CN104975473A - Sterilizing purification device and washing machine - Google Patents

Abstract

The present invention provides a sterilizing purification device and a washing machine. The sterilizing purification device can prevent dirt components from adhering to a part inside a sterilizing container, wherein, the part contacts with water, and thereby keeping clean of the inner of the sterilizing container and avoiding the sterilizing performance degradation as far as possible. The sterilizing purification device includes the sterilizing containerand an ultraviolet lamp for irradiating ultraviolet lights to the water flowing through the sterilizing container. The part inside the sterilizing container, wherein, the part contacts with the water flowing through the sterilizing container, is provided with an anti-dirt functional part.

Description

Removing other fungus and purifying device and washing machine

Technical field

Embodiments of the present invention relate to a kind of removing other fungus and purifying device and washing machine.

Background technology

Such as in washing machine field, propose a kind of scheme possessing the washing machine of removing other fungus and purifying device.This removing other fungus and purifying device is such as carrying out degerming to water for bathing.By degerming, this water for bathing can be used as the water of washing clothes, or is used as the water of rinsing clothes, can suppress the use amount of running water thus.As this type of removing other fungus and purifying device, known following formation: such as arrange ultraviolet lamp in degerming container, and carry out degerming by ultraviolet lamp to the water for bathing irradiation ultraviolet radiation flowed in degerming container.

At first technical literature

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2004-25072 publication

Patent document 2: Japanese Unexamined Patent Publication 2002-86145 publication

Summary of the invention

Invent technical problem to be solved

But, flow to except containing except miscellaneous bacteria in the water for bathing of degerming container, also containing dirt compositions such as the sebums produced when having a bath.Therefore, removing other fungus and purifying device is after using for many years, and this dirt composition can adhere to and put aside the part contacted with water at the inner peripheral surface etc. of degerming container.Thus, degerming performance can be caused to reduce.

Therefore, the object of the present invention is to provide a kind of removing other fungus and purifying device and washing machine, it can prevent dirt composition from adhering to the part put aside and contact with water in degerming container as far as possible, thus degerming internal tank can be made to keep clean as far as possible, and can prevent degerming performance from reducing as far as possible.

For the scheme of technical solution problem

The removing other fungus and purifying device of present embodiment, is characterized in that possessing: degerming container; And ultraviolet lamp, for the water irradiation ultraviolet radiation flowed through in this degerming container; In the inside of degerming container, the position contacted at the water flowed through in this degerming container is provided with anti-pollution function portion.

In addition, the washing machine of present embodiment, is characterized in that possessing above-mentioned removing other fungus and purifying device.

Thereby, it is possible to obtain a kind of removing other fungus and purifying device and washing machine, it can prevent dirt composition from adhering to the part put aside and contact with water in degerming container as far as possible, degerming internal tank can be made as far as possible to keep clean, and can prevent degerming performance from reducing as far as possible.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the schematic configuration of the washing machine represented based on the first embodiment.

Fig. 2 represents removing other fungus and purifying device, and (a) is vertical profile front view, and (b) is left view.

Fig. 3 represents the cap of side, and (a) is vertical profile front view, and (b) is left view, and (c) is right view.

Fig. 4 is the vertical profile front view of the removing other fungus and purifying device represented based on the second embodiment.

Fig. 5 is the schematic diagram of the schematic configuration of the washing machine represented based on the 3rd embodiment.

Fig. 6 is the vertical profile front view representing removing other fungus and purifying device.

Fig. 7 is the schematic diagram of the schematic configuration of the washing machine represented based on the 4th embodiment.

Description of reference numerals

1: washing machine 4: groove 14: feed water valve

16: pulsating pump 17: removing other fungus and purifying device 26: running water water supply path

27: bathtub (outside retaining source) 27a: water for bathing

30: water for bathing flexible pipe 35: degerming container

41,43: reflecting plate (ultraviolet reflection portion) 45: ultraviolet lamp

50: protection tube 51: degerming room 54: outside retaining source water supply path

55: hydrophilicity film (anti-pollution function portion) 56: repellency energy film (anti-pollution function portion)

58: degerming room 61: circulating pump 64: circulation flexible pipe

65: transfer valve 67: removing other fungus and purifying device 68: degerming container

72: ultraviolet lamp 73: protection tube 75: reflecting plate

76: degerming room 77: antiseptic 78: recirculated water path

Detailed description of the invention

Below, with reference to the accompanying drawings multiple embodiment is described.In addition, in each embodiment, the constituting parts identical to essence gives identical symbol, and omits the description.

(the first embodiment)

Referring to figs. 1 through Fig. 3, the first embodiment is described.First, in FIG, washing machine 1 is the automatic washing machine of so-called vertical axis form, and its shell is made up of outer container 2 and the top cover 3 being arranged on this outer container 2 top.Groove 4 is equipped in outer container 2.Groove 4 is made up of tank 5 and the swivelling chute 6 be housed in this tank 5.Wherein, tank 5 by not shown resilient suspension supporting device flexibly hanger bearing on outer container 2, and can water be stored.Swivelling chute 6, for accommodating washings, plays a role as sink and drench pit.This swivelling chute 6 rotates centered by the fluted shaft 6a of bottom.Fluted shaft 6a has through hole at central portion.Although not shown, but be formed with the dewatering hole of a large amount of through surrounding wall portion in the surrounding wall portion of swivelling chute 6.Bottom in swivelling chute 6, is rotatably equipped with stirring body 7.

