CN101597915A - Spray nozzle device and have the hygienic washing device of this spray nozzle device - Google Patents

Abstract

The invention provides a kind of spray nozzle device and have the hygienic washing device of this spray nozzle device.Because of the internal diameter of contracted flow portion reduces continuously towards cylindric volute chamber, so the flow velocity of the clean water that flows in contracted flow portion rises continuously.Because of the internal diameter of contracted flow portion reduces continuously towards squit hole, so the flow velocity of the clean water that flows in contracted flow portion rises continuously.The clean water of supplying with a runner of two flow-path tubes is supplied with the runner fluidic junction after flowing through a flow-path tube.The clean water of supplying with another runner of two flow-path tubes is supplied with the runner fluidic junction after flowing through space between a flow-path tube and the nozzle casing.Spatially spiral shape ground rotation between the clean water of cleaning the hole ejection from nozzle is cleaned tube at nozzle along the outer peripheral face of piston inwall and the outer peripheral face of piston and a front end opening outflow of cleaning tin from nozzle.Form the fixed-site sheet that has along the curve form of the inner face of the leading section of nozzle casing at the leading section of runner fluidic junction.During moving to the rear position from anterior position, disperse at the buttocks nozzle rotating flow and linear flow alternately to spray.

Description

Spray nozzle device and have the hygienic washing device of this spray nozzle device

Patent application of the present invention is that international application no is PCT/JP2004/006066, international filing date is on April 27th, 2004, the application number that enters the China national stage is 200480011026.0, and name is called the dividing an application of application for a patent for invention of " spray nozzle device and have the hygienic washing device of this spray nozzle device ".

Technical field

The present invention relates to hygienic washing device that the part of human body is cleaned.

Background technology

In the hygienic washing device that the part of human body is cleaned, projecting to the nozzle ejection of cleaning the position from reception position and clean water and clean by spray nozzle device.

In such spray nozzle device, the leading section of nozzle is cleaned water near the local and ejection of human body when cleaning action.This occasion, foul sticks on the nozzle sometimes when cleaning, and therefore the motion of the various functions that pair nozzle cleans is arranged.

As the function that nozzle is cleaned, for example, can enumerate by nozzle and clean clean (for example, with reference to the Japanese patent laid-open 11-193567 communique) that nozzle carries out.This occasion, carry out body local clean action before or after, flow to nozzle and to clean water, can clean the foul that sticks to nozzle itself.Thus, the user can utilize from the clean water of the nozzle ejection of cleaning the part is cleaned.

But, exist the foul in the step that sticks to nozzle surface, groove, the gap etc. is difficult for the problem cleaned.

If with the nozzle-integrated cover that puts, nozzle is maximized for the step of eliminating nozzle surface, groove, gap etc.In order to make the hygienic washing device compactness, need make the spray nozzle device miniaturization.

As other examples of the function that nozzle is cleaned, there is a kind of leading section that the motion (for example, opening the 2003-13481 communique with reference to the Japan Patent spy) of the hygienic washing device of cleaning chamber, the clean water of ejection is set at nozzle.

Have in the hygienic washing device of cleaning chamber, the clean water that sprays in cleaning chamber is rebounded by the inwall of cleaning chamber, cleans with this leading section to nozzle.This occasion is only cleaned water to the leading section ejection of nozzle, only can carry out local cleaning.

On the other hand, in the hygienic washing device of cleaning body local, the various functions cleaned of realization based on user's hobby have been proposed.For example, in order to realize, be provided with the function (for example, opening the 2001-90155 communique) of regulating to from the ejection form of the clean water of nozzle ejection with reference to the Japan Patent spy based on the cleaning of user hobby.

Adopt above-mentioned document, the user can regulate from the ejection form of the clean water of nozzle ejection according to the hobby of oneself.

The spray nozzle device of putting down in writing in the above-mentioned document has the rotation that is communicated with drain hole and gives chamber, eccentric pipeline and axle center sensing pipeline.Eccentric pipeline is given chamber off-centre with rotation and is communicated with, and makes clean water flow into rotation and gives the chamber.This occasion flows into rotation and gives the clean water of chamber and become rotating flow and spray from drain hole.The axle center is pointed to pipeline and is communicated with it to point to the form of rotating the axle center of giving the chamber, makes clean water flow into rotation and gives the chamber.This occasion, the clean water that the chamber is given in the inflow rotation can not get revolving force, sprays from drain hole.

Regulate with the ratio of the flow of the clean water of supplying with point tube road, axle center by flow, can be rotated the change of power size and the width of the scope of cleaning and set the clean water of supplying with eccentric pipeline.

But, in the above-mentioned spray nozzle device in the past, point to pipeline from the axle center and give the chamber by rotation and be subjected to big flow resistance from the clean water of drain hole ejection in the rotation chamber of giving and produce the pressure loss.Therefore, the flow velocity from the clean water of drain hole ejection descends.In addition, in above-mentioned hygienic washing device, to compare the density of cleaning water near the central portion of the clean water that sprays from the nozzle helical form and the peripheral part low (coniform).Therefore, the possibility that exists the part of body local fully to clean.

The soft clean sense that the user generally likes the rotating flow of strong clean sense that linear flow brings and diffusion to bring.Therefore, the hygienic washing device that need can spray the big linear flow of flow velocity efficiently and can integrally clean to body local.In order to realize the densification of hygienic washing device, need the miniaturization of spray nozzle device.

Summary of the invention

The object of the present invention is to provide a kind of clean easily the foul that adheres to and can spray efficiently clean water, simultaneously reliability height, Miniaturizable spray nozzle device and have the hygienic washing device of this spray nozzle device.

Another object of the present invention is to provide a kind of with simple structure can fully guarantee human body clean nozzle hygienic state spray nozzle device and have the hygienic washing device of this spray nozzle device.

Another purpose of the present invention be to provide a kind of can according to selections such as user's hobby and physical condition clean water the ejection form and can be to body local carry out the hygienic washing device fully cleaned on a large scale.

The spray nozzle device of technical scheme 1 of the present invention comprises: the squit hole of water is cleaned in ejection; Formation will be cleaned the pipeline that water is directed to the 1st runner of squit hole; Have squit hole, be arranged to surround pipeline and by the integrally formed cover member of metal of the tubular of leading section sealing, pipeline will be cleaned the 2nd runner that water is directed to squit hole with the space formation between the cover member.

In this spray nozzle device, by covering pipeline with the integrally formed cover member of the metal of the tubular of leading section sealing.Therefore, foul is difficult for sticking on the nozzle surface, also cleans easily even adhere to foul.

In addition, the cover member is formed by metal, so the cover component surface has gloss.Therefore, the user can feel a kind of clean feel.In addition, the cover member is formed by metal, can not absorb by the quilt cover member so clean the pressure of water.Therefore, can will clean water sprays efficiently.

And, form the 1st runner by pipeline, form the 2nd runner by the space between pipeline and the cover member.By the such cover member and the double-sleeve structure of pipeline, can in the cover member of minor diameter, form the 1st and the 2nd runner.Therefore, can realize the miniaturization of spray nozzle device.

Spray nozzle device also can have the ejection member, and this ejection member has hole portion, and makes after the 1st runner clean water of supplying with and the clean water of supplying with from the 2nd runner converge and be directed to hole portion.

This occasion in the ejection member, is converged the back from the 1st runner clean water of supplying with and the clean water of supplying with from the 2nd runner and is sprayed from hole portion.Therefore, the ratio of the clean water yield by regulating the 1st runner and the clean water of the 2nd runner can change the ejection form of cleaning water.In addition, the 1st runner and the 2nd runner all are accommodated in the cover component inside, keep fluid pressure by the cover member.And the pressure differential of the 1st runner and the 2nd runner is little, and fluid pressure is by the maintenance of cover member, so do not require air tightness.

The ejection member forms one and distolaterally has peristome and another a distolateral ejection space with hole portion, it is side directed to the ejection space from peristome that the 1st runner will be cleaned water, it is side directed to the ejection space from periphery that the 2nd runner will be cleaned water, the sectional area that the ejection space can have from peristome to the hole portion stage ground or reduce continuously.

This occasion is supplied with clean water by the 1st runner from the peristome side in ejection space.The sectional area in ejection space is ground or reduce continuously from peristome to the hole portion stage, so from clean water stage ground that the peristome side is supplied with or make the flow velocity increase continuously and spray from hole portion.This occasion cleans water and flow into towards hole portion from the peristome with big sectional area in the ejection space, and clean water only is subjected to from the resistance that sprays the space inner peripheral surface, so the pressure loss is little.Therefore, can spray the high linear flow of flow velocity efficiently from hole portion.

Supply with clean water by the 2nd runner from the circumference in ejection space.Thus, clean water and flow, thereby be endowed revolving force, spray while spread as rotating flow from hole portion along the inner peripheral surface in ejection space.This occasion, clean water is not subjected to the resistance from the peristome side, only is subjected to the resistance from inner peripheral surface, so the pressure loss is little.Therefore, rotating flow can spray from hole portion efficiently.

And the ejection space has the little structure of the pressure loss, so need not increase the sectional area of runner in order to reduce the pressure loss.Therefore, can realize the miniaturization of spray nozzle device.

The ejection space comprises the 1st space with the 1st internal diameter, has the 2nd space of 2nd internal diameter littler than the 1st internal diameter and has the 3rd space of 3rd internal diameter littler than the 2nd internal diameter from peristome side to hole portion side, can supply with the 2nd space from the clean water that the guiding of the 2nd runner comes.

This occasion, clean water are not subjected to the resistance from the peristome side in the 2nd space, only are subjected to the resistance of inner peripheral surface, so the pressure loss is little.Therefore, rotating flow can spray from hole portion efficiently.

The 2nd space is cylindric space, can supply with along the inner peripheral surface in cylindric space from the clean water that the guiding of the 2nd runner comes.

This occasion, the clean water that is supplied to the 2nd space from the 2nd runner produces rotating flow efficiently.Therefore, the clean glassware for drinking water that sprays from hole portion has the diffusion angle, and the user can obtain soft clean sense.

The axle of the 2nd runner also can be towards the inboard of the circumferential wall in cylindric space, does not have the most peripheral of the vortex of vorticity to discharge so that clean water in from the 2nd runner towards cylindric space.

This occasion, the clean water of supplying with cylindric space from the 2nd runner can not upset the VELOCITY DISTRIBUTION of the rotating flow that flows in cylindric space.Therefore, the clean water in the cylindric space is rotated efficiently.

The 1st space also can have the internal diameter that reduces continuously from peristome to the 2 spaces.This occasion, the clean water that flows in the 1st space can make flow velocity increase continuously and spray from hole portion.In addition, the loss of the runner in the 1st space reduces, and the pressure loss of cleaning water reduces.Therefore, clean that the flow of water of water when hole portion spray increases and efficiently.

The 3rd space also can have the internal diameter that reduces continuously to hole portion from the 2nd space.This occasion, the clean water that flows in the 3rd space can make flow velocity increase continuously and spray from hole portion.In addition, the loss of the runner in the 3rd space reduces, and the pressure loss of cleaning water reduces.Therefore, clean that the flow of water of water when hole portion spray increases and efficiently.

But 2 times～5 times of the internal diameter hole portion internal diameter in cylindric space.This occasion can reduce the runner loss and also can improve from the flow velocity of the clean water of hole portion ejection.

The sectional area of the peristome in the comparable ejection of the sectional area of the 1st runner space is big.This occasion reduces in the pressure loss of the clean water of the 1st flow passage.Therefore, clean water and before the peristome that flows into the ejection space, can keep high pressure.

Squit hole forms near the circumferential wall part the front end of cover member, and the ejection member can insert the front end in the cover member.This occasion, the clean water that sprays from the ejection member sprays near the squit hole the front end of cover member.

The leading section of cover member is roughly hemispherical.This occasion, foul are difficult for sticking to spray nozzle front end.And the foul of easy flushing adhesion.Therefore, can guarantee the cleaning of spray nozzle device.

But metal stainless steel.This occasion by the antibiotic property that stainless steel had, can suppress to stick to the bacterial reproduction on the cover member.

The cover member also can be processed to form by deep-draw.This occasion, the smooth surface of cover member is difficult for adhering to foul.And the surface of cover member has gloss, and the user feels clean feel.

Near the part of the circumferential wall the front end of cover member forms has tabular surface, and squit hole can form on tabular surface.This occasion is by the fixing position that sprays the circumferencial direction of member of tabular surface.Therefore, the clean water that sprays from hole portion can not collide with squit hole, can not hinder the ejection of cleaning water.

Squit hole can have the internal diameter bigger than hole portion.This occasion, the clean water that sprays from hole portion can not collide with squit hole, can not hinder the ejection of cleaning water.

The ejection member can have the location division of inner face butt with the leading section of cover member, so that hole portion locatees with respect to squit hole.This occasion, because the inner face butt of the leading section of location division and cover member, so the position of the fore-and-aft direction of ejection member is fixed.Thereby can not collide with squit hole from the clean water of hole portion ejection, can not hinder the ejection of cleaning water.

The location division comprises the 1st par that is formed at the cover member, the 2nd par that is formed at the ejection member, can make the 2nd par of ejection member and the 1st par of cover member relatively pipeline be inserted the cover member.

This occasion, relative by the inner face that makes the 1st par that is formed at the cover member with the 2nd par that is formed at the ejection member, thus obtain the location on the circumferencial direction of ejection member in the cover member.Thus, can prevent of the dislocation of hole portion with respect to squit hole.Consequently, can prevent dispersing of the clean water that causes with respect to squit hole dislocation because of hole portion.

Because as long as with just hole portion automatically being located with respect to squit hole in the pipeline insertion cover member, so make positioning operation become easy.

Spray nozzle device also can have carrying out the containment member of the ring-type of water-stop between the cover member around ejection member around the portion of hole and the squit hole.

This occasion, the clean water of the 1st runner can not flow out from squit hole by the gap between ejection member and the cover member.Even the front end at spray nozzle device is stained with foul, foul can directly not enter the 1st runner by the gap between ejection member and the cover member from squit hole yet.And when even the foul that enters from squit hole enters hole portion, foul also can be discharged immediately from the clean water of hole portion ejection.Therefore, can remain the cleaning of spray nozzle device inside.

The location division can comprise the leading section that is arranged on the ejection member, with the front end abutting part of inner face butt of the leading section of cover member.

This occasion, by making the inner face butt of front end of front end abutting part and cover member, the ejection member is axially obtaining the location in the cover member.Thus, can prevent of the dislocation of hole portion with respect to squit hole.Consequently, can prevent dispersing of the clean water that causes with respect to squit hole dislocation because of hole portion.

The location division can comprise be located at the ejection member, with the side face abutting part of inner peripheral surface butt of cover member.

This occasion, by making the side face abutting part of being located at the ejection member and the inner face butt that covers member, the ejection member obtains the location at circumferencial direction in the cover member.Thus, can prevent of the dislocation of hole portion with respect to squit hole.Consequently, can prevent dispersing of the clean water that causes with respect to squit hole dislocation because of hole portion.

The location division can comprise the holding section of the rearward end of being located at the cover member, the portion that is stuck that is located at the pipeline rearward end and engages with the holding section.

This occasion, the portion that is stuck by being located at the pipeline rearward end and be located at the engaging of holding section of the rearward end of cover member, the ejection member obtains the location at circumferencial direction in the cover member.Thus, can prevent of the dislocation of hole portion with respect to squit hole.Consequently, can prevent dispersing of the clean water that causes with respect to squit hole dislocation because of hole portion.

The hygienic washing device of other technologies scheme of the present invention will spray to human body from the clean water that water-supply source is supplied with, and it comprises: the water booster system that the clean water of supplying with from water-supply source is pressurizeed; Spray nozzle device; Clean water after will being pressurizeed by water booster system is the 1st runner and the side in the 2nd runner or both sides' the path selection device of supply nozzle device selectively, and spray nozzle device comprises: the squit hole of water is cleaned in ejection; Formation will be cleaned the pipeline that water is directed to the 1st runner of squit hole; Have squit hole, by the integrally formed cover member of metal of tubular that surrounds the sealing of pipeline and leading section, pipeline will be cleaned the 2nd runner that water is directed to squit hole with the space formation between the cover member.

In this hygienic washing device, the clean water feed path selecting arrangement after water booster system pressurization, the clean water of feed path selecting arrangement is supplied with a side or both sides in the 1st runner and the 2nd runner selectively by path selection device.

In spray nozzle device, by covering pipeline with the integrally formed cover member of the metal of the tubular of leading section sealing.Therefore, foul is difficult for sticking on the nozzle surface, also cleans easily even adhere to foul.

In addition, the space between pipeline and the cover member so do not need to reset runner, can make the spray nozzle device miniaturization as the runner of cleaning water.Consequently can make the hygienic washing device miniaturization.

Path selection device can comprise the flow regulator of the flow-rate ratio of regulating the clean water of supplying with the 1st runner and the 2nd runner.

This occasion, the flow-rate ratio that can regulate the clean water that flows in the 1st runner and the 2nd runner by flow regulator.Therefore, can regulate from the diffusion angle of the clean water of squit hole ejection.

Hygienic washing device also can have the clean water heating of supplying with from water-supply source and the heater of supply water booster system, while heater can be that the clean water of supplying with from water-supply source is flowed to the moment formula heater of its heating.

This occasion, while by moment the formula heater make and clean water and flow and be heated.Therefore, can only when hygienic washing device uses, heat, can be suppressed at Min. consuming electric power to cleaning water.

The spray nozzle device of another technical scheme of the present invention comprises: have the clean nozzle of human body that body local is sprayed the tubular of the squit hole of cleaning water; Nozzle with roughly inner peripheral surface cylindraceous of the outer peripheral face that surrounds the clean nozzle of human body is cleaned member, human body is cleaned nozzle and is arranged to be accommodated in nozzle and cleans in the member and can to clean member from nozzle outstanding, and it is to have to import outer peripheral face that human body cleans nozzle and nozzle and clean in the annulus between the inner peripheral surface of member and make its helical form rotate the structure of the clean water entrance hole of usefulness cleaning water that nozzle is cleaned member.

In this spray nozzle device, clean nozzle to the clean water of body local ejection by human body.In addition, in the annulus of cleaning between the inner peripheral surface that clean water entrance hole that water cleans member from nozzle imports outer peripheral face that human body cleans nozzle and the clean member of nozzle, and rotate at annulus inside spin shape.Thus, human body is cleaned can both being cleaned effectively of nozzle outer peripheral face on a large scale.Thereby can guarantee fully that human body cleans the hygienic state of nozzle.

In addition, import outer peripheral face that human body cleans nozzle and nozzle and clean and carry out human body in the annulus between the inner peripheral surface of member and clean the clean of nozzle by cleaning water, so simple in structure.

Human body is cleaned nozzle and can be comprised: the cylinder body portion with inner peripheral surface cylindraceous; Can be accommodated in the cylinder body portion and can be from cylinder body portion outstanding and leading section have the piston portion cylindraceous of squit hole, nozzle is cleaned member and is arranged in piston portion and is accommodated under state cylinder body portion in and surrounds near the leading section of piston portion, and piston portion is installed in the cylinder body portion in the clean member of nozzle swingably.

This occasion, in human body is cleaned nozzle, in the cylinder body portion that piston portion cylindraceous is accommodated in have inner peripheral surface cylindraceous, and outstanding from cylinder body portion.Thus, can realize saving the space.

When piston portion is accommodated in the cylinder body portion, is cleaned member by nozzle near the piston portion leading section and surround, leading section can be swung in nozzle is cleaned member simultaneously.

Thus, import outer peripheral face that human body cleans nozzle and nozzle when cleaning in the annulus between the inner peripheral surface of member with cleaning water from cleaning the water entrance hole, piston portion swing in cylinder body portion and by the clean water that helical form is rotated leading section to be obtained clean fully.Therefore, sticking near the foul of piston portion can obtain effectively cleaning.

Piston portion can comprise: formation will be cleaned the pipeline that water is directed to the 1st runner of squit hole; Have squit hole, be arranged to surround form between pipeline and leading section sealing and the pipeline and will clean the cover member of tubular that water is directed to the 2nd runner of squit hole; Be arranged on the front end of pipeline and have hole portion, make from being directed to the ejection member of hole portion after the 1st runner clean water of supplying with and the clean water of supplying with from the 2nd runner converge.

This occasion, in piston portion, make clean water be directed to squit hole by the pipeline that forms the 1st runner, the cover member of the tubular by forming the 2nd runner will and pipeline between clean water be directed to squit hole, by being located at the pipeline front end and having the ejection member of hole portion, after being converged, the clean water of the clean water supplied with from the 1st runner and the supply of the 2nd runner is directed to hole portion.

By the such cover member and the double-sleeve structure of pipeline, can in the cover member of minor diameter, form the 1st and the 2nd runner.Therefore, can realize the miniaturization of spray nozzle device.

Cleaning the water entrance hole can be arranged to the clean water that distributing nozzle is cleaned in the member is cleaned the outer peripheral face of nozzle to roughly tangential direction ejection for human body.

This occasion is cleaned the outer peripheral face of nozzle to roughly tangential direction ejection by the clean water of cleaning in the clean member of water entrance hole distributing nozzle for human body.Thus, can clean the outer peripheral face rotation on every side of nozzle in the flow velocity of clean water when not damaging ejection efficiently at human body.

When the clean nozzle of human body was taken in, human body was cleaned the leading section of nozzle and can be given prominence to from the clean member of nozzle.The clean water that this occasion, distributing nozzle are cleaned in the member flows out towards the outside along the leading section of the clean nozzle of human body by wall attachment effect, disperses towards the top that human body is cleaned nozzle so can prevent the clean water that flows out.Here, wall attachment effect is meant that when placing object in the fluid that flows fluid can be along the mobile character of this object.

The hygienic washing device of another technical scheme of the present invention will spray to human body from the clean water that water-supply source is supplied with, and it comprises: spray nozzle device; The human body of cleaning water supply nozzle device is cleaned the 1st of nozzle clean water feeder; The 2nd clean water feeder of the clean water entrance hole of water supply nozzle device will be cleaned; Heater to the clean water of supplying with from water-supply source carries out moment formula heating makes heated clean water become steam by heater, and spray nozzle device comprises: have the clean nozzle of human body that body local is sprayed the tubular of the squit hole of cleaning water; Nozzle with roughly inner peripheral surface cylindraceous of the outer peripheral face that surrounds the clean nozzle of human body is cleaned member, human body is cleaned nozzle and is arranged to be accommodated in nozzle and cleans in the member and can to clean member from nozzle outstanding, and it is to have to import outer peripheral face that human body cleans nozzle and nozzle and clean in the annulus between the inner peripheral surface of member and make its helical form rotate the structure of the clean water entrance hole of usefulness cleaning water that nozzle is cleaned member.

