the self-cleaning switch K is connected with a power input end 2 pin of the 12V direct current power supply B, a negative electrode 3 pin and a positive electrode 4 pin of a 12V direct current power supply output end of the 12V direct current power supply B are connected with a power supply of a delay circuit consisting of R, C1, C2, a time-base integrated circuit NE555 and a relay J, 8 pins of the time-base integrated circuit NE555 are connected with a positive electrode of the 12V direct current power supply, 1 pin is connected with a negative electrode of the 12V direct current power supply, a starting coil 1 pin of the relay J is connected with the 3 pins of the time-base integrated circuit NE555, 2 pins are connected with the positive electrode of the 12V direct current power supply, one ends of switches J-, C, D feet at the other end of J-2 are respectively connected with a power terminal a and a power terminal b in a barrel drying device, a reflective film, a graphene heating film power copper thin a, a graphene heating film power copper thin b, a power copper thin sealing ring a, a power copper thin sealing ring b, a sealing strip fixing screw and a sealing strip are arranged on the inner wall of an outer barrel of the washing machine, the reflective film is arranged between the inner wall of the outer barrel and the graphene heating film, the power copper thin sealing ring a is pressed on the surface of the graphene heating film power copper thin a, the power copper thin sealing ring b is pressed on the surface of the graphene heating film power copper thin b, the sealing strip is pressed at the joint of the two ends of the graphene heating film, the sealing strip fixing screw fixes the sealing strip on the surface of the inner wall of the outer barrel of the washing machine, the outer wall of the outer barrel of the washing machine is provided with, two ends of the graphene heating film power copper foil a penetrate through the outer barrel of the washing machine to be connected with the power wiring terminal a, and two ends of the graphene heating film power copper foil b penetrate through the outer barrel of the washing machine to be connected with the power wiring terminal b.

2. The fully automatic self-cleaning washing machine as claimed in claim 1, wherein: the joint of the washing machine box body and the washing machine box body door is provided with a self-cleaning switch K.

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