In the bottom outside of tank 5, be equipped with the driving mechanism 8 possessing motor for washer and clutch.The through fluted shaft 6a of rotating shaft 8a of the motor for washer in this driving mechanism 8, the top ends of this rotating shaft 8a is provided with stirring body 7.Driving mechanism 8 is configured to: by the switching of clutch, and stirring body 7 and swivelling chute 6 can be driven between the mode of rotation integratedly switch in the mode of independent rotary actuation stirring body 7.In the water discharge outlet 9 of the bottom of tank 5, tube connector 10 is provided with draining valve 11, draining valve 11 is connected with drainpipe 12.Be that under the state of closing, can store water in groove 4, when draining valve 11 is opened, the water in groove 4 will be discharged to machine from water discharge outlet 9 by drainpipe 12 at draining valve 11.

In top cover 3, be equipped feed water valve 14, water injection box 15, for aspirating the pulsating pump 16 and removing other fungus and purifying device 17 etc. of water for bathing.Wherein, feed water valve 14 possesses water inlet 19, respectively as the water supply outlet 20 of delivery port and priming charge outlet 21.Water inlet 19 is connected on the hose of water supply pipe by not shown water supply hose.The top ends of water supply outlet 20 is connected on water injection box 15.The tip portion of priming charge outlet 21 is Liang Ge branch, and a branch is connected on water injection box 15, and another branch is connected on the priming charge entrance 23 of pulsating pump 16 by priming charge tube connector 22.Check-valves 24 is provided with at the pars intermedia of priming charge tube connector 22.This check-valves 24 is configured to: allow water to flow to priming charge entrance 23 side from priming charge outlet 21, but stops water to flow to priming charge outlet 21 side from priming charge entrance 23.Water injection box 15 is connected to the top of tank 5 by water supply pipe 25.

Feed water valve 14 can be switched to service position, priming charge service position and closed condition.Wherein, under service position, water supply outlet 20 is opened, thus, the running water from water supply pipe is fed in groove 4 by water injection box 15, water supply pipe 25.In this case, the water supply outlet 20 of feed water valve 14, water injection box 15, water supply pipe 25 constitute the running water water supply path 26 supplying running water in groove 4.Under priming charge service position, priming charge outlet 21 is opened, thus, a part of running water is fed in pulsating pump 16 via priming charge tube connector 22 as priming charge.Now, a part of running water can be fed in groove 4 by water injection box 15 and water supply pipe 25.In off position, water supply outlet 20 and priming charge outlet 21 are all closed, and running water can not be fed into any side, and becomes water supply halted state.

Pulsating pump 16 for water for bathing 27a stored in the bathtub 27 as the outside retaining source beyond water supply pipe suction is come up, and using pump motor as power source.This pulsating pump 16 possesses water inlet 28, delivery port 29 and priming charge entrance 23.Water inlet 28 is connected with an end of water for bathing flexible pipe 30.The other end of water for bathing flexible pipe 30 is provided with water-holding portion 31, this water-holding portion 31 is inserted in the water for bathing 27a in bathtub 27.When driving pulsating pump 16, the water for bathing 27a in bathtub 27 is sucked into pulsating pump 16 side from water-holding portion 31 via water for bathing flexible pipe 30, and the water for bathing 27a that this is pumped up is discharged from delivery port 29.The delivery port 29 of pulsating pump 16 is connected on the water inlet 34 of removing other fungus and purifying device 17 by tube connector 33.Next, with reference to Fig. 2 and Fig. 3, the structure of this removing other fungus and purifying device 17 is described.

The degerming container 35 of removing other fungus and purifying device 17 is the cylindrical container formed by combination container body 36 and cap 37,37, this vessel 36 is formed as the longer cylindrical shape of transverse direction, and this cap 37,37 is configured to the opening portion at the both ends blocking this vessel 36 length direction.Vessel 36 and two, left and right cap 37 are such as formed by synthetic resin.Multiple positions of the close peripheral part of two caps 37 in left and right are formed with screw insertion hole 38, by screwing in the screw hole of vessel 36 by the screw 39 be inserted in each screw insertion hole 38, these two caps 37 are fixed on the end of vessel 36.The seal member 40 that rubber is made is configured with between vessel 36 and each cap 37.

The inner peripheral portion of vessel 36 is fixedly installed reflecting plate 41.This reflecting plate 41 is that the metallic plate of such as stainless steel is formed as cylindric and parts that are that make, and plays a role as the ultraviolet reflection portion for uv reflectance.In the inner surface side (vessel 36 side) of each cap 37 of left and right, be provided with towards the outstanding protuberance 37a in the inner side of vessel 36 integratedly, the peripheral part of these protuberances 37a is inserted into the inside of vessel 36, and is entrenched in the inside of vessel 36 across reflecting plate 41.The inner side of each protuberance 37a is formed with the recess 42 of ring-type.The reflecting plate 43 in the outside being positioned at recess 42 is fixedly installed in the top ends of each protuberance 37a.This reflecting plate 43 is the same with reflecting plate 41, is also to be formed by the metallic plate of such as stainless steel, and plays a role as the ultraviolet reflection portion being used for uv reflectance.In this case, reflecting plate 43 is formed as the curved surface of concavity.