In this hygienic washing device, will clean the human body of water supply nozzle device by the 1st clean water feeder and clean nozzle, clean the clean water entrance hole that water feeder will be cleaned water supply nozzle device by the 2nd.In the spray nozzle device, clean nozzle to the clean water of body local ejection by human body.In the annulus of cleaning between the inner peripheral surface that clean water entrance hole that water cleans member from nozzle imports outer peripheral face that human body cleans nozzle and the clean member of nozzle, and it is rotated at annulus inside spin shape.Thus, the big scope of the clean nozzle outer peripheral face of human body can be cleaned effectively.Thereby can guarantee fully that human body cleans the hygienic state of nozzle.

In addition, import outer peripheral face that human body cleans nozzle and nozzle and clean and carry out human body in the annulus between the inner peripheral surface of member and clean the clean of nozzle by cleaning water, so simple in structure.

Make the clean water of supplying with from water-supply source obtain transient heating by heater, clean water feeder by the 2nd and will supply with clean water entrance hole through the clean water after the heater heating.Thus, human body is cleaned nozzle and is cleaned by the clean water of high temperature, so can obtain high clean effect.Can carry out bacteria reducing, degerming or the sterilization that human body is cleaned nozzle according to the heated condition of cleaning water.Adopt high temperature to clean water and human body is cleaned nozzle clean, clean and bacteria reducing, degerming or sterilization by nozzle by human body is cleaned for the user, just can obtain human body and clean nozzle and remain and clean such feeling at ease and feel.

And the clean water that is heated by heater becomes steam, can obtain good clean effect and bacteria-eliminating efficacy.

Hygienic washing device also can comprise: toilet seat portion; To the human body detection sensor that has or not human body to detect in the toilet seat portion; Clean water feeder according to the output of human body detection sensor to the 2nd and will clean the control part that water is controlled to the supply of cleaning the water entrance hole, control part can be controlled to, and no longer will supply with through the clean water after the heater heating when human body detection sensor detects human body and clean the water entrance hole.

This occasion detects in the toilet seat portion by human body detection sensor and to have or not human body, by control part, according to the output of human body detection sensor, cleans water feeder to the 2nd and will clean water and be controlled to the supply of cleaning the water entrance hole.When human body detection sensor detects human body, no longer will supply with and clean the water entrance hole through the clean water after the heater heating.Thus, can prevent that the user from sitting in the clean water that touches under the state in the toilet seat portion after the heater heating.

Hygienic washing device also can have part or all branch's pipe arrangement of discharging to the outside of the clean water that will supply with from water-supply source, and the 2nd cleans water feeder can clean the water entrance hole with supplying with at least a portion of the mobile clean water of branch's pipe arrangement.

This occasion, part or all of the clean water that will supply with from water-supply source by branch's pipe arrangement discharged to the outside, and the 2nd at least a portion of cleaning the clean water that water feeder will flow at branch's pipe arrangement is supplied with and is cleaned the water entrance hole.

Thus, can increase the flow that human body is cleaned the clean water that is used to clean of nozzle, can clean the nozzle of better effects and if clean.

The hygienic washing device of another technical scheme of the present invention comprises: have the clean water that will supply with from the water-supply source spray nozzle device to the squit hole of human body ejection; The diffusion angle regulator of the diffusion angle change of the clean water that will spray from the squit hole of spray nozzle device; Make the spray nozzle device advance and retreat drive unit that advance and retreat move between position and the rear position forwardly; Control device is controlled advance and retreat drive unit and diffusion angle regulator, makes up so that the advance and retreat of the spray nozzle device that the advance and retreat drive unit is implemented move with the variation from the diffusion angle of the clean water of the squit hole of spray nozzle device.

In this hygienic washing device, make from the diffusion angle of the clean water of the squit hole of spray nozzle device ejection by the diffusion angle regulator to change.Thus, produce linear flow with concentrated clean scope and dispersion train with big clean scope.In addition, it is mobile by the advance and retreat drive unit spray nozzle device to be advanced and retreat forwardly between position and the rear position.And by control device, the advance and retreat of the spray nozzle device that the advance and retreat drive unit is implemented move with the combination from the variation of the diffusion angle of the clean water of the squit hole ejection of spray nozzle device and control.Thus, the advance and retreat of the spray nozzle device that can implement according to selections such as user's hobby and physical condition advance and retreat drive unit of user move and combination from the variation of the diffusion angle of the clean water of the squit hole ejection of spray nozzle device.Thus, the user can carry out suitable cleaning.

The advance and retreat of the spray nozzle device of implementing by the drive unit of will advancing and retreat move with the variation from the diffusion angle of the clean water of the squit hole ejection of spray nozzle device and make up, thereby body local is cleaned, can to body local carry out on a large scale clean fully.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator so that spray nozzle device forwardly between position and the rear position repeatedly advance and retreat move and the diffusion angle from the clean water of the squit hole of spray nozzle device changed.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator so that spray nozzle device forwardly between position and the rear position repeatedly advance and retreat move and make clean water alternately switch to dispersion train and linear flow from the squit hole of spray nozzle device.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator, so that spray nozzle device moves to the rear position or moves to anterior position from the rear position and the diffusion angle from the clean water of the squit hole of spray nozzle device is changed from anterior position.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator, so that spray nozzle device moves to the rear position or moves to anterior position from the rear position and make the clean water from the squit hole of spray nozzle device switch to linear flow and dispersion train from anterior position.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator, so that position or rear position stop to make under the state of stipulated time the diffusion angle from the clean water of the squit hole of spray nozzle device to change forwardly at spray nozzle device.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Control device can be controlled advance and retreat drive unit and diffusion angle regulator, so that position or rear position stop to make under the state of stipulated time the clean water from the squit hole of spray nozzle device alternately to switch to dispersion train and linear flow forwardly at spray nozzle device.

This occasion is cleaned the low clean scope central portion of water density and also can be formed the high scope of water density of cleaning by linear flow.Thus, can to body local carry out on a large scale fully clean.In addition, the clean water that disperses around body local because of the big linear flow of the flow of water can wash by dispersion train.Thus, can make body local keep to such an extent that more clean.

Hygienic washing device also can have setting device, moves with the combination from the variation of the diffusion angle of the clean water of the squit hole of spray nozzle device with the advance and retreat of spray nozzle device that the advance and retreat drive unit is implemented and sets.

This occasion, the user can set suitable user's the hobby and the method for cleaning of physical condition by setting device.

Spray nozzle device can comprise: the clean water at self-supporting water source is directed to the 1st runner of squit hole in the future; The clean water at self-supporting water source is directed to the 2nd runner of squit hole in the future; Produce the rotating flow generation device of rotating flow in the clean water of the 1st runner, the diffusion angle regulator can comprise the flow regulator of the flow of regulating the clean water of supplying with the 1st runner and the 2nd runner.

This occasion, clean water can spray from squit hole by the 1st runner and the 2nd runner of spray nozzle device.And the 1st runner and the 2nd runner form separately, so the flow of the clean water that flows in the 1st runner and the 2nd runner is changed respectively independently.And, in the 1st runner, because can produce the rotating flow of cleaning water, so can spray dispersion train from squit hole.

Therefore, the flow of the clean water by being adjusted in the 1st runner and the 2nd flow passage, thus can be according to user's the physical condition and the mixed flow of hobby ejection linear flow or dispersion train or linear flow and dispersion train.Thus, diffusion angle and the clean area of cleaning water are changed.

The rotating flow generation device can have drum-shaped chamber, and the clean water of the 1st runner can be supplied with along the inner peripheral surface of drum-shaped chamber.

This occasion is supplied with along the inner peripheral surface of drum-shaped chamber from the clean water that the guiding of the 1st runner comes, so utilize centrifugal force can produce gyrate flowing efficiently in drum-shaped chamber.Keep the clean water that swirl shape flows and spray, sprayed on a large scale by washable surface relatively from the dispersion train of squit hole from squit hole.

Hygienic washing device also can have the clean water of supplying with from water-supply source is applied periodic pressure oscillation and to cleaning the water booster system of water pressurization back supply nozzle device.

This occasion, the clean water of supplying with from water-supply source is applied in periodic pressure oscillation and pressurized by water booster system.Therefore, even little flow also can have high clean effect of stimulation.

Hygienic washing device also can have the heater of the clean water heating back of supplying with from water-supply source being supplied with water booster system.

This occasion heats the clean water of supplying with from water-supply source by heater, supplies with water booster system then, so can be from the clean water after the squit hole ejection appropriate heating of spray nozzle device.

Heater can be to make the clean water supplied with from water-supply source while heated moment formula heater that flows.

This occasion, while clean water by moment formula heater and flowing be heated.Therefore, only water is cleaned in heating when hygienic washing device uses, thus can be suppressed at Min. with consuming electric power, and, do not need to store the water storage box of clean water etc., so can realize saving the space.And, even cleaning the temperature of water when long, can not descend the time of cleaning yet.

Description of drawings

Fig. 1 is the stereogram that expression is installed in the hygienic washing device of the embodiment of the invention 1 state on the closet.

Fig. 2 is the ideograph of an example of the remote-control apparatus of presentation graphs 1.

Fig. 3 is the ideograph of structure of body of the hygienic washing device of the expression embodiment of the invention 1.

Fig. 4 is the sectional view of biopsy cavity marker devices of an example of expression heat converter structure.

Fig. 5 is the sectional view of an example of expression pump configuration.

Fig. 6 is the ideograph of the action usefulness of explanation umbrella shape packing ring.

Fig. 7 is the figure that the pressure of the pump of presentation graphs 5 changes.

Fig. 8 is the longitudinal section of expression transfer valve, the A-A line sectional view of transfer valve, the B-B line sectional view of transfer valve, the C-C line sectional view of transfer valve.

Fig. 9 is the sectional view of action of the transfer valve of presentation graphs 8.

Figure 10 is the figure of expression from the flow of the clean water of the clean water out outflow of the transfer valve of Fig. 9.

Figure 11 is the stereogram of piston portion of the buttocks nozzle of expression spray nozzle part.

Figure 12 is the exploded perspective view of expression piston portion.

Figure 13 is the lateral view of expression piston portion, the vertical view of piston portion.

Figure 14 is the sectional view of expression buttocks nozzle.

Figure 15 is the sectional view of action usefulness of the buttocks nozzle of explanation Figure 14.

Figure 16 is the figure that explanation runner fluidic junction is used.

Figure 17 is the ideograph of flow velocity of the rotating flow of explanation cylinder interior, and the ideograph of the rotating flow of the clean water in the cylindric volute chamber is described.

Figure 18 is the sectional view of the leading section of expression buttocks nozzle.

Figure 19 is the X-X line sectional view of expression Figure 18, the Y-Y line sectional view of Figure 18, the Z-Z line sectional view of Figure 18.

Figure 20 is that side is seen the pattern sectional view that the leading section of piston portion obtains from the side.

Figure 21 is the figure that explanation is used from the pressure variance of the clean water of the hole portion ejection of buttocks nozzle.

Figure 22 is the three-dimensional exploded view of clean water supply unit of stereogram, the piston portion of the piston portion of expression buttocks nozzle.

Figure 23 is the three-dimensional exploded view of the piston portion of expression buttocks nozzle.

Figure 24 is the lateral view of piston portion, the vertical view of piston portion.

Figure 25 is the sectional view of expression buttocks nozzle.

Figure 26 is the sectional view of action usefulness of the buttocks nozzle of explanation Figure 25.

Figure 27 is the figure that explanation runner fluidic junction is used.

Figure 28 is the F-F line sectional view of Figure 27.

Figure 29 is the ideograph of other examples of the remote-control apparatus of Fig. 1.

Figure 30 is the ideograph of structure of body of the hygienic washing device of the embodiment of the invention 3.

The flow of Figure 31 clean water that to be expression flow out to the buttocks nozzle from the clean water out of transfer valve, clean the figure of the flow of the clean water that flows out with nozzle to nozzle from the flow of cleaning the clean water that water out flows out to lady's hip bath nozzle and from cleaning water out.

Figure 32 is the stereoscopic figure of the spray nozzle part of Fig. 1.

Figure 33 is the axial sectional elevation of the buttocks nozzle of Figure 32.

Figure 34 is the sectional elevation of action usefulness of the buttocks nozzle of explanation Figure 33.

Figure 35 is the Y-Y line sectional view of the spray nozzle part of Figure 32.

Figure 36 is the action usefulness of the piston of runner when water is cleaned in the ejection of the inside of the clean tube of nozzle is cleaned in explanation from the 1st nozzle of Figure 32 a key diagram.

Figure 37 is the clean water of the inner ejection of tube is cleaned in the stereogram that flows from expression to nozzle.

Figure 38 is the ideograph that the structure of the leading section of clean tube of explanation nozzle and piston is used.

Pump, the transfer valve of Figure 39 Figure 30 when to be the expression user with the buttocks switch of Figure 29 and shutdown switch press and the operating state of the transfer valve that discharges water and clean with the figure of nozzle to the variation of the flow of the clean water of buttocks nozzle and the ejection of lady's hip bath nozzle from the nozzle of Figure 30.

Pump, the transfer valve of Figure 40 Figure 30 when to be the expression user with the nozzle of Figure 29 clean switch and press and the operating state of the transfer valve that discharges water and clean with the figure of nozzle to the variation of the flow of the clean water of buttocks nozzle and the ejection of lady's hip bath nozzle from the nozzle of Figure 30.

To be the expression user clean the operating state of pump, the transfer valve of the Figure 30 behind the switch push, discharge water transfer valve and heat interchanger with the high temperature nozzle of Figure 29 to Figure 41 and clean with the figure of nozzle to the variation of the flow of the clean water of buttocks nozzle and the ejection of lady's hip bath nozzle from the nozzle of Figure 30.

Figure 42 is the ideograph of structure of the body of the expression hygienic washing device that used other embodiment 3 during the formula heater moment.

Figure 43 is the biopsy cavity marker devices sectional view of the structure of expression moment formula heater.

Figure 44 is the ideograph of an example of the remote-control apparatus of expression embodiment 5.

Figure 45 is the ideograph of structure of body of the hygienic washing device of the expression embodiment of the invention 5.

Figure 46 is the stereoscopic figure of the spray nozzle part of embodiment 5.

Figure 47 is the ideograph of an example of the remote-control apparatus of expression embodiment 6.

Figure 48 is the ideograph of structure of body of the hygienic washing device of the expression embodiment of the invention 6.

Figure 49 is the buttocks nozzle of Figure 48 and the pattern sectional view of transfer valve.

Figure 50 is the sectional view of the buttocks nozzle action usefulness of explanation Figure 49.

Figure 51 is the ideograph of the piston portion leading section of Figure 49.

Figure 52 is the synoptic diagram of the 1st example of ejection form of the clean water of expression embodiment 6.

Figure 53 is the synoptic diagram of the 2nd example of ejection form of the clean water of expression embodiment 6.

Figure 54 is the synoptic diagram of the 3rd example of ejection form of the clean water of expression embodiment 6.

Figure 55 is the synoptic diagram of the 4th example of ejection form of the clean water of expression embodiment 6.

The specific embodiment

Below, with reference to accompanying drawing embodiments of the invention are described.

(embodiment 1)

Fig. 1 is the stereogram that expression is installed in the hygienic washing device of the embodiment of the invention 1 state on the closet.

As shown in Figure 1, hygienic washing device 100 is installed on the closet 600.Water tank 700 is connected with water supply pipe, supplies with in closet 600 and cleans water.

Hygienic washing device 100 is made of body 200, remote-control apparatus 300, toilet seat portion 400 and cap 500.

Toilet seat portion 400 and cap 500 open and close and are installed in freely on the body 200.And body 200 is provided with the clean water feed mechanism that comprises spray nozzle part 30, and is built-in with control part.The control part of body 200 according to the signal that is sent by remote-control apparatus 300, is controlled cleaning the water feed mechanism as described later.And the control part of body 200 is also controlled heater, the odor removal (not shown) of being located at body 200 and the warm braw feedway (not shown) etc. that are built in the toilet seat portion 400.

Fig. 2 is the ideograph of an example of the remote-control apparatus 300 of presentation graphs 1.

As shown in Figure 2, remote-control apparatus 300 comprises: a plurality of LED (light emitting diode) 301, a plurality of by-pass cock 302, buttocks switch 303, thorn energizing switch 304, shutdown switch 305, lady's hip bath switch 306, dry switch 307 and deodorizing switch 308.

By the user by-pass cock 302, buttocks switch 303, thorn energizing switch 304, shutdown switch 305, lady's hip bath switch 306, dry switch 307 and deodorizing switch 308 are carried out push.Thus, remote-control apparatus 300 is with the control part wireless transmission on the body 200 of the hygienic washing device 100 chatted after being located at of signal of regulation.The control part of body 200 receives the signal of the regulation of 300 wireless transmissions of remote-control apparatus, controls cleaning water feed mechanism etc.

For example, when the user pressed buttocks switch 303 or lady's hip bath switch 306, the spray nozzle part 30 of the body 200 of Fig. 1 moves and sprays cleaned water.Press thorn during energizing switch 304, then the clean water that stimulates to the body local ejection from the spray nozzle part 30 of the body 200 of Fig. 1.When pressing shutdown switch 305, then stop to clean water from spray nozzle part 30 ejections.

In addition, when pressing dry switch 307, then from the warm braw feedway (not shown) of hygienic washing device 100 to body local ejection warm braw.When pressing deodorizing switch 308, then by the odor removal (not shown) of hygienic washing device 100 to around carry out deodorizing.

By-pass cock 302 comprises flow of water by- pass cock 302a, 302b, temperature regulation switch 302c, 302d and nozzle location by- pass cock 302e, 302f.

When the user presses nozzle location by- pass cock 302e, 302f, then the position of the spray nozzle part 30 of the body 200 of the hygienic washing device 100 of Fig. 1 changes, when pressing warm braw by- pass cock 302c, 302d, then the temperature from the clean water of spray nozzle part 30 ejection changes.And when pressing flow of water by- pass cock 302a, 302b, then the flow of water (pressure) and the ejection form from the clean water of spray nozzle part 30 ejections changes.Along with pressing by-pass cock 302, a plurality of LED (light emitting diode) 301 light.

Below the body 200 of the hygienic washing device 100 of the embodiment of the invention 1 is described.

Fig. 3 is the ideograph of structure of body 200 of the hygienic washing device 100 of the expression embodiment of the invention 1.

Body 200 shown in Figure 3 comprises: control part 4, branch's water tap 5, coarse filter 6, one way valve 7, steady flow metered valve 8, sealing electromagnetic valve 9, flow transmitter 10, heat interchanger 11, temperature pick up 12a, 12b, pump 13, transfer valve 14 and spray nozzle part 30.In addition, spray nozzle part 30 comprises that buttocks nozzle 1, lady's hip bath nozzle 2 and nozzle are clean with nozzle 3.Transfer valve 14 has motor M.

As shown in Figure 3, branch's water tap 5 is connected on the running water tube 201.On the pipe arrangement 202 that is connected between branch's water tap 5 and the heat interchanger 11, insert coarse filter 6, one way valve 7, steady flow metered valve 8, sealing electromagnetic valve 9, flow transmitter 10 and temperature pick up 12a successively.And, on the pipe arrangement 203 that is connected between heat interchanger 11 and the transfer valve 14, insert temperature pick up 12b and pump 13.

The water purification that at first, will flow in running water tube 201 is supplied with coarse filter 6 as cleaning water by branch's water tap 5.Remove by coarse filter 6 and to clean the rubbish that contains in the water and impurity etc.Then, prevent the refluence of the clean water in the pipe arrangement 202 by one way valve 7.And, the flow of the clean water that flows in the pipe arrangement 202 is kept necessarily by steady flow metered valve 8.

In addition, attachment security pipe 204 between pump 13 and transfer valve 14 is connected the pipe arrangement 205 that discharges water between sealing electromagnetic valve 9 and flow transmitter 10.Be connected with safety valve 206 on the safe pipe arrangement 204.Safety valve 206 is opened when the pressure in the downstream of pipe arrangement 203 especially pump 13 surpasses setting, can prevent the generation of problems such as equipment breakage, flexible pipe when unusual come off.On the other hand, regulating the clean water that is not attracted by pump 13 in the clean water that flows will supply with by steady flow metered valve 8 emits from the pipe arrangement 205 that discharges water.Thus, be not subjected to the influence of tap water supply pressure, in the back pressure of pump 13 effect regulations.

Then, the flow of the clean water that 10 pairs of flow transmitters flow in pipe arrangement 202 is measured, and will measure flow value and give control part 4.Temperature pick up 12a measures the temperature of clean water mobile in the pipe arrangement 202, and gives control part 4 with measured temperature.

Then, the control signal that heat interchanger 11 gives according to control part 4 is heated to set point of temperature to the clean water of supplying with by pipe arrangement 202.Temperature pick up 12b measures the temperature that is heated to the clean water of set point of temperature by heat interchanger 11, gives control part 4 with measured temperature.

Pump 13 will be given transfer valve 14 by the clean hydraulic pressure after heat interchanger 11 heating according to the control signal that control part 4 gives.The control signal that transfer valve 14 gives according to control part 4 is cleaned any that use in the nozzle 3 with buttocks nozzle 1, lady's hip bath nozzle 2 and the nozzle of cleaning water supply nozzle portion 30.Thus, cleaning water cleans with any ejection the nozzle 3 from buttocks nozzle 1, lady's hip bath nozzle 2 and nozzle.The control signal that transfer valve 14 gives according to control part 4 is regulated the flow from the clean water of spray nozzle part 30 ejection.Thus, the flow from the clean water of spray nozzle part 30 ejection changes.