At the inner surface side central portion of two caps 37 in left and right, be formed with the lamp patchhole 44 of through left and right directions.Ultraviolet lamp 45 is accommodated with in the inside of degerming container 35.This ultraviolet lamp 45 extends along the length direction of degerming container 35, and the both ends of the length direction of this ultraviolet lamp 45 are remained in two caps 37 by the annular seal member 46 be inserted in lamp patchhole 44.Ultraviolet lamp 45 for the ultraviolet of irradiation-sterilize, and has glass tube.The both ends of the length direction of ultraviolet lamp 45 are provided with power supply 47.

Each recess 42 on each cap 37 of left and right accommodates the protection tube holding member 48 be configured with in the form of a ring.These protection tube holding members 48 are such as formed by the elastomeric element of rubber etc., and have the protection tube insertion section 49 of gap (slit) shape.Cylindric protection tube 50 is configured with between the protection tube holding member 48 of left and right.The state that this protection tube 50 is inserted in the protection tube insertion section 49 of left and right with the both ends, left and right of length direction remains in two protection tube holding members 48; further, be configured to ultraviolet lamp 45 in same heart shaped with the state from outside parcel ultraviolet lamp 45 in the inside of degerming container 35.Protection tube 50 be by can make ultraviolet through material, such as PTFE (polytetrafluoroethylene (PTFE)) formed.In the inside of degerming container 35, the reflecting plate 43 by reflecting plate 41, protection tube 50 and left and right surround part space form degerming room 51.

In vessel 36, be positioned at the left lower of Fig. 2 (a), be provided with water inlet 34 downward.Cylindrically, the upper end open portion as its base end part is communicated in degerming room 51 to this water inlet 34.In addition, in vessel 36, be positioned at the right upper portion of Fig. 2 (a), be provided with delivery port 52 upward.Also cylindrically, the lower ending opening portion as its base end part is communicated in degerming room 51 to this delivery port 52.The upper end of delivery port 52 is connected with an end of connecting hose 53, and the other end of this connecting hose 53 is connected to water injection box 15.

In this case, when pulsating pump 16 is actuated to make the water for bathing 27a in bathtub 27 be expelled to tube connector 33 side from delivery port 29, this water for bathing 27a is fed in the degerming room 51 of degerming container 35 inside from the water inlet 34 of removing other fungus and purifying device 17, and flow through in degerming room 51, then be discharged from delivery port 52.Now, if ultraviolet lamp 45 is lighted, then the ultraviolet radiated from ultraviolet lamp 45 will be irradiated to the water for bathing 27a flowed through in degerming room 51 through protection tube 50, and thus, water for bathing 27a is sterilized purification.In addition, the ultraviolet radiated from ultraviolet lamp 45 can be reflected by reflecting plate 41 and 43, and thus, be improved the Ultraviolet radiation efficiency of water for bathing 27a irradiation ultraviolet radiation, removing other fungus and purifying effect is also improved.Therefore, the water for bathing 27a after purifying that is sterilized is discharged to water injection box 15 side from delivery port 52.Then, the water for bathing 27a discharged from water injection box 15 is supplied in groove 4 by water supply pipe 25.

At this, the degerming container 35 of water for bathing flexible pipe 30, pulsating pump 16, tube connector 33, removing other fungus and purifying device 17, connecting hose 53, water injection box 15 and water supply pipe 25 constitute outside retaining source water supply path 54, and this outside retaining source water supply path 54 for supplying as the water for bathing 27a in the bathtub 27 in outside retaining source in groove 4.Therefore, removing other fungus and purifying device 17 is provided in this outside retaining source water supply path 54.

Inner at degerming container 35, at the inner surface of the reflecting plate 41 and 43 towards degerming room 51, be formed with the hydrophilicity film 55 of the example as anti-pollution function portion.This hydrophilicity film 55 is described in detail.Hydrophilicity film 55 be such as the inorganic coating of silicon system etc. is had hydrophilic coating (hereinafter referred to as " hydrophilic material ") spray and be coated on the inner surface of reflecting plate 41,43 formed.

Because reflecting plate 41,43 is metal, therefore, the inner surface of reflecting plate 41,43 sprays hydrophilic material, and is sintered, thus can apply securely.In addition, the sintering temperature of hydrophilic material is preferably set to, and higher than the temperature of the temperature needed for the organic substance decomposing that it has been generally acknowledged that, namely 250 DEG C, such as, is set as 300 DEG C, 500 DEG C such temperature.By sintering hydrophilic material at this high temperature, almost or completely can decompose organic matter contained in hydrophilic material, thus inorganization hydrophilicity film 55 can be formed.