Control part 4 bases reach the measured temperature that gives from temperature pick up 12a, 12b from the signal of remote-control apparatus 300 wireless transmissions of Fig. 1, the measurement flow value that gives from flow transmitter 10, give control signal to sealing electromagnetic valve 9, heat interchanger 11, pump 13 and transfer valve 14.

Fig. 4 is the sectional view of biopsy cavity marker devices of an example of the structure of expression heat interchanger 11.

As shown in Figure 4, in resin enclosure 504, be embedded with the pipe arrangement 510 that crawls of bending.Flat ceramic heater 505 is arranged to contact with the pipe arrangement 510 that crawls.Shown in arrow Y, clean water and 511 supply with in the pipe arrangement 510 that crawls from the admission port, in the pipe arrangement 510 that crawls, between flow periods, heat efficiently, from outlet opening 512 discharges by ceramic heater 505.

The measured temperature that the control part 4 of Fig. 3 gives according to temperature pick up 12b carries out FEEDBACK CONTROL to the temperature of the ceramic heater 505 of heat interchanger 11.

Among the embodiment 1, control part 4 utilizes FEEDBACK CONTROL that the temperature of the ceramic heater 505 of heat interchanger 11 is controlled, but be not limited thereto, also can utilize FEEDFORWARD CONTROL that the temperature of ceramic heater 505 is controlled, or the compound control that utilizes FEEDBACK CONTROL that ceramic heater 505 is controlled also can carry out utilizing FEEDFORWARD CONTROL that ceramic heater 505 controls are stablized when temperature rises the time.

Fig. 5 is the sectional view of an example of the structure of expression pump 13.The pump of Fig. 5 is two ejector half reciprocating pumps.

Among Fig. 5, in body 138, form cylindric space 139.In cylindric space 139, force feed piston 136 is set.The packing ring 136a of X font is installed at the peripheral part of force feed piston 136.By force feed piston 136 cylindric space 139 is divided into pump chamber 139a and pump chamber 139b.

Sidepiece at body 138 is provided with clean water inlet PI, is provided with in the other side and cleans water out PO.Heat interchanger 11 is connected with clean water inlet PI by the pipe arrangement 203 of Fig. 3, and transfer valve 14 is connected with clean water out PO by pipe arrangement 203.

Clean water inlet PI and be communicated with pump chamber 139a, be communicated with pump chamber 139b by inner flow passage P2, cell S2 and cell S4 simultaneously by inner flow passage P1, cell S1 and cell S3.

Pump chamber 139a is communicated with clean water out PO by cell S5, cell S7 and inner flow passage P3.Cylindric space 139b is communicated with clean water out PO by cell S6, cell S8 and inner flow passage P4.

In cell S3, cell S4, cell S7 and cell S8, be respectively equipped with umbrella shape packing ring 137.

Gear 131 is installed, gear 131 and gear 132 engagements on the axis of rotation of motor 130.One end of crank axle 133 is installed in rotation on the gear 132 with some supports, and force feed piston 136 keeps rod 135 to be installed on the other end of crank axle 133 by piston maintaining part 134 and piston.

When control signal rotation that the axis of rotation of motor 130 gives according to the control part 4 by Fig. 3, then be installed in gear 131 on the axis of rotation of motor 130 towards the direction rotation of arrow R1, gear 132 is towards the direction rotation of arrow R2.Thus, move up and down on the force feed piston 136 arrow Z direction in the drawings.

Fig. 6 is the ideograph of the action usefulness of explanation umbrella shape packing ring 137.

For example, when direction moved the volume that makes pump chamber 139a and increases down, the pressure of the pressure ratio cell S1 in the pump chamber 139a was low, so shown in Fig. 6 (b), the umbrella shape packing ring 137 of being located at cell S3 is out of shape at the force feed piston 136 of Fig. 5.Consequently, flow in the pump chamber 139a by inner flow passage P1, cell S1 and cell S3 from the clean water of cleaning water inlet PI supply.This occasion, the pressure of the pressure ratio cell S7 in the pump chamber 139a is low, and the umbrella shape packing ring 137 of being located at cell S7 keeps the state of Fig. 6 (a), can not be out of shape.Therefore, clean water can not flow into pump chamber 139a, can not discharge from cleaning water out PO on the contrary yet.

On the other hand, when the force feed piston 136 of Fig. 5 was moved upward the volume that makes pump chamber 139a and reduces, the pressure height of the pressure ratio cell S1 in the pump chamber 139a was so it is indeformable to be located at the state shown in umbrella shape packing ring 137 maintenance Fig. 6 (a) of cell S3.Consequently, the clean water in the cell S1 can not flow into pump chamber 139a.This occasion shown in Fig. 6 (b), is located at umbrella shape packing ring 137 distortion of cell S7.Therefore, the clean water in the pump chamber 139a is discharged from cleaning water out PO by cell S5, cell S7 and inner flow passage P3.

When force feed piston 136 is mobile towards the top, shown in Fig. 6 (b), be located at umbrella shape packing ring 137 distortion in the cell S4, when force feed piston 136 was mobile towards the below, the umbrella shape packing ring of being located in the cell S4 137 kept the state shown in Fig. 6 (a) indeformable.On the other hand, when force feed piston 136 was mobile towards the top, the umbrella shape packing ring of being located in the cell S8 137 kept the state shown in Fig. 6 (a) indeformable, when force feed piston 136 is mobile towards the below, shown in Fig. 6 (b), was located at umbrella shape packing ring 137 distortion in the cell S8.Thus, when the clean water in the pump chamber 139a is discharged from cleaning water out PO, flow in the pump chamber 139b from the clean water of cleaning water inlet PI, when flowing in the pump chamber 139a from the clean water of cleaning water inlet PI, the clean water in the pump chamber 139b is discharged from cleaning water out PO.

Fig. 7 is the figure that the pressure of the pump 13 of presentation graphs 5 changes.The longitudinal axis of Fig. 7 is represented pressure, and transverse axis is represented the time.

As shown in Figure 7, the clean water under the pressure P i is supplied with to the clean water inlet PI of pump 13.This occasion, the motion of the above-below direction of the force feed piston 136 by Fig. 6, the pressure Pa of the clean water in the pump chamber 139a changes shown in dotted line like that.And pressure P b such variation shown in dotted line of the clean water in the pump chamber 139b.The pressure P out of the clean water of discharging from the clean water out PO of pump 13 is that the center periodically changes up and down with pressure P c shown in heavy line like that.

Like this, in pump 13, by moving up and down of force feed piston 136, the clean water in pump chamber 139a or the pump chamber 139b is alternately exerted pressure, the clean water of cleaning water inlet PI is boosted, and discharges from cleaning water out PO.

Fig. 8 (a) is the B-B line sectional view of the A-A line sectional view of the longitudinal section of expression transfer valve 14, transfer valve 14 that Fig. 8 (b) is presentation graphs 8 (a), transfer valve 14 that Fig. 8 (c) is presentation graphs 8 (a), the C-C line sectional view of transfer valve 14 that Fig. 8 (d) is presentation graphs 8 (a).

Transfer valve 14 shown in Fig. 8 (a) is made of motor M, inner core 142 and urceolus 143.

Inner core 142 inserts urceolus 143, and the axis of rotation of motor M is installed on the inner core 142.Motor M is rotated action according to the control signal that control part 4 gives.Inner core 142 is rotated by the rotation of motor M.

Shown in Fig. 8 (a) and (b), (c), (d), end at urceolus 143 is provided with clean water inlet 143a, be provided with clean water out 143b, 143c in the relative position of sidepiece, clean water out 143d being provided with of sidepiece, clean water out 143e being provided with of sidepiece with clean water out 143b, position that 143c, 143d are different with clean water out 143b, position that 143c is different.Mutual different position at inner core 142 is provided with hole 142e, 142f, 142g.Shown in Fig. 8 (b), (c), around hole 142e, 142f, form the chamfered section that constitutes by curve and straight line, shown in Fig. 8 (d), around the 142g of hole, form the chamfered section that constitutes by straight line.

By the rotation of inner core 142, hole 142e can be relative with the clean water out 143b or the 143c of urceolus 143, and hole 142f can be relative with the clean water out 143d of urceolus 143, and hole 142g can be relative with the clean water out 143e of urceolus 143.

Cleaning the pipe arrangement 203 that water inlet 143a is connected with Fig. 3, be connected with lady's hip bath nozzle 2 at clean water out 143b, cleaning the 1st runner that water out 143c is connected with buttocks nozzle 1, cleaning the 2nd runner that water out 143d is connected with the buttocks nozzle, be connected with nozzle at clean water out 143e and clean with nozzle 3.

Fig. 9 is the sectional view of action of the transfer valve 14 of presentation graphs 8.

The motor M of Fig. 9 (a)～(f) expression transfer valve 14 rotates the state behind 0 degree, 90 degree, 135 degree, 180 degree, 225 degree and 270 degree respectively.

At first, shown in Fig. 9 (a), when not making motor M rotation (0 degree), the chamfered section around the hole 142e of inner core 142 is relative with the clean water out 143b of urceolus 143.Therefore, clean water, shown in arrow W1, flow out from cleaning water out 143b from cleaning the inside that water inlet 143a flows through inner core 142.

Then, shown in Fig. 9 (b), after motor M revolved inner core 142 to turn 90 degrees, the chamfered section around the hole 142g of inner core 142 was relative with the clean water out 143e of urceolus 143.Therefore, clean water, shown in arrow W2, flow out from cleaning water out 143e from cleaning the inside that water inlet 143a flows through inner core 142.

Then, shown in Fig. 9 (c), after motor M makes inner core 142 ROT13s 5 degree, the part of the chamfered section around the hole 142g of inner core 142 is relative with the clean water out 143e of urceolus 143, simultaneously, the part of the chamfered section around the hole 142e of inner core 142 is relative with the clean water out 143c of urceolus 143.Therefore, a spot of clean water, flows out from cleaning water out 143c, 143e shown in arrow W2 and arrow W3 from cleaning the inside that water inlet 143a flows through inner core 142.

Then, shown in Fig. 9 (d), after motor M made inner core 142 Rotate 180 degree, the chamfered section around the hole 142e of inner core 142 was relative with the clean water out 143c of urceolus 143.Therefore, clean water, shown in arrow W3, flow out from cleaning water out 143c from cleaning the inside that water inlet 143a flows through inner core 142.

Then, shown in Fig. 9 (e), after motor M makes inner core 142 rotations 225 degree, the part of the chamfered section around the hole 142e of inner core 142 is relative with the clean water out 143c of urceolus 143, simultaneously, the part of the chamfered section around the hole 142f of inner core 142 is relative with the clean water out 143d of urceolus 143.Therefore, a spot of clean water, flows out from cleaning water out 143c, 143d shown in arrow W3 and arrow W4 from cleaning the inside that water inlet 143a flows through inner core 142.

Then, show that after motor M made inner core 142 rotations 270 degree, the chamfered section around the hole 142f of inner core 142 was relative with the clean water out 143d of urceolus 143 as Fig. 9 (f).Therefore, clean water, shown in arrow W4, flow out from cleaning water out 143d from cleaning the inside that water inlet 143a flows through inner core 142.

As mentioned above, motor M is rotated according to the control signal from control part 4, thereby make any one of hole 142e, 142f, 142g of inner core 142 relative, from cleaning clean water any one outflow from clean water out 143b～143e that water inlet 143a flows into the clean water out 143b～143e of urceolus 143.

Figure 10 is the figure of expression from the flow of the clean water of clean water out 143c, the 143d outflow of the transfer valve 14 of Fig. 9.The transverse axis of Figure 10 is represented the anglec of rotation of motor M, and the longitudinal axis is illustrated in the flow of cleaning the mobile clean water of water out 143c, 143d.Chain-dotted line Q1 represents that from the variation of the flow of the clean water of cleaning water out 143c outflow, solid line Q2 represents from the variation of the flow of the clean water of cleaning water out 143d outflow.

For example, as shown in figure 10, behind the motor M Rotate 180 degree, show maximum value, clean water and flow out from cleaning water out 143d from the flow of cleaning the clean water that water out 143c flows out.Along with the anglec of rotation of motor M increases, reduce from the flow of cleaning the clean water that water out 143c flows out, increase from the flow of cleaning the clean water that water out 143d flows out.Behind motor M rotation 270 degree, clean water and flow out from cleaning water out 143c, show maximum value from the flow of cleaning the clean water that water out 143d flows out.

As mentioned above, control part 4 is controlled by the anglec of rotation to the motor M of transfer valve 14, thereby can be to controlling from the flow-rate ratio of cleaning the clean water that water out 143c, 143d flow out.

Then, the buttocks nozzle 1 to the spray nozzle part 30 of Fig. 3 describes.Figure 11 is the stereogram of piston portion 20 of the buttocks nozzle 1 of expression spray nozzle part 30, and Figure 12 is the exploded perspective view of expression piston portion 20.

As shown in figure 11, the piston portion 20 of buttocks nozzle 1 comprises nozzle casing 401, two flow-path tubes 402, a flow-path tube 403 and runner fluidic junction 404.Among Figure 11, nozzle casing 401 dots.As shown in figure 12, the upper surface of the leading section of nozzle casing 401 is provided with squit hole 401a.

Two flow-path tubes 402 have the runner that 2 clean water flow.A runner is connected with the rear end of a flow-path tube 403, and the front end of a flow-path tube 403 is connected with runner fluidic junction 404.In addition, as shown in figure 11, nozzle casing 401 covers two flow-path tubes 402, a flow-path tube 403 and runner fluidic junction 404.

The clean water of supplying with a runner of two flow-path tubes 402 flows through a flow-path tube 403 supplies with runner fluidic junction 404.The clean water of supplying with another runner of two flow-path tubes 402 flows through the space between a flow-path tube 403 and the nozzle casing 401, supplies with runner fluidic junction 404.The clean water of supplying with runner fluidic junction 404 sprays to human body from squit hole 401a.This moment, the clean water of ejection became the dispersion rotating flow.Chat as the back in detail.

Figure 13 (a) is the lateral view of expression piston portion 20, and Figure 13 (b) is the vertical view of expression piston portion 20.

As Figure 13 (a) and (b), nozzle casing 401 has front end and seals into hemispheric cylindrical structure, is the integrative-structure that does not have seam.The plane is formed partly at the top at the leading section of nozzle casing 401, and the central portion on this plane forms squit hole 401a.Nozzle casing 401 is processed to form by the stainless steel deep-draw.

Because nozzle casing 401 does not have seam, so even foul sticks on the nozzle casing 401 also flushing, very health easily.Stainless steel has antibacterial action, so can not breed at the surface bacteria of nozzle casing 401.

Nozzle casing 401 is made of stainless steel, thereby can realize thin-walled property under the situation of the intensity of guaranteeing nozzle casing 401, can realize the miniaturization of buttocks nozzle 1.This occasion is not even the clean water of supplying with in nozzle casing 401 after the pressurization can produce distortion yet.The caliber of nozzle casing 401 for example can be 10mm, and wall thickness for example can be about 0.2mm.

And because nozzle casing 401 is processed to form by deep-draw, so smooth surface, foul is difficult for adhering to.And the surface of nozzle casing 401 has gloss, and the user can feel clean feel.

Figure 14 is the sectional view of expression buttocks nozzle 1.

As shown in figure 14, buttocks nozzle 1 is made of piston portion 20, cylinder body cylindraceous portion 21, seal washer 22a, 22b and spring 23.

Upper surface in runner fluidic junction 404 forms the hole portion 25 that the clean water of ejection is used.Be provided with retainer 26a, the 26b of flange shape in the rear end of piston portion 20.In addition, be separately installed with seal washer 22a, 22b at retainer 26a, 26b.

Be formed with from rear end face and the runner 27a that a flow-path tube 403 is communicated with in the inside of two flow-path tubes 402, also be formed with the runner 27c that is communicated with the front end face of two flow-path tubes 402 from the periphery of the piston portion 20 between retainer 26a and the retainer 26b.

Be formed with the runner 27b that is communicated with runner fluidic junction 404 from the runner 27a of two flow-path tubes 402 in the inside of a flow-path tube 403.Space between a nozzle casing 401 and the flow-path tube 403 becomes runner 27d.The concrete structure such as the back of runner fluidic junction 404 are chatted.

On the other hand, cylinder body portion 21 partly is made of the major diameter of the small diameter portion of front, the mid portion with mid diameter, rear end side.Thus, but between small diameter portion and mid portion, form the stop surface 21c of the retainer 26a of piston portion 20, but mid portion and large-diameter portion form the stop surface 21b of the retainer 26b of piston portion 20 by seal washer 22b butt between dividing by seal washer 22a butt.

Be provided with at the rear end face of cylinder body portion 21 and clean water inlet 24a, on the periphery of the mid portion of cylinder body portion 21, be provided with and clean water inlet 24b, on the front end face of cylinder body portion 21, be provided with peristome 21a.The inner space of cylinder body portion 21 becomes temperature change buffer part 28.Clean water inlet 24a and be eccentrically set on the position different with the central axis of cylinder body portion 21.

Clean water inlet 24a and be connected, clean water inlet 24b and be connected with the clean water out 143c of the transfer valve 14 of Fig. 8 with the clean water out 143d of the transfer valve 14 of Fig. 8.Piston portion 20, is cleaned water inlet 24b and is communicated with the runner 27c of two flow-path tubes 402 when the most outstanding from cylinder body portion 21.The concrete condition of the action when this clean water inlet 24b is connected with runner 27c as hereinafter described.

Piston portion 20 inserts in the cylinder body portion 21 movably, so that retainer 26b is positioned at temperature change buffer part 28, leading section is outstanding from peristome 21a.

And spring 23 is provided between the periphery of peristome 21a of the retainer 26a of piston portion 20 and cylinder body portion 21, to the rear end side application of force of piston portion 20 towards cylinder body portion 21.

Form minim gap between the outer peripheral face of retainer 26a, the 26b of piston portion 20 and the inner peripheral surface of cylinder body portion 21, form minim gap between the inner peripheral surface of the peristome 21a of the outer peripheral face of piston portion 20 and cylinder body portion 21.

Then the action to the buttocks nozzle 1 of Figure 14 describes.Figure 15 is the sectional view of action usefulness of the buttocks nozzle 1 of explanation Figure 14.

At first, shown in Figure 15 (a), do not supply with when cleaning water from clean water inlet 24a, the 24b of cylinder body portion 21, piston portion 20 retreats towards the direction opposite with arrow X under the elastic force effect of spring 23, is accommodated in the cylinder body portion 21.Consequently, piston portion 20 becomes the least outstanding state from the peristome 21a of cylinder body portion 21.At this moment, in cylinder body portion 21, there is not formation temperature change buffer part 28.

Then, shown in Figure 15 (b), begin to supply with when cleaning water from the clean water inlet 24a of cylinder body portion 21, piston portion 20 overcomes spring 23 under the pressure effect of cleaning water elastic force advances towards the arrow directions X gradually.Thus, formation temperature change buffer part 28 in the cylinder body portion 21 is cleaned water simultaneously and is flowed in the temperature change buffer part 28.

Clean water inlet 24a is arranged on the eccentric position with respect to the central axis of cylinder body portion 21, so the clean water that flows into temperature change buffer part 28 refluxes into vortex shape shown in arrow V.The part of the clean water of temperature change buffer part 28 flows through the minim gap between the inner peripheral surface of the outer peripheral face of retainer 26a, 26b of piston portion 20 and cylinder body portion 21, flow out from the minim gap between the inner peripheral surface of the peristome 21a of the outer peripheral face of piston portion 20 and cylinder body portion 21, flow through runner 27a, 27b, 27c, the 27d of piston portion 20 simultaneously and supply with runner fluidic junction 404, ejection is arranged slightly from hole portion 25.

When piston portion 20 was advanced further, then shown in Figure 15 (c), retainer 26a, 26b contacted with stop surface 21c, the 21b water-stop of cylinder body portion 21 by seal washer 22a, 22b.Thus, the runner of the minim gap between the inner peripheral surface of the peristome 21a of outer peripheral face from the minim gap between the inner peripheral surface of the outer peripheral face of retainer 26a, the 26b of piston portion 20 and cylinder body portion 21 to piston portion 20 and cylinder body portion 21 is cut off.

And the runner 27c, the 27d that flow through piston portion 20 from the clean water of cleaning water inlet 24b supply supply with runner fluidic junction 404.Thus, flow through runner 27a, b and mix with the clean water that flows through runner 27c, 27d supply to the clean water of runner fluidic junction 404 supplies, and from 25 ejections of hole portion.

Figure 16 is the figure of explanation runner fluidic junction 404 usefulness.Figure 16 (a) is the vertical view of the leading section of piston portion 20, and Figure 16 (b) is the D-D line sectional view of Figure 16 (a), and Figure 16 (c) is the E-E line sectional view of Figure 16 (a).

Shown in Figure 16 (a), the diameter of squit hole 401a forms greatlyyer than hole portion 25.Thus, the clean water that sprays from hole portion 25 can not collide with squit hole 401a, can not hinder the ejection of cleaning water.

Shown in Figure 16 (b), surround hole portion 25 ground on the top of runner fluidic junction 404 and form circular groove 404a, O shape ring 404b is installed in groove 404a.O shape ring 404b closely contacts with the inner peripheral surface of nozzle casing 401, and the clean water of runner 27d can not flow out from the squit hole 401a of nozzle casing 401.In addition, even the leading section of nozzle casing 401 adheres to foul, foul can directly not enter in the runner 27d from squit hole 401a yet.

Moreover even foul is in the squit hole 401a of nozzle casing 401 enters hole portion 25 time, foul also can be discharged at once from the clean water of hole portion 25 ejections.Thus, make the inside of nozzle casing 401 remain cleaning.

Leading section in runner fluidic junction 404 forms fixed-site sheet 404c.The front end of fixed-site sheet 404c is supported on the inner peripheral surface of front end of nozzle casing 401, thereby the position of runner fluidic junction 404 is fixed.

Upper end to lower end in the inside of runner fluidic junction 404 from runner fluidic junction 404 forms hole portion 25, the 25a of contracted flow portion, cylindric volute chamber 25b and the 25c of contracted flow portion successively.

The clean water of runner 27d flows through the 25c of contracted flow portion supplies with cylindric volute chamber 25b.The internal diameter of the 25c of contracted flow portion reduces continuously towards cylindric volute chamber 25b, so rise continuously at the flow velocity of the mobile clean water of the 25c of contracted flow portion.