In addition, when applying this material, before base material sprayed on material, the ungrease treatment making substrate surface degreasing to usually be carried out.In the present embodiment, in the ungrease treatment carried out before spraying hydrophilic material, the reflecting plate 41,43 of the alkaline degreasing agent of such as PH14 to the stainless steel as base material can be utilized to carry out degreasing.Therefore, it is possible to spray hydrophilic material again after lubricant component almost or is effectively removed in the surface of the reflecting plate 41,43 as base material, make hydrophilic material surface that is easy and reflecting plate 41,43 affine.

In addition, in the present embodiment, the hydrophilic material at least being formed and there is the hydrophilicity film 55 of following performance is adopted.That is, the hydrophilicity film 55 of present embodiment has the hydrophilicity that water contact angle is less than the lower limit of the water contact angle of glass.It has been generally acknowledged that the lower limit of the water contact angle of glass is 20 degree.Therefore, in the present embodiment, adopt and form water contact angle and be less than 20 degree, be such as the hydrophilic material of hydrophilicity film 55 of 13 degree.

In addition, in the present embodiment, as the hydrophilic material forming hydrophilicity film 55, have employed the material containing Si oxide, the hydrophilicity film 55 formed by this hydrophilic material at least has the hardness property that pencil hardness is more than or equal to 5H.That is, the hydrophilicity film 55 of present embodiment is formed as the strong construction that is made up of so-called siloxane backbone and alkali metal or alkaline-earth metal, and thus, hydrophilicity film 55 has the strong construction that pencil hardness is more than or equal to 5H.

In addition, the hydrophilicity film 55 of present embodiment has silanol group, and its hydrophilicity is high.Specifically, hydrophilicity film 55 has the hydrophilicity of following degree: just can be removed as long as make the common oily ink be attached on hydrophilicity film 55 contact with water.Therefore, even if make common oily ink be attached on hydrophilicity film 55, by making this part contact with water, ink will be made to float because of water, thus be stripped and remove.

In addition, the thickness of the hydrophilicity film 55 of present embodiment is less than or equal to 10 μm, and its thickness is very thin.That is, when usually wanting to improve hydrophilicity, need repeatedly to apply hydrophilic material, therefore, the thickness in the hydrophilicity portion obtained has the trend thickened.Hydrophilic material adopted in the present embodiment, can form the hydrophilicity film 55 with high hydrophilicity by 1 coating and sintering.Therefore, even if repeatedly do not apply hydrophilic material, the hydrophilicity film 55 with high hydrophilicity also can be formed, thereby, it is possible to by the film thickness monitoring of hydrophilicity film 55 in the thinness being less than or equal to 10 μm.In addition, for simplicity, in the accompanying drawings the thickness of hydrophilicity film 55 is represented thicker.

In addition, the so-called surface roughness of hydrophilicity film 55 of present embodiment is less than or equal to 2 μm.In the present embodiment, have employed the hydrophilic material that can form the hydrophilicity film 55 with surface extremely level and smooth like this.In addition, for oyster white under the state of the hydrophilic material that present embodiment adopts before spraying, but become transparent after spray coating, almost do not see oyster white, and become almost or completely transparent after sintering.

On the other hand, at the outer surface of the protection tube 50 towards degerming room 51, be also formed with the repellency energy film 56 of the example as anti-pollution function portion.In this case, the outer surface that the resin material of fluorine system is coated in protection tube 50 by this repellency energy film 56 is formed.The ultraviolet ray transmissivity forming the fluorine resin of repellency energy film 56 is higher, even if be coated in the outer surface of protection tube 50, also can prevent the ultraviolet permeability radiated from ultraviolet lamp 45 from reducing as far as possible.By arranging repellency energy film 56 at the outer surface of protection tube 50, can expect to prevent dirt composition to be attached to the outer surface of protection tube 50.

, although not shown, but be provided with guidance panel and control device on the top cover 3 of washing machine 1 in addition.Control device, according to the operation carried out on guidance panel and the control program be equipped with in advance, possesses the function of ultraviolet lamp 45 etc. controlling driving mechanism 8, draining valve 11, feed water valve 14, pulsating pump 16, removing other fungus and purifying device 17.

The effect of following explanation said structure.

When using washing machine 1 to wash, when using the stroke of water for bathing when user is set in washing or rinsing by guidance panel, as shown in Figure 1, user arranges water for bathing flexible pipe 30.Then, feed water valve 14, before driving pulsating pump 16, is set to priming charge service position by the control device of washing machine 1.Like this, the priming charge outlet 21 of feed water valve 14 is opened, and running water is fed into pulsating pump 16 from priming charge entrance 23 by priming charge tube connector 22 as priming charge.After this, control device drives pulsating pump 16.

After pulsating pump 16 drives, the water for bathing 27a stored in bathtub 27 is come up by pulsating pump 16 suction by water for bathing flexible pipe 30, and the water for bathing 27a that this suction comes up is discharged to tube connector 33 side from delivery port 29.The water for bathing 27a being discharged to tube connector 33 side is fed in the degerming room 51 in degerming container 35 from the water inlet 34 of removing other fungus and purifying device 17.The water for bathing 27a be fed in degerming room 51 flows through, and is discharged to connecting hose 53 side from delivery port 52 in degerming room 51.

Now, ultraviolet lamp 45 is in illuminating state, and the Ultraviolet radiation radiated from ultraviolet lamp 45 is to the water for bathing 27a flowed through in degerming room 51, and water for bathing 27a is sterilized purification thus.In addition, the ultraviolet radiated from ultraviolet lamp 45 can be reflected by reflecting plate 41 and 43, and thus, be improved the Ultraviolet radiation efficiency of water for bathing 27a irradiation ultraviolet radiation, removing other fungus and purifying effect is also improved.Like this, the water for bathing 27a after the purification that is sterilized to be supplied from water supply pipe 25 by connecting hose 53, water injection box 15 from delivery port 52 and is stored into in groove 4, and is used as slurry or rinsing water.

In addition, when using running water when not using water for bathing 27a, feed water valve 14 is set to service position by control device, and thus, running water is supplied in groove 4 by water supply outlet 20, water injection box 15, water supply pipe 25.

Except containing except miscellaneous bacteria in water for bathing 27a, also containing dirt compositions such as the sebums produced when having a bath.Therefore, removing other fungus and purifying device 17 is after using for many years, and this dirt composition is easy to adhere to and puts aside the part contacted with water in the degerming room 51 of degerming container 35 inside.Therewith concomitantly, degerming performance can be caused to reduce.Specifically, if dirt composition adheres to and put aside on the surface of the reflecting plate 41,43 towards degerming room 51, then the ultraviolet reflection efficiency of reflecting plate 41,43 can reduce, and degerming performance also can reduce.In addition, if dirt composition adheres to and puts aside the outer surface at the protection tube 50 towards degerming room 51, then the ultraviolet ray transmissivity of protection tube 50 can reduce, and degerming performance also can reduce.

For this problem; in the present embodiment; because be formed with the hydrophilicity film 55 of hydrophily excellence as anti-pollution function portion at the inner surface of reflecting plate 41,43; and; be formed with the repellency energy film 56 of repellency excellence as anti-pollution function portion at the outer surface of protection tube 50; so the dirt compositions such as sebum are difficult to be attached to the inner surface of these reflecting plates 41,43 and the outer surface of protection tube 50; even if attached to dirt composition; dirt composition is also easy to be stripped due to the water for bathing 27a of flowing, can prevent dirt composition from putting aside thus as far as possible.Thereby, it is possible to make the inside of degerming container 35 keep clean, and can prevent degerming performance from reducing.

In addition, because the reflecting plate 41,43 defining hydrophilicity film 55 is not plastic but metal, so hydrophilic material can be applied by sintering on this reflecting plate 41,43.Thereby, it is possible to height of formation inorganization, firm and there is the hydrophilicity film 55 of durability.

In addition, the water contact angle of hydrophilicity film 55 is less than the lower limit of the water contact angle of glass, and has silanol group.Therefore, hydrophilicity film 55 will play high hydrophilicity.Thus, between the surface that the water capacity is easily immersed in hydrophilicity film 55 and the dirt being attached on hydrophilicity film 55, thus the dirt be attached on hydrophilicity film 55 can be made to float and removed.

In addition, hydrophilicity film 55 has Si oxide, and has the hardness property that pencil hardness is more than or equal to 5H.Therefore, it is possible to prevent the impaired or hydrophilicity film 55 of hydrophilicity film 55 to be stripped.In addition, the thickness of hydrophilicity film 55 is less than or equal to 10 μm, achieves very thin hydrophilicity film 55.Thus, even if form hydrophilicity film 55 on the surface of reflecting plate 41,43, also can prevent ultraviolet reflecting properties from reducing.The surface roughness of hydrophilicity film 55 is less than or equal to 2 μm, achieves extremely level and smooth hydrophilicity film 55.Further, by forming hydrophilicity film 55 on the surface of metal reflecting plate 41,43, the rust-proof effect brought by hydrophilicity film 55 can also be expected.In addition, be provided with the repellency energy film 56 be made up of the resin material of fluorine system at the outer surface of protection tube 50, thus, also there is the advantage that can prevent protection tube 50 from breaking.

(the second embodiment)

Next, with reference to Fig. 4, the second embodiment is described.Compared with above-mentioned first embodiment, this second embodiment has following difference.That is, in removing other fungus and purifying device 17, the protection tube 50 of parcel ultraviolet lamp 45 is not set in the inside of degerming container 35.Therewith concomitantly, the protuberance 37a of the left and right cap 37 of degerming container 35 does not arrange the protection tube holding member 48 shown in Fig. 2 and recess 42.And the top ends being inserted into the seal member 46 in lamp patchhole 44 extends to the top ends of protuberance 37a.In addition, for the reflecting plate 43 of top ends being arranged on protuberance 37a, the inner peripheral portion of reflecting plate 43 extends near seal member 46.