The clean water of supplying with cylindric volute chamber 25b flows into the contracted flow 25a of portion.The internal diameter of the 25a of contracted flow portion reduces continuously towards hole portion 25, so rise continuously at the flow velocity of the mobile clean water of the 25a of contracted flow portion.The clean water of supply hole portion 25 sprays towards human body.

Shown in Figure 16 (c), cylindric volute chamber 25b is communicated with runner 27b.The clean water of supplying with from runner 27b is given revolving force and is produced rotating flow the clean water of supplying with cylindric volute chamber 25b from runner 27d among cylindric volute chamber 25b described later.

Here, the flow velocity at the mobile rotating flow of cylinder interior is described.Figure 17 (a) is the ideograph of flow velocity of the rotating flow of explanation cylinder interior.

The rotating flow that flows in cylinder interior of Figure 17 (a) is in stable state.Shown in Figure 17 (a), the fluid that flows in cylinder interior is justified shape ground with the centres of cylinder and is flowed.Flow velocity at the center of cylinder rotating flow is 0, and the flow velocity of rotating flow increases with distance apart from the center with being directly proportional, and rotating flow forms the vortex that does not have vorticity.

But from being near the zone in border to the outside the cylinder inner peripheral surface, rotating flow is subjected to resistance from the cylinder inner peripheral surface.Below this border is called laminar flow boundary BL.The outside at laminar flow boundary BL forms so-called boundary layer, and the flow velocity of rotating flow sharply descends, and is 0 at the inner peripheral surface of cylinder.Therefore, the flow velocity of rotating flow is maximum at laminar flow boundary BL place.

Figure 17 (b) is the ideograph of the rotating flow of the clean water among the cylindric volute chamber 25b of explanation.In Figure 17 (b), clean the mobile of water and represent with arrow Q1.Shown in Figure 17 (b), runner 27a is communicated with cylindric volute chamber 25b, so that the extended line of the wall in the outside of runner 27a constitutes tangent line with respect to laminar flow boundary BL.Thus, the clean water of supplying with from runner 27a can apply revolving force to cleaning water under the situation of the resistance of the inner peripheral surface that is not subjected to cylindric volute chamber 25b.The clean water of supplying with from runner 27a applies revolving force to the most peripheral of the vortex that does not have vorticity that forms in cylindric volute chamber 25b, can not upset the vortex that does not have vorticity.

And, shown in Figure 16 (b), because cylindric volute chamber 25b does not have the bottom surface, so the suffered resistance of the rotating flow that flows in cylindric volute chamber 25b is little.

As mentioned above, among the cylindric volute chamber 25b in embodiment 1, can little in flow resistance, can not upset to make under the situation of the vortex that does not have vorticity and clean the water rotation.

Then, the sectional area of the runner of the clean water of supplying with buttocks nozzle 1 being flowed through with reference to Figure 18 and Figure 19 changes and describes.

Figure 18 is the sectional view of the leading section of expression buttocks nozzle 1, and Figure 19 (a) is the X-X line sectional view of Figure 18, and Figure 19 (b) is the Y-Y line sectional view of Figure 18, and Figure 19 (c) is the Z-Z line sectional view of Figure 18.

Shown in Figure 19 (a), the sectional area of sectional area S1 indication window portion 25.Shown in Figure 19 (b), sectional area S2 represents the sectional area of cylindric volute chamber 25b.Shown in Figure 19 (c), the sectional area S3 of runner 27d represents the sectional area in the zone except a flow-path tube 403 in the inner space of nozzle casing 401.Between sectional area S1, S2, S3, the relation of S1＜S2＜S3 is set up.

Because the sectional area S3 of runner 27d is bigger, so little in the pressure loss of the mobile clean water of runner 27d.Thus, cleaned water before supplying with runner fluidic junction 404, clean water is kept high pressure.

In addition, the sectional area of runner 27d, the 25c of contracted flow portion, cylindric volute chamber 25b, the 25a of contracted flow portion and hole portion 25 reduces successively gradually, so the runner loss is little, the pressure loss of cleaning water reduces.The flow of water when thus, cleaning water from 25 ejections of hole portion increases and is efficient.

As d1, the diameter of cylindric volute chamber 25b is as d2 with the diameter of hole portion 25, and then d2/d1 is preferably about 2～5.Thus, can when reducing the runner loss, improve from the flow velocity of the clean water of hole portion 25 ejections.

In addition, in the buttocks nozzle 1 of embodiment 1, therefore the cylindric space between the inner peripheral surface of nozzle casing 401 and the flow-path tube 403 can increase the sectional area of cleaning water flow passage as the runner of cleaning water when making piston portion 20 miniaturizations.

Figure 20 is a pattern sectional view of seeing that from the side the leading section of piston portion 20 obtains.

As shown in figure 20, runner 27d is communicated with the 25c of contracted flow portion from the below, and runner 27b is communicated with the periphery of cylindric volute chamber 25b cylindraceous.Flow through runner 27c, 27d from the clean water of the clean water out 143c of transfer valve 14 and supply with, and flow through cylindric volute chamber 25b and the 25a of contracted flow portion sprays as linear flow from hole portion 25 to the 25c of contracted flow portion.Flow through runner 27a, 27b from the clean water of the clean water out 143d of transfer valve and supply with, and flow through the 25a of contracted flow portion from 25 ejections of hole portion to cylindric volute chamber 25b.

The clean water of supplying with to cylindric volute chamber 25b from runner 27b as shown in Figure 19, the curve form of the inner peripheral surface by cylindric volute chamber 25b and flowing with vorticity makes the clean water rotation of supplying with from runner 27d.

Like this, in cylindric volute chamber 25b, make clean water rotation from runner 27b from the clean water of runner 27d, the clean water of rotation is from 25 ejections of hole portion.

For example, the flow of the clean water that the flow-rate ratio of the clean water of supplying with from runner 27b is supplied with from runner 27d for a long time, the clean water that mixes in cylindric volute chamber 25b is kept the vorticity that the curve form owing to cylindric volute chamber 25b cylindraceous forms strongly, so shown in the arrow H of Figure 20, spray as the dispersion rotating flow with big angle.

And the flow of the clean water of supplying with from runner 27b when the flow-rate ratio of the clean water of supplying with from runner 27d for a long time, the clean water that mixes in cylindric volute chamber 25b is kept linear state strongly, so shown in the arrow S of Figure 20, spray as linear flow with narrow angle.

Therefore, the motor M of the 4 pairs of transfer valves 14 of control part by Fig. 3 controls, and the flow-rate ratio of cleaning water out 143c, 143d is changed, and changes thereby can make from the ejection form of the clean water of hole portion 25 ejections.

In addition, as shown in Figure 17, the rotating flow that produces at cylindric volute chamber 25b becomes disorderly few vortex, so form the disorderly circle that do not have of whole evenly diffusion from the clean water of hole portion 25 ejections.In addition, as shown in figure 20,, also can form from central division to peripheral part and have the cross section of cleaning water equably even from the jet flow diffusion angle of the clean water of hole portion 25 ejection when big.

In embodiment 1, behind the flow of water by-pass cock 302a that presses Fig. 2, the flow that the flow-rate ratio of clean water out 143c is cleaned water out 143d is big, and the ejection form of cleaning water is near linear flow.And after pressing flow of water by-pass cock 302b, the flow that the flow-rate ratio of clean water out 143d is cleaned water out 143c is big, and the ejection form of cleaning water is near disperseing rotating flow.

In addition, for example concerning the combining an of flow-path tube 403 and runner fluidic junction 404 grades, so lower because keep the fluid pressure air tightnesses to require by nozzle casing 401.Therefore, buttocks nozzle 1 can easily be assembled.

Figure 21 is the figure that explanation is used from the pressure variance of the clean water of hole portion 25 ejections of buttocks nozzle 1.

The dotted line P1 of Figure 21 represents the pressure variance of nozzle casing 401 by the clean water of rubber-like material (for example plastics) when forming.When the nozzle casing 401 of buttocks nozzle 1 is made of the rubber-like material, absorb by nozzle casing 401 by the pressure of the clean water after pump 13 pressurization, the pressure of cleaning water descends, and pressure variance reduces.

And the nozzle casing 401 among the embodiment 1 is made of stainless steel, is not absorbed by nozzle casing 401 so clean the pressure of water, and the pressure variance of cleaning water does not descend.

Here, the maximum pressure of the clean water when nozzle casing 401 is formed by the rubber-like material is Pn3, and pressure variance is dH2, and the maximum pressure of the clean water when nozzle casing 401 is formed by stainless steel is Pn1, when pressure variance was dH1, then the relation of Pn1＞Pn3, dH1＞dH2 was set up.

Therefore, when nozzle casing 401 was made of stainless steel, then the pressure by 13 pairs of clean water pressurizations of pump can be utilized efficiently.

The nozzle casing 401 of embodiment 1 also can use the good stainless steel of antibiotic property that contains copper or silver.In addition, can use material not yielding, can be integrally formed.For example, both can use metals such as copper beyond the stainless steel, aluminium, nickel, chromium, also can use other alloys.

Among the embodiment 1, squit hole 401a is equivalent to squit hole, hole portion 25 is equivalent to hole portion, runner 27a is equivalent to the 1st runner, runner 27d is equivalent to the 2nd runner, fixed-site sheet 404c is equivalent to the location division, and runner fluidic junction 204 is equivalent to spray member, and the 25c of contracted flow portion is equivalent to peristome and the 1st space, cylindric volute chamber 25b is equivalent to the 2nd space, the 25a of contracted flow portion is equivalent to the 3rd space, and nozzle casing 401 is equivalent to cover member, and a flow-path tube 403 is equivalent to pipeline, O shape ring 402b is equivalent to containment member, pump 13 is equivalent to water booster system, and transfer valve 14 is equivalent to path selection device and flow regulator, and ceramic heater 505 is equivalent to heater.

(embodiment 2)

Followingly describe with reference to the difference and the action effect thereof of accompanying drawing to the structure of the piston portion 20a of the piston portion structure of the buttocks nozzle 1 among the embodiment 2 and the buttocks nozzle 1 among the embodiment 1.

Figure 22 (a) is that stereogram, Figure 22 (b) of the piston portion of expression buttocks nozzle is the exploded perspective view of the clean water supply unit of expression piston portion.Figure 23 is the exploded perspective view of the piston portion of expression buttocks nozzle, and Figure 24 (a) is that lateral view, Figure 24 (b) of piston portion 20a is the vertical view of piston portion 20a.

Shown in Figure 22 (a), piston portion 20a comprises nozzle casing 401 and cleans water supply unit 420.In Figure 22 (a), nozzle casing 401 is represented by chain-dotted line.Cleaning water supply unit 420 comprises and two flow-path tube 402c, a flow-path tube 403c and runner fluidic junction 404h.

Shown in Figure 22 (b), be provided with breach 403a at the end of a flow-path tube 403c, be provided with breach 403b at the other end of a flow-path tube 403c.

404h is provided with the engaging protrusion 404g that engages with breach 403a in the runner fluidic junction, and is provided with the engaging protrusion 402a that engages with breach 403b at flow-path tube 402c.In addition, be provided with hole portion 25 at runner fluidic junction 404h.

Here, in runner fluidic junction 404h, as upper surface, the face of its opposition side is as soffit with the face that is provided with hole portion 25.Upper surface at runner fluidic junction 404h forms par 404f.

Engage with breach 403b by engaging protrusion 402a, the engaging protrusion 404g of runner fluidic junction 404h engages with breach 403a, thereby two flow-path tube 402c, a flow-path tube 403c and runner fluidic junction 404h are integrated, forms to clean water supply unit 420.

As shown in figure 23, breach 401b is set, the engaging protrusion 402b that engages with breach 401b in the outer peripheral face setting of two flow-path tube 402c in the rearward end of nozzle casing 401.

Two flow-path tube 402c have the runner that 2 clean water flow.A runner is connected with the rear end of a flow-path tube 403c, and the front end of a flow-path tube 403c is connected with runner fluidic junction 404h.

The clean water of supplying with the runner of two flow-path tube 402c flows through a flow-path tube 403c supplies with runner fluidic junction 404h.Supplying with the space that the clean water of another runner of two flow-path tube 402c flows through between a flow-path tube 403c and the nozzle casing 401 supplies with to runner fluidic junction 404h.The clean water of supplying with runner fluidic junction 404h sprays towards human body from squit hole 401a.At this moment, the clean water of ejection becomes the dispersion rotating flow.Details as hereinafter described.

Shown in Figure 23 and Figure 24 (a) and (b), nozzle casing 401 has front end and seals into hemispheric cylindrical structure, is the integrative-structure that does not have seam.

Near the local par 401d that the forms leading section of nozzle casing 401 is at the central portion formation squit hole 401a of this par 401d.Nozzle casing 401 is processed to form by the stainless steel deep-draw.Form circular recess 401c in the zone that comprises squit hole 401a.Details as hereinafter described.

Shown in the arrow of Figure 23, clean water supply unit 420 and insert in the nozzle casing 401.Thus, the par 404f of runner fluidic junction 404h is relative with the par 401d of nozzle casing 401, and engages with otch 401b by engaging protrusion 402b, cleans water supply unit 420 and locatees in nozzle casing 401.

Because nozzle casing 401 does not have seam, so even foul sticks on the nozzle casing 401 also flushing, very health easily.Stainless steel has antibacterial action, so can not breed at the surface bacteria of nozzle casing 401.

Nozzle casing 401 is made of stainless steel, thereby can realize thin-walled property under the situation of the intensity of guaranteeing nozzle casing 401, can realize the miniaturization of buttocks nozzle 1.This occasion is not even the clean water of supplying with in nozzle casing 401 after the pressurization can be out of shape yet.The caliber of nozzle casing 401 for example is 10mm, and wall thickness for example is about 0.3mm.

And nozzle casing 401 is processed to form by deep-draw, so smooth surface, foul is difficult for adhering to.And the surface of nozzle casing 401 has gloss, and the user can feel clean feel.

Figure 25 is the sectional view of expression buttocks nozzle 1.

As shown in figure 25, buttocks nozzle 1 is made of piston portion 20a, cylinder body cylindraceous portion 21, seal washer 22a, 22b and spring 23.

Upper surface at runner fluidic junction 404h forms the hole portion 25 that the clean water of ejection is used.Be provided with retainer 26a, the 26b of flange shape in the rear end of piston portion 20a.In addition, be separately installed with seal washer 22a, 22b at retainer 26a, 26b.

Inside at two flow-path tube 402c forms the runner 27a that is communicated with a flow-path tube 403c from rear end face.In addition, form the runner 27c that is communicated with the front end face of two flow-path tube 402c from the periphery of the piston portion 20a between retainer 26a and the retainer 26b.

Be formed with the runner 27b that is communicated with runner fluidic junction 404h from the runner 27a of two flow-path tube 402c in the inside of a flow-path tube 403c.Space between a nozzle casing 401 and the flow-path tube 403c becomes runner 27d.Nozzle casing 401 is made of stainless steel, thus good rigidly, the pulsation sense that can improve fluid.Concrete structure such as the back of runner fluidic junction 404h are chatted.

On the other hand, cylinder body portion 21 partly is made of the major diameter of the small diameter portion of front, the mid portion with mid diameter, rear end side.Thus, but between small diameter portion and mid portion, form the stop surface 21c of the retainer 26a of piston portion 20a, but mid portion and large-diameter portion form the stop surface 21b of the retainer 26b of piston portion 20a by seal washer 22b butt between dividing by seal washer 22a butt.

Be provided with at the rear end face of cylinder body portion 21 and clean water inlet 24a, on the periphery of the mid portion of cylinder body portion 21, be provided with and clean water inlet 24b, on the front end face of cylinder body portion 21, be provided with peristome 21a.The inner space of cylinder body portion 21 becomes temperature change buffer part 28.Clean water inlet 24a and be eccentrically set on the position different with the central axis of cylinder body portion 21.

Clean water inlet 24a and be connected, clean water inlet 24b and be connected with the clean water out 143d of the transfer valve 14 of Fig. 8 with the clean water out 143c of the transfer valve 14 of Fig. 8.Piston portion 20a, cleans water inlet 24b and is communicated with the runner 27c of two flow-path tubes 402 when the most outstanding from cylinder body portion 21.The concrete condition of the action when this clean water inlet 24b is connected with runner 27c as hereinafter described.

Piston portion 20a inserts in the cylinder body portion 21 movably, so that retainer 26b is positioned at temperature change buffer part 28, leading section is outstanding from peristome 21a.

And spring 23 is provided between the periphery of peristome 21a of the retainer 26a of piston portion 20a and cylinder body portion 21, to the rear end side application of force of piston portion 20a towards cylinder body portion 21.

Form minim gap between the outer peripheral face of retainer 26a, the 26b of piston portion 20a and the inner peripheral surface of cylinder body portion 21, form minim gap between the inner face of the peristome 21a of the outer peripheral face of piston portion 20a and cylinder body portion 21.

Then the action to the buttocks nozzle 1 of Figure 25 describes.Figure 26 is the sectional view of action usefulness of the buttocks nozzle 1 of explanation Figure 25.

At first, shown in Figure 26 (a), do not supply with when cleaning water from clean water inlet 24a, the 24b of cylinder body portion 21, piston portion 20a retreats towards the opposite direction of arrow X under the elastic force effect of spring 23, is accommodated in the cylinder body portion 21.Consequently, piston portion 20a becomes the least outstanding state from the peristome 21a of cylinder body portion 21.At this moment, in cylinder body portion 21, there is not formation temperature change buffer part 28.

Then, shown in Figure 26 (b), begin to supply with when cleaning water from the clean water inlet 24a of cylinder body portion 21, piston portion 20a overcomes spring 23 under the pressure effect of cleaning water elastic force advances towards the arrow directions X gradually.Thus, formation temperature change buffer part 28 in the cylinder body portion 21 is cleaned water simultaneously and is flowed in the temperature change buffer part 28.

Clean water inlet 24a is arranged on the eccentric position with respect to the central axis of cylinder body portion 21, so the clean water that flows into temperature change buffer part 28 refluxes into vortex shape shown in arrow V.The part of the clean water of temperature change buffer part 28 flows through the minim gap between the inner face of the outer peripheral face of retainer 26a, 26b of piston portion 20a and cylinder body portion 21, flow out from the minim gap between the inner face of the peristome 21a of the outer peripheral face of piston portion 20a and cylinder body portion 21, flow through runner 27a, 27b, 27c, the 27d of piston portion 20a simultaneously and supply with runner fluidic junction 404h, ejection is arranged slightly from hole portion 25.

When piston portion 20a was advanced further, then shown in Figure 26 (c), retainer 26a, 26b contacted with stop surface 21c, the 21b water-stop of cylinder body portion 21 by seal washer 22a, 22b.Thus, the runner of the minim gap between the inner face of the peristome 21a of outer peripheral face from the minim gap between the inner face of the outer peripheral face of retainer 26a, the 26b of piston portion 20a and cylinder body portion 21 to piston portion 20a and cylinder body portion 21 is cut off.

And the runner 27c, the 27d that flow through piston portion 20a from the clean water of cleaning water inlet 24b supply supply with runner fluidic junction 404h.Thus, flow through runner 27a, b and mix with the clean water that flows through runner 27c, 27d supply to the clean water that runner fluidic junction 404h supplies with, and from 25 ejections of hole portion.

Figure 27 is the figure that explanation runner fluidic junction 404h uses.Figure 27 (a) is the vertical view of the leading section of piston portion 20a, and Figure 27 (b) is the D-D line sectional view of Figure 27 (a), and Figure 27 (c) is the E-E line sectional view of Figure 27 (a).Figure 28 is the F-F line sectional view of Figure 27 (a).

Shown in Figure 27 (a), the diameter of squit hole 401a forms greatlyyer than hole portion 25.Thus, the clean water that sprays from hole portion 25 can not collide with squit hole 401a, can not hinder the ejection of cleaning water.

Shown in Figure 27 (b), surround hole portion 25 ground on the top of runner fluidic junction 404h and form circular groove 404a, O shape ring 404b is installed in groove 404a.O shape ring 404b closely contacts with the inner face of nozzle casing 401, and the clean water of runner 27d can not flow out from the squit hole 401a of nozzle casing 401.In addition, even the leading section of nozzle casing 401 adheres to foul, foul can directly not enter in the runner 27d from squit hole 401a yet.

Moreover even foul is in the squit hole 401a of nozzle casing 401 enters hole portion 25 time, foul also can be discharged at once from the clean water of hole portion 25 ejections.Thus, make the inside of nozzle casing 401 remain cleaning.

As mentioned above, in the 401d of the par of nozzle casing 401, be provided with circular recess 401c in the zone that comprises squit hole 401a.After cleaning the assigned position that water supply unit 420 inserts in the nozzle casings 401, utilizing columned instrument etc. is that the center big border circular areas of contrast squit hole 401a diameter is pushed with squit hole 401a, forms this recess 401c thus.The degree of depth of recess 401c is 0.1～0.3mm for example, but is not limited thereto.

Upper end to lower end in the inside of runner fluidic junction 404h from runner fluidic junction 404h forms hole portion 25, the 25a of contracted flow portion, cylindric volute chamber 25b and the 25c of contracted flow portion successively.

The clean water of runner 27d flows through the 25c of contracted flow portion supplies with cylindric volute chamber 25b.The internal diameter of the 25c of contracted flow portion reduces continuously towards cylindric volute chamber 25b, so rise continuously at the flow velocity of the mobile clean water of the 25c of contracted flow portion.

The clean water of supplying with cylindric volute chamber 25b flows into the contracted flow 25a of portion.The internal diameter of the 25a of contracted flow portion reduces continuously towards hole portion 25, so rise continuously at the flow velocity of the mobile clean water of the 25a of contracted flow portion.The clean water of supply hole portion 25 sprays towards human body.

Shown in Figure 27 (c), cylindric volute chamber 25b is communicated with runner 27a.The clean water of supplying with from runner 27a is given revolving force and is produced rotating flow the clean water of supplying with cylindric volute chamber 25b from runner 27d among cylindric volute chamber 25b.Form the fixed-site sheet 404c that has along the curve form of the leading section inner face of nozzle casing 401 at the leading section of runner fluidic junction 404h.The front end of fixed-site sheet 404c is supported in the front end inner face of nozzle casing 401, thereby runner fluidic junction 404h is axially obtaining the location in nozzle casing 401.

As shown in figure 28, below runner fluidic junction 404h, be provided with the projection 404d, the 404e that have along the curve form of the inner face of nozzle casing 401 in the both sides of the 25c of contracted flow portion.

The inner face of projection 404d, 404e and nozzle casing 401 is butt in intimate contact.

It is relative that the inner face of the par 401d of nozzle casing 401 and the par 404f of runner fluidic junction 404h clip O shape ring 404b ground.Under this state, the hole portion 25 of runner fluidic junction 404h is positioned at the approximate centre of the squit hole 401a of nozzle casing 401.

In embodiment 2, in nozzle casing 401, the inner face of the par 401d by nozzle casing 401 is relative with the par 404f of runner fluidic junction 404h, thereby obtains the location in a circumferential direction at nozzle casing 401 inner flow passage fluidic junction 404h.

This occasion just can make hole portion 25 automatically locate with respect to squit hole 401a as long as will clean in the water supply unit 420 insertion nozzle casings 401, so positioning operation is easy.

And the engaging protrusion 402b that is located at two flow-path tube 402c rear ends engages with the breach 401b that is located at nozzle casing 401 rear ends, thereby is located reliably in a circumferential direction at nozzle casing 401 inner flow passage fluidic junction 404h.And, the engaging protrusion 404g of runner fluidic junction 404h engages with the breach 403a of a flow-path tube 403c, the engaging protrusion 402a of two flow-path tube 402c engages with the breach 403b of a flow-path tube 403c, thus, can prevent two flow-path tube 402c, a flow-path tube 403c and runner fluidic junction 404h dislocation in a circumferential direction.By the front end of fixed-site sheet 404c and the front end inner face butt of nozzle casing 401, thereby axially obtaining the location at nozzle casing 401 inner flow passage fluidic junction 404h.And projection 404d, 404e and nozzle casing 401 inner face butts by being located at runner fluidic junction 404h can prevent the dislocation at nozzle casing 401 inner flow passage fluidic junction 404h.Thus, can prevent the dislocation of hole portion 25 with respect to squit hole 401a.Consequently, can prevent dispersing of the clean water that causes with respect to squit hole 401a dislocation because of hole portion 25.

In the 401d of the par of nozzle casing 401,, can carry out reinforcement to par 401d by forming recess 401c in the zone that comprises squit hole 401a.Thus, can prevent the distortion of par 401d by the elasticity of O shape ring 404b.

In embodiment 2, fixed-site sheet 404c is equivalent to the front end abutting part, runner fluidic junction 404h is equivalent to spray member, clean water supply unit 420 and be equivalent to pipeline, projection 404d, 404e are equivalent to the periphery abutting part, and breach 401b is equivalent to the holding section, and engaging protrusion 402b is equivalent to be stuck portion, par 401d is equivalent to the 1st par, and par 404f is equivalent to the 2nd par.

And the nozzle casing 401 of embodiment 2 also can use the good stainless steel of antibiotic property that contains copper or silver.In addition, can use material not yielding, can be integrally formed.For example, both can use metals such as copper beyond the stainless steel, aluminium, nickel, chromium, also can use other alloys.

In embodiment 2, form recess 401c, but when par 401d does not produce distortion, also can not form recess 401c with instrument etc.

In addition, in embodiment 2, when runner fluidic junction 404h is located in a circumferential direction reliably, also can not form par 401d in nozzle casing 401.

(embodiment 3)

Followingly describe with reference to the difference and the action effect thereof of accompanying drawing to the structure of the body 200 of the hygienic washing device of the body structure of the hygienic washing device of embodiment 3 and embodiment 1.

Figure 29 is the ideograph of other examples of the remote-control apparatus 300 of Fig. 1.

As shown in figure 29, remote-control apparatus 300 is also to have clean switch 309 of nozzle and the clean switch 310 of nozzle high temperature with the difference of the remote-control apparatus 300 of Fig. 1 of embodiment 1.

When pressing nozzle and clean switch 309, then clean water spray nozzle part 30 is cleaned, when pressing nozzle high temperature and clean switch 310, the clean water that then is heated to high temperature is cleaned spray nozzle part 30.For nozzle clean switch 309 and nozzle high temperature clean the push of switch 310 performed to the details of the clean action of spray nozzle part 30 as hereinafter described.Below, will clean the clean nozzle that is called of spray nozzle part 30.

Below the body 200 of the hygienic washing device 100 of the embodiment of the invention 3 is described.

As shown in figure 30, body 200 is also have seating sensor 51, discharge water transfer valve 14B, discharging water route 207 and supply with water route 266 with the difference of the body 200 of Fig. 3 of embodiment 1.Discharge water transfer valve 14B has motor M2.

In Figure 30, the structure of motor M1 is identical with the structure of the motor M of Fig. 3, and the structure of transfer valve 14A is identical with the structure of the transfer valve of Fig. 3 14, and the structure of discharge water transfer valve 14B is identical with the structure of transfer valve 14A.

Discharge water transfer valve 14B is installed in the downstream of branch's pipe arrangement 205.The flow that the control signal that discharge water transfer valve 14B gives according to control part 4, the nozzle of subtend and spray nozzle part 30 are cleaned the supply water route 266 that is connected with nozzle 3 and discharged the clean water of water route 207 supplies is regulated.Thus, be not subjected to the influence of tap water supply pressure, in the back pressure of pump 13 effect regulations.

Supply with when cleaning water to the buttocks nozzle 1 of spray nozzle part 30 or lady's hip bath nozzle 2, then clean water from buttocks nozzle 1 or 2 ejections of lady's hip bath nozzle.Supply with when cleaning water and clean to supply with when cleaning water and to clean with nozzle 3 to nozzle to nozzle, then clean and clean the hole ejection with the nozzle on the nozzle 3 and clean water from being located at nozzle by above-mentioned discharge water transfer valve 14B with nozzle 3 by transfer valve 14A.Spray to buttocks nozzle 1 and lady's hip bath nozzle 2 with nozzle 3 from nozzle is clean by cleaning water, thereby the nozzle that carries out buttocks nozzle 1 and lady's hip bath nozzle 2 is cleaned.Clean with the clean hole of the nozzle of nozzle 3 and will narrate in the back for nozzle.

The temperature of the clean water that sprays from the clean hole of the clean nozzle with nozzle 3 of nozzle is different to the push of clean switch 309 of the nozzle of remote-control apparatus 300 or the clean switch 310 of nozzle high temperature because of the user.Will narrate in the back the temperature of cleaning water.

Regulate by transfer valve 14A from the flow of the clean water of buttocks nozzle 1 and lady's hip bath nozzle 2 ejections.Clean the flow of the clean water that sprays with nozzle 3 is regulated by transfer valve 14A and discharge water transfer valve 14B from nozzle.Also can be undertaken cleaning from buttocks nozzle 1, lady's hip bath nozzle 2 and nozzle by the driving force of change pump 13 with the adjusting of the flow of the clean water of nozzle 3 ejections.

In embodiment 3, control part 4 further gives control signal according to the signal about having or not the user in the toilet seat portion 400 from seating sensor 51 to discharge water transfer valve 14B.

The flow of Figure 31 clean water that to be expression flow out to buttocks nozzle 1 from clean water out 143c, the 143d of transfer valve 14A, from flow from hip bath nozzle 2 to the women that clean the clean water that water out 143b flows out with and from cleaning water out 143e cleans figure from the flow of the clean water that flows out with nozzle 3 to nozzle.

The transverse axis of Figure 31 is represented the anglec of rotation of motor M1, and the longitudinal axis is represented from an example of the flow of the clean water of cleaning water out 143b～143e outflow.Solid line Q1 represents from cleaning the variation of water out 143c to the flow of the clean water of buttocks nozzle 1 outflow, chain-dotted line Q2 represents from cleaning the variation of water out 143d to the flow of the clean water of buttocks nozzle 1 outflow, double dot dash line Q3 represents the variation to the flow of the clean water of lady's hip bath nozzle 2 outflows from clean water out 143b, and dotted line Q4 represents from cleaning water out 143e cleans the flow of the clean water of using nozzle 3 outflows to nozzle by heat interchanger 11 variation.

For example, as shown in figure 31, when motor M1 does not rotate (0 degree), show maximum value to the flow Q3 of the clean water of lady's hip bath nozzle 2 outflows from cleaning water out 143b.Anglec of rotation increase along with motor M1 reduces to the flow Q3 of the clean water of lady's hip bath nozzle 2 outflows from clean water out 143b, from cleaning water out 143e cleans flow Q4 increase from the clean water of using nozzle 3 outflows to nozzle.

Then, after motor M1 revolves and turn 90 degrees, from cleaning water out 143e cleans flow Q4 demonstration maximum value from the clean water that flows out with nozzle 3 to nozzle.Along with the anglec of rotation of motor M1 further increases, reduce from cleaning the flow Q4 that water out 143e cleans the clean water that flows out with nozzle 3 to nozzle, from cleaning the flow Q1 increase of the clean water that water out 143c flows out to the 1st runner of buttocks nozzle 1.

Then, behind motor M1 Rotate 180 degree, show maximum value to the flow Q1 of the clean water of the 1st runner outflow of buttocks nozzle 1 from cleaning water out 143c.Along with the anglec of rotation of motor M1 further increases, reduce from the flow Q1 that cleans the clean water that water out 143c flows out to the 1st runner of buttocks nozzle, increase from the flow Q2 that cleans the clean water that water out 143d flows out to the 2nd runner of buttocks nozzle 1.

Behind motor M1 rotation 270 degree, show maximum value to the flow Q2 of the clean water of the 2nd runner outflow of buttocks nozzle 1 from cleaning water out 143d.Along with the anglec of rotation of motor M1 further increases, reduce from the flow Q2 that cleans the clean water that water out 143d flows out to the 2nd runner of buttocks nozzle, increase from the flow Q3 that cleans the clean water that water out 143b flows out to lady's hip bath nozzle 2.

As mentioned above, control part 4 is controlled by the anglec of rotation to the motor M1 of transfer valve 14A, thereby can be to controlling from the flow of cleaning the clean water that water out 143b～143e flows out.And, no matter the anglec of rotation of the motor M1 of transfer valve 14A when, any one or the chamfered section (recess) around their of cleaning among water out 142e, 142f, the 142g are all relative with among clean water out 143b～143e any one, be not closed so clean the runner of water, from cleaning clean water any outflow from clean water out 143b～143e that water inlet 143a supplies with.

Discharge water transfer valve 14B is identical with the structure of transfer valve 14A, is made of motor M2, inner core and urceolus.But, the urceolus at discharge water transfer valve 14B is provided with 1 clean water inlet and 2 clean water outs.Clean water and supply with 1 clean water inlet of discharge water transfer valve 14B from branch's pipe arrangement 205.

In 2 clean water outs of discharge water transfer valve 14B, one is connected with discharging water route 207, and another is connected with nozzle 3 with the nozzle of spray nozzle part 30 is clean by supplying with water route 266.

14A is identical with transfer valve, and the motor M2 of discharge water transfer valve 14B is rotated action according to the control signal that control part 4 gives.The inner core of discharge water transfer valve 14B is followed the rotation of motor M2 and is rotated, and import clean water in branch's pipe arrangement 205 and supply with discharging water route 207 or supply with in the water route 266 any, or with proportional diverting arbitrarily.

Followingly describe with reference to the spray nozzle part 30 of accompanying drawing to embodiment 3.

Figure 32 is the stereoscopic figure of the spray nozzle part 30 of Fig. 1.In Figure 32, the buttocks nozzle 1 with drum is adjacent to be arranged in parallel with lady's hip bath nozzle 2.The upper face side of buttocks nozzle 1 and lady's hip bath nozzle 2 across the boundary portion of buttocks nozzle 1 and lady's hip bath nozzle 2 set up nozzle and cleaned with nozzle 3.Nozzle is cleaned the front that is positioned at buttocks nozzle 1 and lady's hip bath nozzle 2 with nozzle 3.

Here, nozzle is cleaned with nozzle 3 by constituting with integrally formed sidewall 70W and the airtight member 3K of buttocks nozzle 1 and lady's hip bath nozzle 2.Airtight member 3K is installed in top (arrow E of Figure 32) of sidewall 70W, cleans clean runner 71 of water importing space the 70, the 1st nozzle and the clean runner 72 of the 2nd nozzle thereby form.

Clean water and import space 70 by being set in place through hole and the external communications on clean water importing tablet 3Ka, the 3Kb of airtight member 3K rear end.Import the 1st nozzle that space 70 branches form and clean runner 71 and the 2nd nozzle and clean runner 72 and lay respectively at above buttocks nozzle 1 side and above lady's hip bath nozzle 2 sides from cleaning water.

On clean water importing tablet 3Ka, the 3Kb of airtight member 3K, not shown pipe etc. is installed.Cleaning water importing tablet 3Ka, 3Kb is connected with the clean water out of the discharge water transfer valve 14B of Figure 30 and the clean water out 143e of transfer valve 14A respectively by pipe.Thus, cleaning water cleans with nozzle 3 by the pipe supply nozzle.

Figure 33 is the axial sectional elevation of the buttocks nozzle 1 of Figure 32.In Figure 32, buttocks nozzle 1 is not outstanding, but expression here is sectional elevation under the outstanding situation of buttocks nozzle 1.

As shown in figure 33, buttocks nozzle 1 is made of piston portion 20, cylinder body cylindraceous portion 21, seal washer 22a, 22b and spring 23.

Upper surface in runner fluidic junction 404 forms the hole portion 25 that the clean water of ejection is used.Be provided with retainer 126a, the 126b of flange shape in the rear end of piston portion 20.In addition, on retainer 126a, 126b, be separately installed with seal washer 22a, 22b.

Be formed with from rear end face and the runner 27a that a flow-path tube 403 is communicated with in the inside of two flow-path tubes 402, also be formed with the runner 27c that is communicated with the front end face of two flow-path tubes 402 from the periphery of the piston portion 20 between retainer 126a and the retainer 126b.

Be formed with the runner 27b that is communicated with runner fluidic junction 404 from the runner 27a of two flow-path tubes 402 in the inside of a flow-path tube 403.Space between a nozzle casing 401 and the flow-path tube 403 becomes runner 27d.The concrete structure such as the back of runner fluidic junction 404 are chatted.

On the other hand, cylinder body portion 21 partly is made of the major diameter of the small diameter portion of front, the mid portion with mid diameter, rear end side.Thus, but between small diameter portion and mid portion, form the stop surface 21c of the retainer 126a of piston portion 20, but mid portion and large-diameter portion form the stop surface 121b of the retainer 126b of piston portion 20 by seal washer 22b butt between dividing by seal washer 22a butt.

Be provided with at the rear end face of cylinder body portion 21 and clean water inlet 24a, on the periphery of the mid portion of cylinder body portion 21, be provided with and clean water inlet 24b.In addition, clean water inlet 24b and in the cross section of Figure 32, do not occur, but in Figure 33, represent for convenience of description.Front in cylinder body portion 21 is provided with peristome 20X, is formed with the nozzle that forms the general cylindrical shape shape simultaneously and cleans tube 26.The inner space of cylinder body portion 21 becomes temperature change buffer part 28.Clean water inlet 24a and be eccentrically set on the position different with the central axis of cylinder body portion 21.

Clean water inlet 24a and be connected, clean water inlet 24b and be connected with the clean water out 143d of transfer valve 14A with the clean water out 143c of transfer valve 14A.Piston portion 20, is cleaned water inlet 24b and is communicated with the runner 27c of two flow-path tubes 403 when the most outstanding from cylinder body portion 21.The concrete condition of the action when this clean water inlet 24b is connected with runner 27c as hereinafter described.

Piston portion 20 inserts in the cylinder body portion 21 movably, so that retainer 126b is positioned at temperature change buffer part 28, leading section is outstanding from peristome 20X.

And spring 23 is provided between the periphery of peristome 20X of the retainer 126a of piston portion 20 and cylinder body portion 21, to the rear end side application of force of piston portion 20 towards cylinder body portion 21.

Form minim gap between the outer peripheral face of retainer 126a, the 126b of piston portion 20 and the inner peripheral surface of cylinder body portion 21, form minim gap between the inner peripheral surface of the peristome 20X of the outer peripheral face of piston portion 20 and cylinder body portion 21.

Then the action to the buttocks nozzle 1 of Figure 33 describes.Figure 34 is the sectional elevation of action usefulness of the buttocks nozzle 1 of explanation Figure 33.Here also identical with Figure 33, for convenience of description, expression has the not cross sectional shape of the clean water inlet 24b of appearance of cross section.

At first, shown in Figure 34 (a), do not supply with when cleaning water from clean water inlet 24a, the 24b of cylinder body portion 21, piston portion 20 retreats towards the direction opposite with arrow S under the elastic force effect of spring 23, is accommodated in the cylinder body portion 21.Consequently, piston portion 20 becomes the least outstanding state from the peristome 20X of cylinder body portion 21.At this moment, in cylinder body portion 21, there is not formation temperature change buffer part 28.

Then, shown in Figure 34 (b), begin to supply with when cleaning water from the clean water inlet 24a of cylinder body portion 21, piston portion 20 overcomes spring 23 under the pressure effect of cleaning water elastic force advances towards arrow S direction gradually.Thus, formation temperature change buffer part 28 in the cylinder body portion 21 is cleaned water simultaneously and is flowed in the temperature change buffer part 28.

Clean water inlet 24a is arranged on the eccentric position with respect to the central axis of cylinder body portion 21, so the clean water that flows into temperature change buffer part 28 refluxes into vortex shape shown in arrow V.The part of the clean water of temperature change buffer part 28 flows through the minim gap between the inner peripheral surface of the outer peripheral face of retainer 126a, 126b of piston portion 20 and cylinder body portion 21, flow out from the minim gap between the inner peripheral surface of the peristome 20X of the outer peripheral face of piston portion 20 and cylinder body portion 21, flow through runner 27a, 27b, 27c, the 27d of piston portion 20 simultaneously and supply with runner fluidic junction 404, ejection is arranged slightly from hole portion 25.

When piston portion 20 was advanced further, then shown in Figure 34 (c), retainer 126a, 126b contacted with stop surface 21c, the 121b water-stop of cylinder body portion 21 by seal washer 22a, 22b.Thus, the runner of the minim gap between the inner peripheral surface of the peristome 20X of outer peripheral face from the minim gap between the inner peripheral surface of the outer peripheral face of retainer 126a, the 126b of piston portion 20 and cylinder body portion 21 to piston portion 20 and cylinder body portion 21 is cut off.

And the runner 27c, the 27d that flow through piston portion 20 from the clean water of cleaning water inlet 24b supply supply with runner fluidic junction 404.Thus, flow through runner 27a, b and mix with the clean water that flows through runner 27c, 27d supply to the clean water of runner fluidic junction 404 supplies, and from 25 ejections of hole portion.Here, the squit hole 401a of the leading section of nozzle casing 401 has the internal diameter bigger than hole portion 25.Thus, the clean water that sprays from hole portion 25 can not collide with squit hole 401a, can not hinder the ejection of cleaning water.

The nozzle casing of lady's hip bath nozzle 2 is identical with the nozzle casing 401 of buttocks nozzle 1, also is made of stainless steel.And, omit the detailed structure of lady's hip bath nozzle 2 and the explanation of action.

Buttocks nozzle 1 clean is to be undertaken by cleaning from nozzle with the clean water of nozzle 3 ejections under the state in piston 20 is accommodated in cylinder body 21.Cleaning of lady's hip bath nozzle 2 also carried out with the clean of buttocks nozzle 1 the samely.

Figure 35 is the Y-Y line sectional view of the spray nozzle part 30 of Figure 32.In Figure 35, the nozzle of cleaning tube 26, lady's hip bath nozzle 2 for the nozzle of clearer and more definite buttocks nozzle 1 is cleaned tube 26c and nozzle and is cleaned cross sectional shape with nozzle 3, has omitted the details of outward appearance of the cylinder body 21d of the cylinder body 21 of the cross sectional shape of piston 20b of the piston 20 of buttocks nozzle 1 and lady's hip bath nozzle 2 and buttocks nozzle 1 and lady's hip bath nozzle 2.

As shown in figure 35, piston 20,20b have been taken in each inside of the clean tube 26 of nozzle, 26c.The cross section that nozzle is cleaned tube 26,26c forms circular, and the internal diameter that nozzle is cleaned tube 26,26c is bigger than the external diameter of the piston 20 that forms circular, 20b.At the clean tube 26 of nozzle, when 26c is oval, nozzle is cleaned the minimum diameter of tube 26,26c and is set for bigger than the maximum profile of piston 20,20b.

The upper surface of cleaning lady's hip bath nozzle 2 sides of tube 26 at nozzle is provided with the clean hole 26h of nozzle.The upper surface of cleaning buttocks nozzle 1 side of tube 26c at nozzle is provided with the clean hole 26hb of nozzle.Like this, nozzle is cleaned hole 26h, 26hb and respectively is provided with 1 respectively on the clean tube 26 of nozzle, 26c.

Here, the internal diameter of nozzle being cleaned tube 26 and the difference of the external diameter of piston 20 are as L2, and nozzle is cleaned the aperture of hole 26h as L1, then between L1 and L2, and the establishment of the relation of L1＜L2.

But, clean tube 26 at nozzle, when 26c is elliptical shape, the aperture L1 that nozzle is cleaned hole 26h sets to such an extent that to clean the difference L2 of external diameter of the minimum diameter of tube 26 and piston 20 than nozzle little.

The difference of the internal diameter of the clean tube of nozzle 26c and the external diameter of piston 20b and nozzle are cleaned between the 26hb of hole and are also had same relation.

The 1st nozzle cleans runner 71 and the 2nd nozzle is cleaned runner 72 is cleaned tube 26,26c respectively by nozzle clean hole 26h, 26hb and nozzle internal communication.Clean runner 71 of the 1st nozzle and the 2nd nozzle are cleaned runner 72 respectively as mentioned above from clean water importing space 70 branches of Figure 32, make the clean water of supplying with from clean water importing space 70 clean hole 26h, 26hb from nozzle and spray to the inside of clean 26 at nozzle, 26c.

By clean the clean water of hole 26h, 26hb ejection from nozzle, in the inside of the clean tube 26 of nozzle, 26c, piston 20,20b carry out following action.