The outer surface of the glass tube of ultraviolet lamp 45 is provided with the repellency energy film 56 of the example as anti-pollution function portion.This repellency energy film 56 is identical with the repellency energy film of the outer surface being formed at protection tube 50, and the outer surface also resin material of fluorine system being coated in the glass tube of ultraviolet lamp 45 is formed.In this case, in the inside of degerming container 35, using the space segment surrounded by the reflecting plate 43 of reflecting plate 41, ultraviolet lamp 45 and left and right as degerming room 58.

And, at the inner surface of reflecting plate 41 and 43, be formed with the hydrophilicity film 55 of the example as anti-pollution function portion in the same manner as the first embodiment.Therefore, in the inside of degerming container 35, being respectively equipped with anti-pollution function portion as the part, the i.e. surface of reflecting plate 41,43 and ultraviolet lamp 45 that contact with the water flowed through in degerming room 58 (water for bathing 27a).

In the second embodiment adopting this structure, the action effect substantially identical with the first embodiment can be obtained, also have the following advantages in addition.Namely, surface due to the glass tube at ultraviolet lamp 45 is formed with the repellency energy film 56 be made up of the resin material of fluorine system, therefore tool has the following advantages: can prevent dirt composition from adhering to and put aside on the surface of ultraviolet lamp 45, and ultraviolet permeability can be maintained, and can prevent the glass tube of ultraviolet lamp 45 from breaking.Therewith concomitantly, the protection tube for the protection of ultraviolet lamp 45 can be saved.

(the 3rd embodiment)

Next, with reference to Fig. 5 and Fig. 6, the 3rd embodiment is described.Compared with above-mentioned first embodiment, the 3rd embodiment has following difference.First, in Figure 5, draining valve 60 is connected with the suction inlet 62 of drainpipe 12 and circulating pump 61.The outlet 63 of circulating pump 61 is connected with the bottom of circulation flexible pipe 64.The other end of circulation flexible pipe 64 extends upward, and is connected on circulation entrance 66 that be arranged at the pars intermedia of tube connector 33, transfer valve 65.The top ends of tube connector 33 is connected on the water inlet 34 of removing other fungus and purifying device 67, will be described removing other fungus and purifying device 67 hereinafter.

Draining valve 60 is configured to changeable one-tenth hull-borne, recurrent state and closed condition.Wherein, under hull-borne, the water in groove 4 is expelled to outside machine by drainpipe 12.Under recurrent state, the water in groove 4 is guided to circulating pump 61 side.In off position, the water in groove 4 can not be expelled to drainpipe 12 side or circulating pump 61 side.

Transfer valve 65 is configured to changeable one-tenth water for bathing water flowing state and recirculated water water flowing state.Wherein, under water for bathing water flowing state, the water for bathing 27a discharged from delivery port 29 when being driven by pulsating pump 16 guides to removing other fungus and purifying device 67 side.Under recirculated water water flowing state, the water being expelled to circulation flexible pipe 64 side from outlet 63 when being driven by circulating pump 61 guides to removing other fungus and purifying device 67 side.

Next, with reference to Fig. 6, removing other fungus and purifying device 67 is described.As shown in Figure 6, the degerming container 68 of removing other fungus and purifying device 67 is made up of vessel 69 and cap 70,71, and this vessel 69 is formed as the longer cylindrical shape of left and right directions, and this cap 70,71 is arranged on the both ends, left and right of this vessel 69.In the cap 70,71 of left and right, the cap 70 in left side is provided with water inlet 34 downward, the cap 71 on right side is provided with delivery port 52 upward.The cap 70,71 of vessel 69 and left and right is formed by the synthetic resin being mixed with antiseptic.

In the inside of degerming container 68, the longer ultraviolet lamp of left and right directions 72 is set in concentric mode and wraps up the protection tube 73 of cylindrical shape of this ultraviolet lamp 72 from outside.The both ends, left and right of these ultraviolet lamps 72 and protection tube 73 are kept respectively by cap 70,71.Ultraviolet lamp 72 has power supply 74 at both ends, left and right.Same with the protection tube 50 of the first embodiment, protection tube 73 be by can make ultraviolet through material, such as PTFE (polytetrafluoroethylene (PTFE)) formed.Reflecting plate 75 is provided with in the inner peripheral portion of vessel 69.Identical with the reflecting plate 41 of the first embodiment, this reflecting plate 75 is also metal, the such as plate of stainless steel are formed as cylindric and parts that are that make, and plays a role as the ultraviolet reflection portion being used for uv reflectance.And the space segment surrounded at the cap 70,71 by this reflecting plate 75, protection tube 73 and left and right forms degerming room 76.

At the inner surface of the reflecting plate 75 towards degerming room 76, be formed with the hydrophilicity film 55 of the example as anti-pollution function portion.In addition, at the outer surface of the protection tube 73 towards degerming room 76, be also formed with the repellency energy film 56 of the example as anti-pollution function portion.And, in degerming room 76, be configured with antiseptic 77 in the position collecting of close water inlet 34.Antiseptic 77 is housed in container 77a that have water permeability, that be made up of sack or box body.