And, cleaning the clean runner 72 of runner 71 and the 2nd nozzle from the 1st nozzle before water is cleaned in the inside ejection of the clean tube 26 of nozzle, 26c, piston 20,20b are positioned at the position in the axle center of clean 26 of offset nozzle, 26c as shown in figure 35. Piston 20,20b have the inside that is accommodated in cylinder body 21,21d under the state of swing property at the peristome 20X that utilizes Figure 33.

Figure 36 is the action usefulness of the piston 20 of runner 71 when water is cleaned in the ejection of the inside of the clean tube 26 of nozzle is cleaned in explanation from the 1st nozzle of Figure 32 a key diagram.Here, flowing of the clean water on the vertical cross-section direction of buttocks nozzle 1 being reached the mobile of piston 20 describes.Here, with the axle center of piston 20 as Cn.

Shown in Figure 36 (a), clean water and clean runner 71 is cleaned tube 26 to nozzle by the clean hole 26h of nozzle inside ejection from the 1st nozzle.This occasion, it is mobile like that shown in arrow R1, R2 in the inside that nozzle is cleaned tube 26 to clean water.

When the clean water of cleaning hole 26h from nozzle sprayed, piston 20 was positioned at the bottom that nozzle is cleaned tube 26.Piston 20 is under pressure because of (arrow R2) between the lower side inwall that flows into the clean tube 26 of piston 20 and nozzle cleans water, and axle center Cn moves.

Shown in Figure 36 (b), clean water when the inside ejection of cleaning tube 26 to nozzle from the state continuation of Figure 36 (a), then clean water is mobile like that shown in arrow R1, R2, R3 in the inside that nozzle is cleaned tube 26.

This occasion, by moving shown in Figure 36 (a), the piston 20 that moves to the top of the clean tube 26 of nozzle is under pressure because of (arrow R3) between the lateral side inwall that flows into the clean tube 26 of piston 20 and nozzle clean water, and axle center Cn moves.

Shown in Figure 36 (c), clean water when the inside ejection of cleaning tube 26 to nozzle from the state continuation of Figure 36 (b), then clean water is mobile like that shown in arrow R1, R2, R3, R4 in the inside that nozzle is cleaned tube 26.

The axle center Cn of piston 20 by cleaning the pressure that clean water produced that flows between the inwall of tube 26 at the outer peripheral face of piston 20 and nozzle, moves (vibration) and be that the center is small repeatedly on direction at random with the axle center that nozzle is cleaned tube 26.The vibration of the piston 20 that causes because of fluid pressure in the clean tube of nozzle 26 inside like this is the vibrations that are commonly referred to as self-excited vibration.

In order to produce such self-excited vibration, nozzle is cleaned hole 26h shown in the chain-dotted line of Figure 35, preferably is arranged to spray clean water to the outer peripheral face tangential direction (tangential direction of the some F of Figure 35) that nozzle is cleaned the axle center of tube 26 piston 20 when consistent with the axle center of piston 20.Piston 20 is best to be constituted in light weightly.

Like this, when cleaning water and flow through nozzle and clean hole 26h towards the outer peripheral face tangential direction ejection of piston 20, the flow velocity when then cleaning water and not damaging ejection, rotation effectively around the outer peripheral face of buttocks nozzle 1.

In addition, in order to produce self-excited vibration, nozzle is cleaned more than the preferably about 0.7mm in aperture of hole 26h and below about 1.0mm.

Figure 37 is the clean water of tube 26 inner ejections is cleaned in the stereogram that flows from expression to nozzle.

As shown in figure 37, clean of the outer peripheral face helical form rotation of the clean water of hole 26h ejection from nozzle, and flow out from the front end opening of the clean tube 26 of nozzle along piston 20.

Because of spray nozzle part 30 bodies tilt, thus the clean water of cleaning 26h ejection in hole from nozzle the outer peripheral face rotation of piston 20 and towards below flow, producing thus should be mobile.

Here, the clean hole 26h of nozzle vertically is provided with respect to the length direction of the clean tube 26 of nozzle.Thus, even when nozzle is cleaned hole 26h and cleaned water with very fast flow velocity ejection, clean water can directly not flow out from the front end opening that nozzle is cleaned tube 26 yet.

The clean water of cleaning 26h ejection in hole from nozzle is mobile along the outer peripheral face helically of piston 20, thereby clean water near the whole face the leading section of piston 20 is cleaned.And near the foul of front end that sticks to piston 20 can be more effectively cleaned in the self-excited vibration of the piston 20 when spraying by cleaning water.

To clean of the outer peripheral face rotation of the clean water of tube 26 inner ejections in order making, to need and to be adjusted to more than the setting from the flow velocity that nozzle is cleaned the clean water of hole 26h ejection along piston 20 to nozzle.Thereby this is because make the revolving force of cleaning water increase the cause of the hypotelorism of rotating flow by increasing the flow velocity of cleaning water.Thus, the clean enlarged areas of piston 20.Consequently, can fully guarantee the hygienic state of buttocks nozzle 1 and lady's hip bath nozzle 2.

In embodiment 3, preferably will be adjusted to about 5～15m/s from the flow velocity that nozzle is cleaned the clean water of hole 26h ejection.This occasion is cleaned water and is rotated preferably at the outer peripheral face of piston 20.Thus, produce the self-excited vibration of piston 20.

As mentioned above, nozzle is cleaned with nozzle 30 and is cleaned in the annulus between tube 26,26c and the piston 20 by cleaning the water distributing nozzle, just can carry out the clean, simple in structure of buttocks nozzle 1 and lady's hip bath nozzle 2, can realize saving the space.

In addition, as mentioned above, the internal diameter that nozzle is cleaned tube 26,26c is bigger than the external diameter of the piston 20 that forms circular, 20b, so distributing nozzle is cleaned the space-efficient ground rotation of clean water between the clean tube 26 of nozzle, 26c and piston 20,20b of hole 26h, 26hb.Consequently, the outer peripheral face of buttocks nozzle 1 and lady's hip bath nozzle 2 is cleaned at large.

In the above in the narration, in order to produce self-excited vibration, more than the preferably about 0.7mm in aperture of the clean hole 26h of nozzle and below about 1.0mm, do into about more than the 0.7mm and below about 1.0mm by the aperture of nozzle being cleaned hole 26h, even clean flow and be about lower 0.5L/min, also can obtain clean fully effect with high flow velocity.

Figure 38 is the ideograph that the structure of the leading section of clean tube 26 of explanation nozzle and piston 20 is used.

Shown in Figure 38 (a), the front end of piston 20 is given prominence to (scope of arrow H1) a little at the front end from the clean tube 26 of nozzle when cylinder body 21 is taken in.

Like this, the front end that the front end by piston 20 is cleaned tube 26 from nozzle is outstanding, thereby the clean water that can prevent to clean tube 26 inner ejections to nozzle are cleaned a upper face side of tins 26 to nozzle when front end flows out and dispersed.This phenomenon obtains according to wall attachment effect.

Wall attachment effect is meant that when being placed with object in the fluid that flows fluid can be along the mobile character of this object.Promptly, because the front end that the roughly hemispheric front end of piston 20 is cleaned tube 26 from nozzle is outstanding, so in the rotation of the outer peripheral face helically of piston 20 and clean clean water that tube 26 front ends flow out from nozzle and can not disperse, and flow out along the front end of piston 20 towards the upper face side that nozzle is cleaned tube 26.

The leading section that nozzle is cleaned tube 26 and piston 20 also can have the structure shown in Figure 38 (b).In Figure 38 (b), be provided with the breach NV of specific length (arrow H2) at the leading section upper face side of the clean tube 26 of nozzle.In addition, the front end of piston 20 nozzle of the breach NV front end outstanding (scope of arrow H1) a little of cleaning tube 26 never.

This occasion, is cleaned flowing of clean water that the inwall of tube 26 flows along nozzle at the clean water by flowing along the leading section of piston 20, and the clean water of cleaning hole 26h ejection from nozzle is more effectively flowed out from the leading section below that nozzle is cleaned tube 26.Therefore, can prevent to clean water reliably cleans from nozzle and cleans the upper face side that water cleans tube 26 to nozzle when tube 26 front ends flow out and disperse.Be located at nozzle clean tube 26 the leading section upper face side breach NV the length of circumferencial direction preferably nozzle clean the pact of circumference of tube 26 about half.

And the leading section that nozzle is cleaned tube 26 and piston 20 also can have the structure shown in Figure 38 (c).

In Figure 38 (c), gate SH can be installed in the leading section upper face side that nozzle is cleaned tube 26 up and down rotationally by pin Pi.When piston 20 was outstanding towards the direction of arrow G 1, gate SH rotated towards the direction of arrow G 2.

If adopt gate SH, disperse even clean the leading section upper face side that clean water that tube 26 front ends flow out cleans tube 26 to nozzle from nozzle, also can make the clean water adhesion that disperses on gate SH and fall.Thus, can prevent reliably that the clean water of cleaning the outflow of tube 26 front ends from nozzle from dispersing to the leading section upper face side of the clean tube 26 of nozzle.

Moreover, here gate SH is described, but be not limited thereto, get final product so long as can prevent a member that disperses of cleaning the clean water that tube 26 front ends flow out from nozzle, also can replace gate SH on nozzle cleans tins 26 or above plate etc. is set disperses and prevent wall.

Abovely the nozzle of buttocks nozzle 1 is cleaned tube 26 and nozzle is cleaned the shape of hole 26h and the self-excited vibration of piston 20 is illustrated according to Figure 36～Figure 38, but in lady's hip bath nozzle 2, nozzle cleans tube 26c and the clean hole 26hb of nozzle also has same shape, and piston 20 produces identical self-excited vibration.

The operating state of pump 13, transfer valve 14A and the discharge water transfer valve 14B of Figure 39 Figure 30 after to be the expression user with the buttocks switch 303 of Figure 29 and shutdown switch 305 press and clean with the figure of nozzle 3 to the variation of the flow of the clean water of buttocks nozzle 1 and 2 ejections of lady's hip bath nozzle from the nozzle of Figure 30.

In Figure 39, the longitudinal axis that nozzle is cleaned the figure of flow represents that transverse axis is represented the time from the clean water of buttocks nozzle 1 and 2 ejections of the lady's hip bath nozzle ratio for the flow of the clean water of the sealing electromagnetic valve 9 that flows through Figure 30.In addition, the clean water that the solid line L70 among the figure represents to import Figure 32 imports the flow of the clean water in the space 70, and dotted line L71 represents to clean the flow of runner 71 to the clean water of buttocks nozzle 1 ejection from the 1st nozzle of Figure 32.

In the following description, the action of pump 13, transfer valve 14A and discharge water transfer valve 14B is by control part 4 controls of Figure 30.

At moment ta1, the user presses buttocks switch 303 opens pump 13.On the one hand, transfer valve 14A makes motor M1 rotation, so that cleaned with nozzle 3 supplies to nozzle by the clean water of pump 13 force feeds.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that clean with nozzle 3 at branch's pipe arrangement 205 mobile clean water supply nozzles of Figure 30.

Thus, come the clean water of self-pumping 13 and import space 70 from the clean water that the clean water of branch's pipe arrangement 205 is supplied with Figure 32.This occasion shown in the solid line L70 among the figure, is supplied with clean water to cleaning water importing space 70 with 100% flow.

Supply with to clean clean water that water imports space 70 and clean runner 71 and nozzle by the 1st nozzle of Figure 35 and clean hole 26h the piston 20 of buttocks nozzle 1 is cleaned, clean runner 72 and nozzle by the 2nd nozzle and clean hole 26hb the piston 20b of the lady's hip bath nozzle 2 of Figure 35 is cleaned.

This occasion, shown in dotted line L71 among the figure, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment ta2, pump 13 still moves.On the one hand, transfer valve 14A makes motor M1 rotation so that supplied with to buttocks nozzle 1 by the clean water of pump 13 force feeds.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that supply with discharging water route 207 at branch's pipe arrangement 205 mobile clean water of Figure 30.

Thus, clean water stops the supply in the clean water importing space 70 of Figure 32, cleans water simultaneously and supplies with buttocks nozzle 1, and body local is cleaned.When the user wanted to finish buttocks nozzle 1 clean, the shutdown switch 305 of pressing Figure 29 got final product.

At moment ta3, the user is by pressing shutdown switch 305, and pump 13, transfer valve 14A and discharge water transfer valve 14B carry out the action identical with the situation of above-mentioned moment ta1.Thus, come the clean water of self-pumping 13 and import space 70 from the clean water that the clean water of branch's pipe arrangement 205 is supplied with Figure 32.This occasion shown in the solid line L70 among the figure, is cleaned water and is supplied with clean water importing space 70 with 100% flow.

Supply with to clean clean water that water imports space 70 and clean runner 71 and nozzle by the 1st nozzle of Figure 35 and clean hole 26h the piston 20 of buttocks nozzle 1 is cleaned, clean runner 72 and nozzle by the 2nd nozzle and clean hole 26hb the piston 20b of the lady's hip bath nozzle 2 of Figure 35 is cleaned.

This occasion is also same as described above, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment ta4, pump 13 stops, and the action of transfer valve 14A and discharge water transfer valve 14B is identical with the situation of moment ta2 in addition.Thus, carried out the clean end of the buttocks nozzle 1 after body local is cleaned.

Time from moment ta1 to ta2 constantly and can freely set from moment ta3 to time of ta4 constantly, but preferably be set in the scope about 1 second～10 seconds.

Said pump 13, transfer valve 14A and discharge water transfer valve 14B also carry out identical action when the user presses the lady's hip bath switch 306 of Fig. 2.

Like this, when the user presses buttocks switch 303 or lady's hip bath switch 306, carrying out nozzle before piston 20, the 20b of buttocks nozzle 1 or lady's hip bath nozzle 2 are outstanding cleans, buttocks clean or lady's hip bath clean finish after, after piston 20, the 20b of buttocks nozzle 1 or lady's hip bath nozzle 2 take in, carry out nozzle and clean.

Thus, buttocks nozzle 1 and lady's hip bath nozzle 2 remain cleaning.In addition, the user can wait the state of knowing that nozzle is cleaned by cleaning sound, and can obtain buttocks nozzle 1 and lady's hip bath nozzle 2 is such sense of feeling at ease of cleaning all the time.

At moment ta1, ta3, the motor M2 of discharge water transfer valve 14B rotation is cleaned with nozzle 3 from the clean water supply nozzle of branch's pipe arrangement 205.Thus, can fully guarantee flow, thereby make buttocks nozzle 1 and lady's hip bath nozzle 2 obtain more effective cleaning as the clean clean water of nozzle.

Carry out nozzle when cleaning, also can replace and to clean with nozzle 3 from the clean water supply nozzle of branch's pipe arrangement 205, and by improving the driving force of pump 13, make and utilize the flow of the clean water that transfer valve 14A supplies with to increase.

When the user only wants to carry out buttocks nozzle 1 and lady's hip bath nozzle 2 clean, can press nozzle and clean switch 309.

Figure 40 is the operating state of the expression user pump 13, transfer valve 14A and the discharge water transfer valve 14B that the nozzle of Figure 29 are cleaned the Figure 30 after switch 309 is pressed and cleans with the figure of nozzle 3 to the variation of the flow of the clean water of buttocks nozzle 1 and 2 ejections of lady's hip bath nozzle from the nozzle of Figure 30.

Clean among the figure of flow at the nozzle of Figure 40, the longitudinal axis and transverse axis represent to clean with the nozzle of Figure 39 the identical content of figure of flow, also represent the content identical with the figure of Figure 39 for solid line L70 and dotted line L71.

In the following description, the action of pump 13, transfer valve 14A and discharge water transfer valve 14B is by control part 4 controls of Figure 30.

At moment tb1, user's push buttocks is cleaned switch 309 opens pump 13.On the one hand, transfer valve 14A makes motor M1 rotation, so that cleaned with nozzle 3 supplies to nozzle by the clean water of pump 13 force feeds.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that clean with nozzle 3 at branch's pipe arrangement 205 mobile clean water supply nozzles of Figure 30.

Thus, come the clean water of self-pumping 13 and import space 70 from the clean water that the clean water of branch's pipe arrangement 205 is supplied with Figure 32.This occasion shown in the solid line L70 among the figure, is supplied with clean water to cleaning water importing space 70 with 100% flow.

Supply with to clean clean water that water imports space 70 and clean runner 71 and nozzle by the 1st nozzle of Figure 35 and clean hole 26h the piston 20 of buttocks nozzle 1 is cleaned, clean runner 72 and nozzle by the 2nd nozzle and clean hole 26hb the piston 20b of the lady's hip bath nozzle 2 of Figure 35 is cleaned.

This occasion, shown in dotted line L71 among the figure, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment tb2, pump 13 stops.On the one hand, the motor M1 of transfer valve 14A rotates to the assigned position that does not carry out various clean whens action.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that supply with discharging water route 207 from branch's pipe arrangement 205 mobile clean water of Figure 30.Thus, clean water stops the supply in the clean water importing space 70 of Figure 32.

Like this, the user cleans switch 309 by pressing nozzle, can only carry out nozzle and clean.Thus, buttocks nozzle 1 and lady's hip bath nozzle 2 can be cleaned on high frequency ground according to user's wish.Therefore, the user cleans switch 309 by pressing nozzle, and can obtain buttocks nozzle 1 and lady's hip bath nozzle 2 is such senses of feeling at ease of cleaning.

At moment tb1, the rotation of the motor M2 by discharge water transfer valve 14B is cleaned with nozzle 3 from the clean water supply nozzle of branch's pipe arrangement 205.Thus, can fully guarantee flow, thereby make buttocks nozzle 1 and lady's hip bath nozzle 2 obtain more effective cleaning as the clean clean water of nozzle.

Carry out nozzle when cleaning, also can replace and to clean with nozzle 3 from the clean water supply nozzle of branch's pipe arrangement 205, and by improving the driving force of pump 13, make and utilize the flow of the clean water that transfer valve 14A supplies with to increase.

In the narration, can freely set from the time of moment tb1 to tb2 in the above, but consider the user to the clean clean state of nozzle feel at ease feel, preferably be set at more than at least 1 minute.In addition, also can press shutdown switch 305 by the user opportunity of tb2 constantly decides.

When the user wants buttocks nozzle 1 and lady's hip bath nozzle 2 carried out clean better effects if such as degerming clean, can press high temperature nozzle and clean switch 310.

Figure 41 is that the expression user cleans the operating state of pump 13, the transfer valve 14A of the Figure 30 after switch 310 is pressed, discharge water transfer valve 14B and heat interchanger 11 with the high temperature nozzle of Figure 29 and cleans with the figure of nozzle 3 to the variation of the flow of the clean water of buttocks nozzle 1 and 2 ejections of lady's hip bath nozzle from the nozzle of Figure 30.

Clean among the figure of flow at the nozzle of Figure 41, the longitudinal axis and transverse axis represent to clean with the nozzle of Figure 39 the identical content of figure of flow, also represent the content identical with the figure of Figure 39 for solid line L70 and dotted line L71.

In the following description, the action of pump 13, transfer valve 14A, discharge water transfer valve 14B and heat interchanger 11 is by control part 4 controls of Figure 30.

At moment tc1, the user presses the clean switch 310 of high temperature nozzle starts pump 13 and heat interchanger 11.On the one hand, transfer valve 14A makes motor M1 rotation, so that cleaned with nozzle 3 supplies to nozzle by the clean water of pump 13 force feeds.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that clean with nozzle 3 at branch's pipe arrangement 205 mobile clean water supply nozzles of Figure 30.

Thus, come the clean water of self-pumping 13 and import space 70 from the clean water that the clean water of branch's pipe arrangement 205 is supplied with Figure 32.This occasion shown in the solid line L70 among the figure, is supplied with clean water to cleaning water importing space 70 with 100% flow.

Supply with to clean clean water that water imports space 70 and clean runner 71 and nozzle by the 1st nozzle of Figure 35 and clean hole 26h the piston 20 of buttocks nozzle 1 is cleaned, clean runner 72 and nozzle by the 2nd nozzle and clean hole 26hb the piston 20b of the lady's hip bath nozzle 2 of Figure 35 is cleaned.

This occasion, shown in dotted line L71 among the figure, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment tc2, pump 13 and heat interchanger 11 still move.On the one hand, transfer valve 14A keeps the postrotational state of motor M1, so that cleaned with nozzle 3 supplies to nozzle by the clean water of pump 13 force feeds.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that supply with discharging water route 207 at branch's pipe arrangement 205 mobile clean water of Figure 30.

Here, the driving force of pump 13 descends.Thus, the temperature of the clean water by heat interchanger 11 heating rises.For example, suppose to adopt the heat interchanger 11 of about 1kW.When flowing through about 20 ℃ clean water with the flow of 0.3L/min in this heat interchanger 11, the temperature of cleaning water approximately rises 40 ℃.Consequently, can obtain about 60 ℃ clean water.

By the action of these pumps 13, transfer valve 14A, discharge water transfer valve 14B and heat interchanger 11, only the clean water of high temperature imports space 70 by the clean water that heat interchanger 11, pump 13 and transfer valve 14A supply with Figure 32.

This occasion in the figure of Figure 41, shown in solid line L70, imports high temperature is supplied with in space 70 with 30% flow clean water to cleaning water.

Supply is cleaned the clean water in water importing space 70 and by clean runner 71 of the 1st nozzle of Figure 35 and the clean hole 26h of nozzle the piston 20 of buttocks nozzle 1 is cleaned, and cleans hole 26hb by clean runner 72 of the 2nd nozzle and nozzle the piston 20 of lady's hip bath nozzle 2 is cleaned.

Shown in dotted line L71 among the figure, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment tc3, the identical action when carrying out of pump 13, transfer valve 14A, discharge water transfer valve 14B and heat interchanger 11 with above-mentioned moment ta1.Thus, come the clean water of self-pumping 13 and import space 70 from the clean water that the clean water of branch's pipe arrangement 205 is supplied with Figure 32.This occasion shown in the solid line L70 among the figure, is supplied with clean water to cleaning water importing space 70 with 100% flow.

Supply is cleaned the clean water in water importing space 70 and by clean runner 71 of the 1st nozzle of Figure 35 and the clean hole 26h of nozzle the piston 20 of buttocks nozzle 1 is cleaned, and cleans hole 26hb by clean runner 72 of the 2nd nozzle and nozzle the piston 20 of lady's hip bath nozzle 2 is cleaned.

This occasion is also same as described above, the flow of the clean water that sprays respectively from buttocks nozzle 1 and lady's hip bath nozzle 2 be supply with clean water import space 70 clean discharge 1/2.

At moment tc4, pump 13 and heat interchanger 11 stop.On the one hand, the motor M1 of transfer valve 14A rotates to the assigned position that does not carry out various clean action situations.On the other hand, discharge water transfer valve 14B makes the motor M2 rotation of Figure 30, so that supply with discharging water route 207 at branch's pipe arrangement 205 mobile clean water of Figure 30.Thus, clean water stops the supply in the clean water importing space 70 of Figure 32.

Time from moment tc1 to tc2 constantly and can freely set from moment tc3 to time of tc4 constantly, but preferably be set in the scope about 1 second～10 seconds.In addition, can freely set to the interval of moment tc3, but buttocks nozzle 1 and lady's hip bath nozzle 2 more effective cleaning preferably are set in the scope about 1 minute～3 minutes in order to obtain from moment tc2.

Like this, when the user presses high temperature nozzle and cleans switch 310, carry out nozzle with a large amount of clean water at first and clean, then utilize the clean water of high temperature to carry out nozzle and clean, reuse at last and clean water to carry out nozzle clean in a large number.Thus, can remove the foul that sticks on buttocks nozzle 1 and the lady's hip bath nozzle 2 reliably.

Spray to buttocks nozzle 1 that constitutes by stainless steel and lady's hip bath nozzle 2 by clean water, thereby can obtain bacteria reducing, degerming or bactericidal effect high temperature.

If adopt the buttocks nozzle 1 and the lady's hip bath nozzle 2 that constitute by stainless steel of thin-walled property, compare with resin etc. and to have big thermal transmittance, thereby the temperature of cleaning water can obtain enough bacteria-eliminating efficacies when about scope more than 60 ℃.Therefore, be not heated to 70～100 ℃ and can obtain enough bacteria-eliminating efficacies yet even will not clean water.Consequently, can realize energy-conservation.

The user utilizes the clean water of high temperature that buttocks nozzle 1 and lady's hip bath nozzle 2 are carried out bacteria reducing, degerming or sterilization, thereby to obtain be such sense of feeling at ease of cleaning.

In time from moment tc1 to moment tc2 and time from moment tc3 to moment tc4, also can replace and to clean with nozzle 3 from the clean water supply nozzle of branch's pipe arrangement 205, and, the flow of the clean water that utilizes transfer valve 14A supply is increased by improving the driving force of pump 13.

When seating sensor 51 detects human body in toilet seat portion 400, do not carry out above-mentioned use high temperature and clean the action that water is cleaned nozzle.For example, when the user sits in the toilet seat portion 400 and when supressing high temperature nozzle mistakenly and cleaning switch 310, the control part 4 of Figure 30 has or not user's signal according to the toilet seat portion 400 from seating sensor 51 inputs, will use high temperature to clean action that water cleans nozzle as invalidation.

Thus, even when supressing high temperature nozzle under the state of user on oneself sitting in toilet seat portion 400 mistakenly and cleaning switch 310, can prevent that also the clean water of high temperature from dispersing.

As mentioned above, the clean water of the high temperature the when flow of piston 20,20b and the cylinder body 21 by using buttocks nozzle 1 and lady's hip bath nozzle 2, the shape of 21d and formation, the clean water when nozzle is cleaned and nozzle are cleaned just can fully be guaranteed the hygienic state of the clean nozzle of human body with simple structure.

(embodiment 4)

The hygienic washing device 100 of embodiment 3 is cleaned water and also can be used following other formula heater moment in order to obtain high temperature.

Figure 42 has been to use the ideograph of structure of body 200 of the hygienic washing device 100 of other embodiment 3 during the formula heater moment.

The body 200 of Figure 42 has structure and the action identical with the body 200 of Figure 30 of embodiment 3 except following aspect.

In embodiment 4, moment formula heater 11X is installed on connection discharge water transfer valve 14B and the clean usefulness of the nozzle supplying tubing 266 of nozzle 3.Control part 4 is controlled the action of moment formula heater 11X according to the signal of thermistor 11Xa and thermostat 11Xb input.

The control part 4 of Figure 42 for example carries out following action on the basis of said structure.

Control part 4 is along with the user cleans pressing of switch 310 to the high temperature nozzle of the remote-control apparatus 300 of Figure 29, and the action of sealing electromagnetic valve 9, discharge water transfer valve 14B and moment formula heater 11X is controlled.

At first, control part 4 is opened sealing electromagnetic valve 9.This occasion by opening sealing electromagnetic valve 9, is supplied with branch's pipe arrangement 205 thereby clean water.Control part 4 makes the motor M2 rotation of discharge water transfer valve 14B simultaneously, so that the clean water of branch's pipe arrangement 205 can be supplied with to supplying with water route 266.Thus, cleaning water supplies with to supplying with water route 266.

Here, in discharge water transfer valve 14B, switch to draining water route 207 or supply with water route 266 from the supply object of the clean water of branch's pipe arrangement 205, the ratio of clean water of supplying with each pipe arrangement simultaneously is adjusted.Thus, the clean water of ormal weight is supplied with to supplying with water route 266.

Control part 4 starts moment formula heater 11X.Thus, be heated, become high temperature water (about 80～100 ℃) or steam hereinafter referred to as superelevation warm water to of the action of the clean water of supplying with water route 266 supplies owing to moment formula heater 11X described later.

Clean with nozzle 3 by the clean water supply nozzle after the moment formula heater 11X heating, clean thereby carry out nozzle.Thus, the foul that sticks on buttocks nozzle 1 and the lady's hip bath nozzle 2 is peeled off by superelevation warm water or steam, flows in the closet 600 of Fig. 1.Consequently, to carrying out degerming, sterilization around the squit hole of buttocks nozzle 1 and lady's hip bath nozzle 2 and cleaning etc.

Here, the detailed structure to moment formula heater 11X describes.Figure 43 is the biopsy cavity marker devices sectional view of the structure of expression moment formula heater 11X.In Figure 43, moment, formula heater 11X comprised shell 504, armored heater 505, heat conductor 506, pipe arrangement 510, thermistor 11Xa, thermostat 11Xb and Thermal Cutoffs 11Xc.Here, pipe arrangement 510 is installed on the supply water route 266 of Figure 42 by admission port 511 and outlet opening 512.

Shell 504 has roughly rectangular shape.Pipe arrangement 510 and armored heater 505 extend in the longitudinal direction in shell 504, and the spacing parallel arranging setting to stipulate, their both ends separately are outstanding to the outside from the both ends of the surface of shell 504.

In shell 504, pipe arrangement 510 and armored heater 505 are covered by heat conductor 506.Armored heater 505 is built-in with heating wire, generates heat by supply capability.

Carrying out said nozzle when cleaning, the clean water of supplying with from the clean water out 143e of transfer valve 14A 511 imports in the pipe arrangements 510 from the admission port.

After to armored heater 505 supply capabilities, the heat that is produced by armored heater 505 passes to pipe arrangement 510 by heat conductor 506.Thus, the clean water that imports in the pipe arrangement 510 is heated, and superelevation warm water or steam are discharged from outlet opening 512.

Here, with admission port 511 sides of pipe arrangement 510 upstream side as moment formula heater 11X, with the downstream of outlet opening 512 sides as moment formula heater 11X, then thermistor 11Xa and thermostat 11Xb are arranged on the downstream of moment formula heater 11X.In addition, Thermal Cutoffs 11Xc is arranged on the side of shell 504.

Thermistor 11Xa, thermostat 11Xb and Thermal Cutoffs 11Xc action fiducial temperature difference separately.Thus, can carry out the overheated adjusting that prevents in 3 stages.And even any one among thermistor 11Xa, thermostat 11Xb and the Thermal Cutoffs 11Xc breaks down, it is overheated also can be prevented by remaining 2.

Thermistor 11Xa is installed on the armored heater 505, and the temperature of armored heater 505 is detected.4 pairs of control parts are judged from the temperature of the armored heater 505 that thermistor 11Xa gives, and when being in superheat state, control so that the temperature of armored heater 505 descends.

Thermostat 11Xb is mounted to and can the temperature of the clean water of circulation in pipe arrangement 510 be detected.When the temperature of the clean water of circulation in pipe arrangement 510 surpassed the action fiducial temperature of thermostat 11Xb, thermostat 11Xb cut off the action of the electric power supply of armored heater 505.

At last, Thermal Cutoffs 11Xc closely is fixed on the shell 504.When the temperature of shell 504 surpasses the action fiducial temperature of Thermal Cutoffs 11Xc,, can cut off the electric power of armored heater 505 is supplied with by Thermal Cutoffs 11Xc fusing.

By the effect of above thermistor 11Xa, thermostat 11Xb and Thermal Cutoffs 11Xc, can prevent overheated and armored heater 505 overheated of the clean water that armored heater 505 causes itself.

In the moment of present embodiment formula heater 11X, used armored heater 505, but be not limited thereto, also can use mica heater, ceramic heater or printing (プ リ Application ト) heater etc. as the heater of cleaning water.

And, prevent that by thermistor 11Xa, thermostat 11Xb and Thermal Cutoffs 11Xc moment formula heater 11X's is overheated respectively, but also can be by thermistor 11Xa or thermostat 11Xb are connected with control part 4, control part 4 carries out FEEDBACK CONTROL or FEEDFORWARD CONTROL according to the measured temperature of thermistor 11Xa or thermostat 11Xb to the temperature of armored heater 505.

And identical with the body 200 of Figure 30 in the present embodiment, the nozzle that utilizes superelevation warm water or steam to carry out is cleaned preferably to set for when seating sensor 51 detects human body in toilet seat portion 400 and is not moved.By such setting,, also can prevent dispersing and the leakage of steam of superelevation warm water even when supressing high temperature nozzle under the state of user on oneself sitting in toilet seat portion 400 mistakenly and cleaning switch 310.

In addition, in this example, also can be by switching startup/cut-out of moment formula heater 11X, identical with the body 200 of Figure 30, the nozzle of increasing supply is cleaned the flow with the clean water of nozzle 3.This occasion is because the nozzle of can increasing supply is as required cleaned the flow with the clean water of nozzle 3, so can wash foul with a large amount of clean water when nozzle is cleaned.

(embodiment 5)

The hygienic washing device 100 of embodiment 5 has structure and the action identical with the hygienic washing device 100 of embodiment 3 except following aspect.

Figure 44 is the ideograph of an example of the remote-control apparatus 300 of embodiment 5.

As shown in figure 44, the remote-control apparatus 300 of embodiment 5 has the buttocks nozzle and cleans switch 311 and lady's hip bath nozzle and clean that switch 312 is cleaned switch 309 with the nozzle of Figure 29 of replacing embodiment 3 and high temperature nozzle is cleaned switch 310.

The user presses the buttocks nozzle and cleans switch 311 and the clean switch 312 of lady's hip bath nozzle.Thus, remote-control apparatus 300 sends to the control part that is provided with in the body 200 of hygienic washing device 100 described later with the signal wireless of regulation.The control part of body 200 receives the specified signal by remote-control apparatus 300 wireless transmissions, controls cleaning water feed mechanism etc.

For example, the user cleans switch 311 by pressing the buttocks nozzle, then water is cleaned in the buttocks nozzle utilization of being located at spray nozzle part 30 and cleaned, clean switch 312, then water is cleaned in the lady's hip bath nozzle utilization of being located at spray nozzle part 30 and cleaned by pressing lady's hip bath.For buttocks clean switch 311 and lady's hip bath nozzle clean the push of switch 312 performed to the details of the clean action of spray nozzle part 30 as hereinafter described.

Below the body 200 of the hygienic washing device 100 of the embodiment of the invention 5 is described.

Figure 45 is the ideograph of structure of body 200 of the hygienic washing device 100 of the expression embodiment of the invention 5.

Body 200 shown in Figure 45 directly is provided with discharging water route 207 and exists in the downstream of the sealing electromagnetic valve 9 of pipe arrangement 202.Nozzle is cleaned with nozzle 3 and is made of the 1st clean nozzle 3a and the 2nd clean nozzle 3b, the structure of transfer valve 14A is to clean nozzle 3a and the 2nd any supply of cleaning the nozzle 3b to buttocks nozzle 1, lady's hip bath nozzle the 2, the 1st from the clean water that pump 13 is supplied with.Transfer valve 14A has motor M3.

Here, the 1st clean nozzle 3a and the 2nd details of cleaning nozzle 3b to Figure 45 describes.Figure 46 is the stereoscopic figure of the spray nozzle part 30 of embodiment 5.

In Figure 46, the spray nozzle part 30 of embodiment 5 has the structure roughly the same with the spray nozzle part 30 of Figure 32 of embodiment 3, but nozzle is cleaned with nozzle 3 and cleaned nozzle 3a by the 1st and the 2nd clean nozzle 3b constitutes.

The 1st cleans nozzle 3a by constituting with integrally formed sidewall 70W, border piece 73, the airtight member 3K of buttocks nozzle 1.The 2nd cleans nozzle 3b by constituting with integrally formed sidewall 70W, border piece 73, the airtight member 3K of lady's hip bath nozzle 2.It is integrally formed by border piece 73 respectively that the 1st clean nozzle 3a and the 2nd cleans nozzle 3b.

Airtight member 3K is installed in the upper surface (arrow E of Figure 32) of sidewall 70W and border piece 73, forms the 1st clean water and imports space 70a, the 2nd clean water importing space 70b, the clean runner 71 of the 1st nozzle and the clean runner 72 of the 2nd nozzle.

The 1st cleans water imports space 70a goes up setting by the clean water importing tablet 3Ka that is positioned at airtight member 3K rear end through hole and external communications.The 2nd cleans water imports space 70b goes up setting by the clean water importing tablet 3Kb that is positioned at airtight member 3K rear end through hole and external communications.

Clean runner 71 from the 1st the 1st nozzle of cleaning water importing space 70a prolongation formation and be positioned at buttocks nozzle 1 side upper surface.Clean runner 72 from the 2nd the 2nd nozzle of cleaning water importing space 70b prolongation formation and be positioned at lady's hip bath nozzle 2 side upper surfaces.

On clean water importing tablet 3Ka, the 3Kb of airtight member 3K, not shown pipe etc. is installed.Cleaning water importing tablet 3Ka, 3Kb is connected with the water out of cleaning arbitrarily of transfer valve 14A respectively by pipe.Thus, clean water and supply with the 1st clean nozzle 3a and the 2nd clean nozzle 3b by pipe.

Then, according to Figure 45, the action of the body 200 the when user is pressed the buttocks nozzle and cleans switch 311 or lady's hip bath nozzle and clean switch 312 describes.

After the user pressed the clean switch 311 of buttocks nozzle, the control part 4 of Figure 45 for example carried out following action.

Control part 4 is cleaned the signal of switch 311 and is come driving pump 13 by receiving the nozzle that sends from remote-control apparatus 300, and the temperature of the ceramic heater 505 of the heat interchanger 11 of Fig. 4 is controlled.By making the motor M3 rotation of transfer valve 14A, clean nozzle 3a supply from pump 13 to the 1st thereby clean water.Thus, clean nozzle 3a from the 1st and clean water, buttocks nozzle 1 is carried out nozzle clean to 1 ejection of buttocks nozzle.

Press the user and to carry out above-mentioned a series of actions when lady's hip bath nozzle is cleaned switch 312 too.This occasion is supplied with the 2nd clean water of cleaning nozzle 3b to lady's hip bath nozzle 2 ejections from pump 13, lady's hip bath nozzle 2 is carried out nozzle clean.

Like this, can be individually buttocks nozzle 1 and lady's hip bath nozzle 2 being carried out nozzle cleans.Therefore, even the flow that drives the clean water that obtains by pump 13 after a little while, also can make the clean water supplied with from pump 13 all as the cleaning of each nozzle, it is clean to carry out nozzle with enough flows.Consequently, clean, buttocks nozzle 1 and lady's hip bath nozzle 2 are kept clean more by carrying out nozzle.

In the action of above-mentioned control part 4, control part 4 also can reduce the driving force of pump 13 when pump 13 drives.This occasion by reducing the driving force of pump 13, is risen by the temperature of the clean water of heat interchanger 11 heating.Thus, the clean water of high temperature is supplied with the 1st clean nozzle 3a, buttocks nozzle 1 is clean by the clean washing of high temperature.Consequently, be set in about about 60 ℃, thereby nozzle can obtain good clean effect and bacteria-eliminating efficacy when cleaning by the temperature that will clean water.

And, this occasion, supplying with the 1st flow of cleaning the clean water of nozzle 3a from pump 13 reduces, but whole water of cleaning that pump 13 is discharged are no longer shunted, only supply with the 1st and clean nozzle 3a, thereby so compare with the structure that the sort of clean moisture flow that pump 13 is discharged of the foregoing description 3 is cleaned buttocks nozzle 1 and lady's hip bath nozzle 2 quickly, the clean discharge in the time of increasing nozzle and clean.

The adjustment of above-mentioned clean water also can be undertaken by regulating the electric power of supplying with heat interchanger 11.

Utilize the clean water of high temperature to carry out nozzle when cleaning, control part 4 is identical with embodiment 3, does not carry out the clean action of nozzle when seating sensor 51 detects human body in toilet seat portion 400.

In embodiment 3,4 and 5, buttocks nozzle 1 and lady's hip bath nozzle 2 are equivalent to human body and clean nozzle, squit hole 401a is equivalent to squit hole, and nozzle is cleaned tube 26,26c is equivalent to nozzle and cleans member, and nozzle is cleaned hole 26h, 26hb and is equivalent to clean the water entrance hole, cylinder body 21,21d are equivalent to cylinder body portion, piston 20,20b are equivalent to piston portion, and a flow-path tube 403 is equivalent to pipeline, and nozzle casing 401 is equivalent to cover member, hole portion 25 is equivalent to hole portion, and runner fluidic junction 404 is equivalent to spray member.

In addition, transfer valve 14A and pump 13 are equivalent to the 1st and clean water feeder, transfer valve 14A, discharge water transfer valve 14B, supply water route 266 and pump 13 are equivalent to the 2nd and clean water feeder, heat interchanger and moment formula heater 11X are equivalent to heater, seating sensor 51 is equivalent to human body detection sensor, branch's pipe arrangement 205 is equivalent to branch's pipe arrangement, and control part 4 is equivalent to control part.

(embodiment 6)

The hygienic washing device 100 of embodiment 6 has structure and the action identical with the hygienic washing device 100 of embodiment 1 except following aspect.

Figure 47 is the ideograph of an example of the remote-control apparatus 300 of expression embodiment 6.

As shown in figure 47, remote-control apparatus 300 comprises: a plurality of LED (light emitting diode) 301a, 301b, 301c, a plurality of by-pass cock 313, buttocks switch 314, massage switch 315, ejection shutdown switch 316, lady's hip bath switch 317, dry switch 318, deodorizing switch 319, powerful switch 320, mode switch 321～324 and nozzle shutdown switch 325.

Press by-pass cock 313, buttocks switch 314, massage switch 315, ejection shutdown switch 316, lady's hip bath switch 317, dry switch 318, deodorizing switch 319, powerful switch 320, mode switch 321～324 and nozzle shutdown switch 325 by the user.Thus, remote-control apparatus 300 sends to the signal wireless of regulation the control part of the body 200 of being located at hygienic washing device 100 described later.The control part of body 200 receives the specified signal from remote-control apparatus 300 wireless transmissions, controls cleaning water feed mechanism etc.

For example, for mode switch 321～324, when the user presses in the mode switch 321～324 any one, while then spray nozzle part 30 move will clean water with the ejection form of regulation from spray nozzle part 30 ejections.In addition, when the user pressed nozzle shutdown switch 325, then the mobile of spray nozzle part 30 stopped.Moreover the ejection form of the clean water when being pressed respectively about mode switch 321～324 will be narrated in the back.

The user is by pressing buttocks switch 314 or lady's hip bath switch 317, and then the spray nozzle part 30 of Fig. 1 moves and sprays and cleans water.By pressing massage switch 315, then the spray nozzle part 30 from Fig. 1 sprays the clean water that stimulates to body local.By pressing powerful switch 320, then a large amount of clean water ejections is arranged from spray nozzle part 30.By pressing ejection shutdown switch 316, then stop to clean water from spray nozzle part 30 ejections.

In addition, by pressing dry switch 318, then the warm braw feedway (not shown) from hygienic washing device 100 sprays warm braw to body local.By push deodorizing switch 319, then by the odor removal (not shown) of hygienic washing device 100 to around carry out deodorizing.

By-pass cock 313 comprises that the flow of water emphasizes to save switch 302g, the weak by-pass cock 302h of the flow of water, temperature is hanged down and regulated switch 302i, the high by-pass cock 302j of temperature, the concentrated by-pass cock 302k of ejection form, ejection form dispersion by-pass cock 302l and ejection form direction by-pass cock 302m.

The user concentrates by-pass cock 302k and ejection form to disperse by-pass cock 302l by pressing the ejection form, then the ejection form from the clean water of spray nozzle part 30 ejection of Fig. 1 changes, by pressing ejection form direction by-pass cock 302m, then the direction of rotation from the clean water of spray nozzle part 30 ejection changes, by pressing low switch 302i of adjusting of temperature and the high by-pass cock 302j of temperature, then the temperature from the clean water of spray nozzle part 30 ejections changes.

Emphasize to save by-pass cock 302h a little less than the switch 302g and the flow of water by pressing the flow of water, then the flow of water (pressure) from the clean water of spray nozzle part 30 ejections changes.Concentrate by-pass cock 302k and ejection form to disperse the variation of the ejection form of the clean water that by-pass cock 302l causes to narrate in the back to pressing the ejection form.