At this, the features such as the constitute and function of antiseptic 77 are described.Antiseptic 77 is formed as a large amount of granular, will gradually stripping antimicrobial component once be immersed in the water, and has and so-calledly delay dissolubility to water, is made up of the metallic element and phosphate glass with antibiotic property.Such as, in the present embodiment, the following material of the antimicrobial component expected by preferred stripping is formed: silver oxide about 3 percentage by weight, zinc oxide about 27 percentage by weight, cobalt oxide about 1 percentage by weight and calcium phosphate about 69 percentage by weight.

In above-mentioned each composition, the silver ion with antibiotic property dissolves in water as antimicrobial component, to play antibacterial effect by silver oxide.Zinc oxide mainly undertakes the function preventing silver oxide overstrike.In addition, though remarkable unlike silver ion, people also recognize that the zinc ion of stripping from this zinc oxide also has antibacterial action, and therefore this zinc oxide also undertakes the function as antimicrobial component.Cobalt oxide for using antiseptic 77 self dye for blue and be added as metal oxide, even if antiseptic 77 also can be dyed distinct blueness by few content.And, phosphate glass as dissolubility glass with phosphate composition (P205) for main component, but, this phosphate composition (P205) have maintain glass the transparency, make silver ion delay effect soluble in water.

In said structure, when utilizing pulsating pump 16 to supply water for bathing 27a in groove 4, draining valve 60 is being set to closed condition and under the state that transfer valve 65 is set to water for bathing water flowing state, pulsating pump 16 is being driven.Like this, aspirate by pulsating pump 16 the water for bathing 27a come up to be fed in the degerming container 68 of removing other fungus and purifying device 67 from water inlet 34 by tube connector 33, transfer valve 65.The water for bathing 27a be fed in degerming container 68 flows through in degerming room 76, after this, to be supplied and be stored in groove 4 by delivery port 52, connecting hose 53, water injection box 15 from water supply pipe 25.

Now, ultraviolet lamp 72 is lighted, the Ultraviolet radiation radiated from ultraviolet lamp 72 is to the water for bathing 27a flowed through in degerming room 76, and water for bathing 27a is sterilized thus.Ultraviolet also can be reflected by reflecting plate 75, is irradiated to water for bathing 27a thus.In addition, be configured with bacteria remover 77 in degerming room 76, water for bathing can contact with antiseptic 77, and therefore, this antiseptic 77 will play antibacterial action.Further, because the vessel 69 and cap 70,71 forming degerming container 68 is formed by the synthetic resin being mixed with antiseptic, therefore, the antibacterial action from this antiseptic can also be expected.

On the other hand, wash time or rinsing time, when the water for bathing making to be supplied in groove 4 or running water are circulated by circulating pump 61, draining valve 60 is being switched to recurrent state and under the state that transfer valve 65 is switched to recirculated water water flowing state, circulating pump 61 is being driven.Like this, the water in groove 4 is inhaled into circulating pump 61 side by draining valve 60, and these water be inhaled into are discharged to circulation flexible pipe 64 side from outlet 63.The water being discharged to circulation flexible pipe 64 side rises in circulation flexible pipe 64, and by transfer valve 65, tube connector 33, then be fed in the degerming room 76 of removing other fungus and purifying device 67 from water inlet 34.The water be fed in degerming room 76 circulates as follows: be sterilized purification in the process by degerming room 76, flows through connecting hose 53, water injection box 15 afterwards, then turn back in groove 4 from water supply pipe 25 from delivery port 52.

Like this, water is circulated by removing other fungus and purifying device 67, and thus, the water of this circulation is by degerming further.At this, the degerming container 68 of groove 4, draining valve 60, circulating pump 61, circulation flexible pipe 64, transfer valve 65, tube connector 33, removing other fungus and purifying device 67, connecting hose 53, water injection box 15 and water supply pipe 25 form the recirculated water path 78 of the water circulation made in groove 4.And, in recirculated water path 78, be equipped with removing other fungus and purifying device 67.Like this, the water in groove 4 carries out circulation time by recirculated water path 78, lights the ultraviolet lamp 72 of removing other fungus and purifying device 67, and thus, the water flowing through degerming room 76 is sterilized purification as described above.

In such embodiment, in removing other fungus and purifying device 67, as the position contacted with water, the i.e. inner surface of reflecting plate 75, the hydrophilicity film 55 of hydrophily excellence is formed as anti-pollution function portion, and be formed with the repellency energy film 56 of repellency excellence as anti-pollution function portion at the outer surface of protection tube 73, therefore, the dirt compositions such as sebum are difficult to be attached to the inner surface of these reflecting plates 75 and the outer surface of protection tube 73, even if attached to dirt composition, dirt composition is also easy to be stripped due to the water for bathing 27a of flowing, can prevent dirt composition from putting aside thus.Thereby, it is possible to make the inside of the degerming container 68 of maintenance keep clean, and can prevent degerming performance from reducing.