In addition, emphasize to save switch 302g along with pressing the flow of water, then a plurality of LED (light emitting diode) 301a lights, and along with pressing by-pass cock 302h a little less than the flow of water, then a plurality of LED (light emitting diode) 301a extinguishes.Along with pressing the high by-pass cock 302j of temperature, then a plurality of LED (light emitting diode) 301c lights, and along with pressing the low switch 302i that regulates of temperature, then a plurality of LED (light emitting diode) 301c extinguishes.Disperse by-pass cock 302l along with pressing the ejection form, then a plurality of LED (light emitting diode) 301b lights, and concentrates by-pass cock 302k along with pressing the ejection form, and then a plurality of LED (light emitting diode) 301b extinguishes.

Below the body 200 of the hygienic washing device 100 of embodiment 6 is described.

Figure 48 is the ideograph of structure of body 200 of the hygienic washing device 100 of expression embodiment 6.

The body 200 of embodiment 6 is also have advance and retreat and use motor 15 and keep platform 291 with the difference of the body 200 of Fig. 3 of embodiment 1.

Control part 4 bases reach the measured temperature that gives from temperature pick up 12a, 12b from the signal of remote-control apparatus 300 wireless transmissions of Fig. 1, the measurement flow value that gives from flow transmitter 10, further give control signal to advance and retreat with motor 15.

By giving control signal with motor 15, thereby make advance and retreat with motor 15 rotations, make to remain in the action of advancing and retreat of the buttocks nozzle 1 that keeps platform 291 and lady's hip bath nozzle 2 from 4 pairs of advance and retreat of control part.

Then, the buttocks nozzle 1 to the spray nozzle part 30 of Figure 48 describes.Figure 49 is the buttocks nozzle 1 of Figure 48 and the pattern sectional view of transfer valve 14.The structure of the lady's hip bath nozzle 2 of spray nozzle part 30 and action are identical with the buttocks nozzle 1 of Figure 49.But, in Figure 49, lady's hip bath nozzle 2 and nozzle are cleaned with nozzle 3 not shown.

As shown in figure 49, buttocks nozzle 1 is made of piston portion 20 cylindraceous, cylinder body cylindraceous portion 21, seal washer 22a, 22b and spring 23.

Near the front end of piston portion 20, be formed with and be used to spray the squit hole 25 of cleaning water.Be provided with retainer 26a, the 26b of flange shape in the rear end of piston portion 20.In addition, be separately installed with seal washer 22a, 22b at retainer 26a, 26b.Be formed with the 1st runner 27e that is communicated with squit hole 25 from rear end face in the inside of piston portion 20, also be formed with the 2nd runner 27f that is communicated with squit hole 25 from the periphery of the piston portion 20 between retainer 26a and the retainer 26b.In addition, around squit hole 25, form cylindric volute chamber 29, between the 1st runner 27e and cylindric volute chamber 29, insert contracted flow portion 31.The details of the structure of the leading section of piston portion 20 will be narrated in the back.

On the other hand, cylinder body portion 21 partly is made of the major diameter of the small diameter portion of front, the mid portion with mid diameter, rear end side.Thus, but between small diameter portion and mid portion, form the stop surface 21c of the retainer 26a of piston portion 20, but mid portion and large-diameter portion form the stop surface 21b of the retainer 26b of piston portion 20 by seal washer 22b butt between dividing by seal washer 22a butt.Be provided with at the rear end face of cylinder body portion 21 and clean water inlet 24a, be provided with on the periphery of the mid portion of cylinder body portion 21 and clean water inlet 24b, the front end face of cylinder body portion 21 is provided with peristome 21a.The inner space of cylinder body portion 21 becomes temperature change buffer part 28.Clean water inlet 24a and be eccentrically set on the position different with the central axis of cylinder body portion 21.Clean water inlet 24a and be connected, clean water inlet 24b and be connected with the clean water out 143d of the transfer valve 14 of Fig. 8 with the clean water out 143c of the transfer valve 14 of Fig. 8.Piston portion 20, is cleaned water inlet 24b and is communicated with the 2nd runner 27f when the most outstanding from cylinder body portion 21.Should clean water inlet 24b will narrate in the back with the details that the 2nd runner 27f is connected.

Piston portion 20 inserts in the cylinder body portion 21 movably, so that retainer 26b is positioned at temperature change buffer part 28, and makes leading section outstanding from peristome 21a.

And spring 23 is provided between the periphery of peristome 21a of the retainer 26a of piston portion 20 and cylinder body portion 21, to the rear end side application of force of piston portion 20 towards cylinder body portion 21.

Form minim gap between the outer peripheral face of retainer 26a, the 26b of piston portion 20 and the inner peripheral surface of cylinder body portion 21, form minim gap between the inner peripheral surface of the peristome 21a of the outer peripheral face of piston portion 20 and cylinder body portion 21.

In addition, buttocks nozzle 1 is fixed on and keeps on the platform 291.End at the maintenance platform 291 of buttocks nozzle 1 is provided with gear 292, gear 292 be fixed in advance and retreat with 293 engagements of the gear on the axis of rotation of motor 15.Advance and retreat are rotated towards arrow Y direction and the direction opposite with arrow Y according to the control signal from control part 4 with motor 15, then being fixed on advance and retreat rotates with the gear on the axis of rotation of motor 15 293, with gear 292 engagements of being located at nozzle maintenance platform 291 1 ends, nozzle keeps platform 291 to move towards arrow directions X and rightabout thereof.Thus, on one side buttocks nozzle 1 is cleaned the water action of advancing and retreat from squit hole 25 ejections on one side.

Thus, can carry out on a large scale by the cleaning of washable surface, and can obtain massage effect.

Then the action to the buttocks nozzle 1 of Figure 49 describes.Figure 50 is the sectional view of action usefulness of the buttocks nozzle 1 of explanation Figure 49.

At first, shown in Figure 50 (a), do not supply with when cleaning water from clean water inlet 24a, the 24b of cylinder body portion 21, piston portion 20 retreats towards the direction opposite with arrow X under the elastic force effect of spring 23, is accommodated in the cylinder body portion 21.Consequently, piston portion 20 becomes the least outstanding state from the peristome 21a of cylinder body portion 21.At this moment, in cylinder body portion 21, there is not formation temperature change buffer part 28.

Then, shown in Figure 50 (b), begin to supply with when cleaning water from the clean water inlet 24a of cylinder body portion 21, piston portion 20 overcomes spring 23 under the pressure effect of cleaning water elastic force advances towards the arrow directions X gradually.Thus, formation temperature change buffer part 28 in the cylinder body portion 21 is cleaned water simultaneously and is flowed in the temperature change buffer part 28.

Clean water inlet 24a is arranged on the eccentric position with respect to the central axis of cylinder body portion 21, so the clean water that flows into temperature change buffer part 28 refluxes into vortex shape shown in arrow V.The part of the clean water of temperature change buffer part 28 flows through the minim gap between the inner peripheral surface of the outer peripheral face of retainer 26a, 26b of piston portion 20 and cylinder body portion 21, flow out from the minim gap between the inner peripheral surface of the peristome 21a of the outer peripheral face of piston portion 20 and cylinder body portion 21, flow through the 1st runner 27e of piston portion 20 simultaneously and supply with cylindric volute chamber 29, ejection is arranged slightly from hole portion 25.The details of cylindric volute chamber 29 will be narrated in the back.

When piston portion 20 was advanced further, then shown in Figure 50 (c), retainer 26a, 26b contacted with stop surface 21c, the 21b water-stop of cylinder body portion 21 by seal washer 22a, 22b.Thus, the runner of the minim gap between the inner peripheral surface of the peristome 21a of outer peripheral face from the minim gap between the inner peripheral surface of the outer peripheral face of retainer 26a, the 26b of piston portion 20 and cylinder body portion 21 to piston portion 20 and cylinder body portion 21 is cut off.And the 2nd runner 27f that flows through piston portion 20 from the clean water of cleaning water inlet 24b supply supplies with cylindric volute chamber 29.Thus, the clean water that the 2nd runner 27f that flows through piston portion 20 supplies with cylindric volute chamber 29 mixes with the clean water that the 1st runner 27e that flows through piston portion 20 supplies with, and sprays from hole portion 25.

Like this, the 1st runner 27e and the 2nd runner 27f that clean water inlet 24a, the 24b of the clean water of being supplied with by clean water out 143c, the 143d of transfer valve 14 by cylinder body portion 21 flows through in the piston portion 20 import in the cylindric volute chamber 29, and flow through cylindric volute chamber 29 from squit hole 25 ejections.

Figure 51 is the ideograph of leading section of the piston portion 20 of Figure 49.Figure when the leading section of piston portion 20 is seen in Figure 51 (a) expression from above, the figure the when leading section of piston portion 20 is seen in Figure 51 (b) expression from the side.

At first, shown in Figure 51 (b), the 1st runner 27e is connected with the periphery of cylindric volute chamber 29 cylindraceous, and the 2nd runner 27f is connected with the bottom surface of cylindric volute chamber 29.Clean water from clean water out 143c, the 143d of transfer valve 14 is supplied with the 1st runner 27e and the 2nd runner 27f.

Shown in Figure 51 (a), the clean water of supplying with cylindric volute chamber 29 from the 1st runner 27e flows with the vorticity shown in the arrow Z owing to the curve form of the inner peripheral surface of cylindric volute chamber 29.On the other hand, the clean water of supplying with cylindric volute chamber 29 from the 2nd runner 27f flows to vertical direction with linear state.

Like this, in cylindric volute chamber 29, the clean water of the vorticity of the 1st runner 27e mixes with the clean water of the linearity of the 2nd runner 27f, cleans water from squit hole 25 ejections.

For example, the flow of the clean water of supplying with from the 2nd runner 27f when the flow-rate ratio of the clean water of supplying with from the 1st runner 27e for a long time, the clean water that mixes in cylindric volute chamber 29 is kept the vorticity that the curve form owing to cylindric volute chamber 29 cylindraceous forms strongly, so shown in the arrow H of Figure 51 (b), spray as the dispersion rotating flow with big angle.When the user presses ejection form dispersion by-pass cock 302l, then clean water as mentioned above as disperseing the rotating flow ejection.

And the flow of the clean water of being supplied with by the 1st runner 27e when the flow-rate ratio of the clean water of being supplied with by the 2nd runner 27f for a long time, the clean water that mixes in cylindric volute chamber 29 is kept linear state strongly, so shown in the arrow S of Figure 51 (b), spray as linear flow with narrow angle.When user's push ejection form is concentrated by-pass cock 302k, then clean water as mentioned above and spray as linear flow.

Therefore, control, the flow-rate ratio of cleaning water out 143c, 143d is changed, change thereby can make from the ejection form of the clean water of squit hole 25 ejections by the motor 141 of 4 pairs of transfer valves 14 of control part.

In embodiment 6, after pressing flow of water by-pass cock 302g, then the flow of the clean water out 143d of the flow-rate ratio of clean water out 143c is big, and the ejection form of cleaning water is near linear flow.And after pressing flow of water by-pass cock 302h, then the flow of the clean water out 143c of the flow-rate ratio of clean water out 143d is big, and the ejection form of cleaning water is near disperseing rotating flow.

Then, the ejection form to the clean water of embodiment 6 describes.In embodiment 6, buttocks nozzle 1 moves with various ejection forms between position and the rear position forwardly by motor 15 and sprays clean water on one side.

Figure 52 is the synoptic diagram of the 1st example of ejection form of the clean water of expression embodiment 6.

Figure 52 (a) is the position synoptic diagram over time that the ejection form of the clean water of expression reaches buttocks nozzle 1 over time, and Figure 52 (b) is the vertical view of the variation of the ejection form shown in analog representation Figure 52 (a).The ejection form of the clean water shown in Figure 52 is pressed mode switch 321 by the user and is carried out.

The transverse axis of Figure 52 (a) is represented the time, and the longitudinal axis represents that the ejection form of cleaning water reaches in the position of cleaning the buttocks nozzle 1 that moves when water sprays.

At first, buttocks nozzle 1 begins rearward to move the position from anterior position, disperses rotating flow from squit hole 25 ejections simultaneously.Then, disperse the diffusion angle of rotating flow to reduce gradually, the ejection linear flow.And, increase gradually from linear flow to the diffusion angle of disperseing rotating flow.Before buttocks nozzle 1 moves to the rear position, disperse rotating flow and linear flow alternately to switch.

In addition, after buttocks nozzle 1 moved to the rear position, buttocks nozzle 1 was turned back and is begun forwards the position and moves.This occasion before buttocks nozzle 1 moves to anterior position, also is to disperse rotating flow and linear flow alternately to switch.

This occasion, shown in Figure 52 (b), the clean scope of the clean water of body local ejection is become moving range by the circle of the round dot figure that disperses rotating flow to form, in the moving range of disperseing rotating flow, form the clean scope of linearity of the shade of linear flow generation.

Thus, also can form the high scope of water density of cleaning at the low clean scope central portion of clean water density by linear flow.Thus, can to body local carry out on a large scale fully clean.

The clean water that disperses around body local because of the linear flow with flow of water can be by disperseing the rotating flow flushing.Thus, can make body local keep to such an extent that more clean.

And in the present embodiment, the ejection form of the clean water at position and rear position place is the dispersion rotating flow forwardly, but is not limited thereto, and also can be linear flow.

Figure 53 is the synoptic diagram of the 2nd example of ejection form of the clean water of expression embodiment 6.

The ejection form of the clean water of Figure 53 (a) expression reaches the position synoptic diagram over time of buttocks nozzle 1 over time, and Figure 53 (b) is the vertical view of the variation of the ejection form shown in analog representation Figure 53 (a).The ejection form of the clean water shown in Figure 53 is pressed mode switch 322 by the user and is carried out.

The transverse axis of Figure 53 (a) is represented the time, and the longitudinal axis represents that the ejection form of cleaning water reaches in the position of cleaning the buttocks nozzle 1 that moves when water sprays.

At first, buttocks nozzle 1 is under the state that anterior position stops the stipulated time, from squit hole 25 ejection linear flows.Then, buttocks nozzle 1 rearward moves the position from anterior position by motor 15, increases gradually from linear flow to the diffusion angle of disperseing rotating flow simultaneously.

When buttocks nozzle 1 moves to the rear position, then disperse the diffusion angle of rotating flow to become maximum, buttocks nozzle 1 is under the state that the rear position stops the stipulated time, disperses rotating flows from squit hole 25 ejections.

This occasion, shown in Figure 53 (b), in the clean scope of the clean water that body local is sprayed, the clean scope of the circle that linear flow produces enlarges gradually along with the increase of the diffusion angle of disperseing rotating flow.Thus, can fully clean body local on a large scale.In addition, when the women urinates, also can clean effectively women's part.

Figure 54 is the synoptic diagram of the 3rd example of ejection form of the clean water of expression embodiment 6.

The ejection form of the clean water of Figure 54 (a) expression reaches the position synoptic diagram over time of buttocks nozzle 1 over time, and Figure 54 (b) is the vertical view of the variation of the ejection form shown in analog representation Figure 54 (a).The ejection form of the clean water shown in Figure 54 is carried out by user's push mode switch 323.

The transverse axis of Figure 54 (a) is represented the time, and the longitudinal axis represents that the ejection form of cleaning water reaches in the position of cleaning the buttocks nozzle 1 that moves when water sprays.

At first, buttocks nozzle 1 is under the state that anterior position stops the stipulated time, and is identical with the example of Figure 52, alternately disperses rotating flow and linear flows from squit hole 25 ejections.

And, disperse rotating flow and linear flow alternately from squit hole 25 ejections, Yi Bian make buttocks nozzle 1 begin rearward to move the position Yi Bian make from anterior position.

Then, before buttocks nozzle 1 arrived the rear position, the clean water that sprays from squit hole 25 was linear flow.

After buttocks nozzle 1 arrived the rear position, buttocks nozzle 1 sprayed linear flow at the appointed time under the state that stops.

This occasion, shown in Figure 54 (b), the clean scope of the clean water of body local ejection is become moving range by the circle of the round dot figure that disperses rotating flow to form, in the moving range of disperseing rotating flow, form the clean scope of linearity of the shade of linear flow generation.In addition, because of the clean scope of disperseing rotating flow to form is dwindled gradually, and form the clean scope that linear flow produces.

Thus, abundant cleaning on a large scale to body local.In addition, also can expect as the clean effect of the women part being cleaned the lady's hip bath of usefulness.

Figure 55 is the synoptic diagram of the 4th example of ejection form of the clean water of expression embodiment 6.

The ejection form of the clean water of Figure 55 (a) expression reaches the position synoptic diagram over time of buttocks nozzle 1 over time, and Figure 55 (b) is the vertical view of the variation of the ejection form shown in analog representation Figure 55 (a).The ejection form of the clean water shown in Figure 55 is carried out by user's push mode switch 324.

The transverse axis of Figure 55 (a) is represented the time, and the longitudinal axis represents that the ejection form of cleaning water reaches in the position of cleaning the buttocks nozzle 1 that moves when water sprays.

At first, one side is rearward moved from squit hole 25 ejection dispersion rotating flows in the position from anterior position in nozzle 1 one side, switches to linear flow from the dispersion rotating flow to moment when buttocks nozzle 1 arrives the rear position.

Then, buttocks nozzle 1 moves on one side towards anterior position on one side and sprays linear flows from squit hole 25, switches to the dispersion rotating flow from linear flow to moment when buttocks nozzle 1 arrives anterior position.After this, this action repeats the stipulated time.

This occasion, shown in Figure 55 (b), buttocks nozzle 1 is when rearward move the position from anterior position, and the clean scope of the clean water of body local ejection is become moving range by the circle of the round dot figure that disperses rotating flow to form.In addition, buttocks nozzle 1 is when forwards move the position from the rear position, the clean scope of the clean water of body local ejection become the scope of the linearity of the shade that is formed by linear flow.

Thus, can cleaning fully on a large scale to the part of human body.When bad belly (Japanese: Soft just) or child defecate and can expect when out of control to clean effectively.

In embodiment 6, pump 13 is equivalent to water booster system, transfer valve 14 is equivalent to spread angle regulator and flow regulator, buttocks nozzle 1, lady's hip bath nozzle 2 and nozzle are cleaned and are equivalent to spray nozzle device with nozzle 3, the 1st runner 27e is equivalent to the 1st runner, the 2nd runner 27f is equivalent to the 2nd runner, cylindric volute chamber 29 is equivalent to the rotating flow generation device, heat interchanger 11 be equivalent to heater and moment the formula heater, advance and retreat are equivalent to the drive unit of advancing and retreat with motor 15, remote-control apparatus 300 is equivalent to setting device, and control part 4 is equivalent to control device.

The ejection form of the clean water shown in Figure 52～Figure 55 is an example, be not limited thereto, only otherwise change the aim of the ejection form of cleaning water, suitable other be can set arbitrarily and the variation of ejection form of clean water of usefulness and the moving method of buttocks nozzle 1 effectively cleaned.

In addition, emphasize to save by-pass cock 302h a little less than the switch 302g or the flow of water, also can make from the hydraulic pressure of the clean water of squit hole 25 ejections to change, can be more suitable for cleaning of user's hobby and physical condition etc. by pressing the flow of water.

In addition, can set aptly disperseing the rotating flow and the ejection time of linear flow and the translational speed of buttocks nozzle 1.

Claims (13)

1, a kind of hygienic washing device is characterized in that, comprising:

Has clean water that water-supply source is supplied with spray nozzle device to the squit hole of human body ejection;

The diffusion angle regulator of the diffusion angle change of the clean water that will spray from the described squit hole of described spray nozzle device;

Make the described spray nozzle device advance and retreat drive unit that advance and retreat move between position and the rear position forwardly;

Control device, described advance and retreat drive unit and described diffusion angle regulator are controlled, made up so that the advance and retreat of the described spray nozzle device that described advance and retreat drive unit is implemented move with the variation from the diffusion angle of the clean water of the described squit hole of described spray nozzle device.

2, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator so that described spray nozzle device between described anterior position and described rear position repeatedly advance and retreat move and the diffusion angle from the clean water of the described squit hole of described spray nozzle device changed.

3, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator so that described spray nozzle device between described anterior position and described rear position repeatedly advance and retreat move and make clean water alternately switch to dispersion train and linear flow from the described squit hole of described spray nozzle device.

4, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator, so that described spray nozzle device moves to described rear position or moves to described anterior position from described rear position and the diffusion angle from the clean water of the described squit hole of described spray nozzle device is changed from described anterior position.

5, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator, so that described spray nozzle device moves to described rear position or moves to described anterior position from described rear position and make the clean water from the described squit hole of described spray nozzle device switch to linear flow and dispersion train from described anterior position.

6, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator, changes to make the diffusion angle from the clean water of the described squit hole of described spray nozzle device under the state that stops the stipulated time at described spray nozzle device in described anterior position or described rear position.

7, hygienic washing device as claimed in claim 1, it is characterized in that, described control device is controlled described advance and retreat drive unit and described diffusion angle regulator, alternately switches to dispersion train and linear flow to make the clean water from the described squit hole of described spray nozzle device under the state that stops the stipulated time at described spray nozzle device in described anterior position or described rear position.

8, hygienic washing device as claimed in claim 1, it is characterized in that, also have setting device, move with combination with the advance and retreat of described spray nozzle device that described advance and retreat drive unit is implemented and set from the variation of the diffusion angle of the clean water of the described squit hole of described spray nozzle device.

9, hygienic washing device as claimed in claim 1 is characterized in that, described spray nozzle device comprises:

To be directed to the 1st runner of described squit hole from the clean water of described water-supply source;

To be directed to the 2nd runner of described squit hole from the clean water of described water-supply source;

In the clean water of described the 1st runner, produce the rotating flow generation device of rotating flow,

Described diffusion angle regulator comprises the flow regulator of the flow of regulating the clean water of supplying with described the 1st runner and described the 2nd runner.

10, hygienic washing device as claimed in claim 9 is characterized in that, described rotating flow generation device has drum-shaped chamber,

The clean water of described the 1st runner is supplied with along the inner peripheral surface of described drum-shaped chamber.

11, hygienic washing device as claimed in claim 1 is characterized in that, also has the clean water that described water-supply source is supplied with and applies periodic pressure oscillation and will clean the water booster system that described spray nozzle device is supplied with in water pressurization back.

12, hygienic washing device as claimed in claim 1 is characterized in that, also has the heater that described water booster system is supplied with in the clean water heating back that described water-supply source is supplied with.

13, hygienic washing device as claimed in claim 12 is characterized in that, while described heater is to make the clean water of supplying with from water-supply source heated moment formula heater that flows.

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