In addition, the cap 70,71 of the vessel 69 and left and right that form degerming container 68 is configured to, antiseptic is mixed with in the material of cap 70,71 forming this vessel 69 and left and right, therefore, even when ultraviolet lamp 72 is closed, by the antibacterial action from this antiseptic, also can prevent the part contacted with water at these from producing mould and mucus, the inside and outside maintenance of degerming container 68 also can be made thus to clean.Further, owing to being configured with the antiseptic 77 having and water is delayed to dissolubility in degerming room 76, therefore, even when ultraviolet lamp 72 is closed, by the antibacterial action from this antiseptic 77, also there is the bacteria-eliminating efficacy to water, and also can prevent from producing mould and mucus in the part contacted with water, the inside of degerming container 68 also can be made thus to keep clean.

(the 4th embodiment)

Next, with reference to Fig. 7, the 4th embodiment is described.Compared with above-mentioned 3rd embodiment, the 4th embodiment has following difference.That is, by have to water delay dissolubility antiseptic 77 collecting be configured in the water injection box 15 being arranged in running water water supply path 26.In this case, antiseptic 77 can be configured in the degerming room 76 of removing other fungus and purifying device 67.

In said structure, such as, even if when using running water when final rinsing, by driving circulating pump 61, the water (running water) stored in groove 4 is circulated by recirculated water path 78, thus, can supply containing the water of the antimicrobial component of stripping from the antiseptic 77 be configured in water injection box 15 and be stored in removing other fungus and purifying device 67.Therefore, by the antibacterial action of the water containing this antimicrobial component, the clean effect of the inside keeping degerming container 68 can be expected.

(other embodiments)

In removing other fungus and purifying device 17,67, can arrange photocatalyst in the inside of degerming container, this photocatalyst can be activated after accepting Ultraviolet radiation, thus decomposes dirt composition.

As washing machine, be not limited to the washing machine 1 of vertical axis form, being also applicable to as the rotating shaft of the drum of swivelling chute is horizontal tumbling-box washing machine.

As discussed above, removing other fungus and purifying device according to the present embodiment, at degerming internal tank, the position that the water flowed through in degerming container contacts is provided with anti-pollution function portion, therefore, can prevent dirt composition from adhering to the part put aside and contact with water in degerming container, thus degerming internal tank can be made to keep clean, and can prevent degerming performance from reducing.

Although be illustrated several embodiment of the present invention, these embodiments propose as an example, and not intended to be limits the protection domain of invention.The embodiment of these novelties can be implemented in other various modes, in the scope not departing from invention aim, can carry out various omission, replacement, change.These embodiments or its be out of shape in the protection domain or purport being included in invention, and, be included in invention described in claims and its equivalent protection domain.

Claims (13)

1. a removing other fungus and purifying device, is characterized in that, possesses:

Degerming container; And

Ultraviolet lamp, for the water irradiation ultraviolet radiation flowed through in this degerming container;

In the inside of described degerming container, the position contacted at the water flowed through in this degerming container is provided with anti-pollution function portion.

2. removing other fungus and purifying device according to claim 1, is characterized in that,

Possess the ultraviolet reflection portion for uv reflectance in described degerming container, described anti-pollution function portion is arranged in described ultraviolet reflection portion.

3. removing other fungus and purifying device according to claim 1 and 2, is characterized in that,

Described anti-pollution function portion has hydrophily.

4. removing other fungus and purifying device according to claim 2, is characterized in that,

Described ultraviolet reflection portion is metal,

Described anti-pollution function portion is configured to, and is formed at the surface in described ultraviolet reflection portion, and has hydrophily on the surface in described ultraviolet reflection portion by the material of the inorganic system of sintering.

5. removing other fungus and purifying device according to claim 4, is characterized in that,

The thickness with hydrophilic described anti-pollution function portion is less than or equal to 10 μm.

6. removing other fungus and purifying device according to claim 1 and 2, is characterized in that,

Described anti-pollution function portion has repellency.

7. removing other fungus and purifying device according to claim 6, is characterized in that,

The described anti-pollution function portion with repellency is arranged on the glass tube surface of described ultraviolet lamp.

8. removing other fungus and purifying device according to claim 1 and 2, is characterized in that,

Antiseptic is mixed with in the material forming described degerming container.

9. removing other fungus and purifying device according to claim 1 and 2, is characterized in that,

The antiseptic having and water is delayed to dissolubility is configured with in described degerming container.

10. a washing machine, is characterized in that,

Possesses the removing other fungus and purifying device described in claim 1 or 2.

11. washing machines according to claim 10, is characterized in that,

Possess outside retaining source water supply path, this outside retaining source water supply path is used for the water from the outside retaining source beyond water supply pipe to be supplied to for accommodating in the groove of washings,

Described removing other fungus and purifying device is equipped in the water supply path of described outside retaining source.

12. washing machines according to claim 10, is characterized in that,

In the recirculated water path of the water circulation in the groove of collecting washings, being equipped with described removing other fungus and purifying device for making,

The antiseptic having and water is delayed to dissolubility is configured with in described recirculated water path.

13. washing machines according to claim 10, is characterized in that,

In the recirculated water path of the water circulation in the groove of collecting washings, being equipped with described removing other fungus and purifying device for making,

In the running water water supply path for being supplied to by running water in described groove, be configured with the antiseptic having and water is delayed to dissolubility.