CN104674924A - Nozzle assembly inside warm water body cleaning device - Google Patents

Abstract

The invention provides a nozzle assembly inside a warm water body cleaning device. The nozzle assembly, arranged inside a warm water body cleaning device, includes: a cylinder portion, configured in a direction and having one end and the other end; an operation portion, positioned between one end and the other end of the cylinder portion to support the cylinder portion; and a nozzle module, positioned on the other end of the cylinder portion, and having a nozzle structural body and a nozzle cover wrapping the nozzle structural body.

Description

Nozzle assembly in warm water body cleaning device

Technical field

The present invention relates to a kind of warm water body cleaning device, more particularly, relate to the nozzle assembly in a kind of warm water body cleaning device.

Background technology

General warm water body cleaning device (bidet) is positioned at the toilet between hotel or general domestic hygiene, is widely used as toilet equipment use.Described body cleaning device is configured to make warm water be ejected into anus and/or its periphery of user by nozzle assembly after an action of the bowels user, can remove and relevant foul of defecating from the health of user.

Now, described nozzle assembly possesses the flow control valve, cylindrical shell and the jet hole that combine each other.Described cylindrical shell receives cleaning fluid to pass to jet hole from flow control valve.Described jet hole can be divided into first jet mouth and second nozzle mouth are described.

Described first jet mouth is arranged in the front end of cylindrical shell and can be embedded in cylindrical shell with partial stowage in the mode of cylindrical shell.Because described cylindrical shell and first jet mouthpiece are for cleaning fluid flow channel, therefore described first jet mouth can make the front end again being flow into cylindrical shell from the middle section of cylindrical shell by the cleaning fluid of inner cleaning fluid flow channel.

In addition, described first jet mouth, except possessing cleaning fluid flow channel, also has air flow passage.Therefore, described first jet mouth, based on bernoulli principle, can utilize the speed of the front end cleaning liquid inside of cleaning fluid flow channel and/or cylindrical shell, makes outside air constantly flow into the front end of cylindrical shell by air flow passage.

So, described first jet mouth makes air be mixed in cleaning fluid in the front end of cylindrical shell, and described cylindrical shell uses first jet mouth, makes the cleaning fluid being mixed with air be injected into user.Described first jet mouth is disclose in detail in No. 20-0432068th, Korean granted utility model publication.

Unlike this, described nozzle assembly during user uses body cleaning device in, stool due to the health of user is correlated with spot and contaminated, and therefore described second nozzle mouth holds cylindrical shell separably in the front end of cylindrical shell, thus separates from described cylindrical shell after application life.

Described second nozzle mouth is disclose in detail in Korean Patent Laid 10-2009-0127708.But, when using described first jet mouth, because described cylindrical shell has volume boundary in front end, therefore there is in cleaning fluid less air incorporation rate.Thus, described cylindrical shell fully gives massage effect can not to the anus of user and/or Partial Perimeter.

In addition, due to when using described first jet mouth or second nozzle mouth, described cylindrical shell makes described first jet mouth or second nozzle mouth directly be exposed to anus and/or the Partial Perimeter of user, and therefore the application life of described first jet mouth or second nozzle mouth is irregular.

Summary of the invention

the technical problem to be solved in the present invention

Problem to be solved by this invention is to provide a kind of nozzle assembly, this nozzle assembly is positioned at around in warm water body cleaning device, simplify the runner of cleaning fluid and the air extended from cylindrical shell respectively, and the runner of cleaning fluid and air is defined in the space of regulation, and be applicable to the massage effect fully giving cleaning fluid to the user of warm water body cleaning device.

Another technical problem to be solved of the present invention not limit by above-mentioned technical problem, and those skilled in the art, by following explanation, do not fully understand not other technical problem referred in this.

technical scheme

The nozzle assembly in a kind of warm water body cleaning device is provided according to the embodiment of the present invention.Described nozzle assembly, in warm water body cleaning device inside, comprising: barrel, and it configures along a direction, and possesses one end and the other end; Operating portion, to support described barrel between its described one end in described barrel and described other end; And nozzle module, it is positioned at the described other end of described barrel, and possesses nozzle arrangements body and the nozzle cover holding described nozzle arrangements body.Wherein, described barrel comprises between described one end and the described other end, and two cylindrical shells of difference hollow.Further, described nozzle arrangements body and nozzle cover possess the cleaning fluid runner be communicated with described cylindrical shell.Described nozzle arrangements body possesses lower nozzle body and the upper nozzle body of lamination successively, and between described lower nozzle body and described upper nozzle body, possess the space intersected with described cleaning fluid runner.

Described operating portion comprises: flow control division, and it is positioned at described one end of described barrel; Motor driving part, it is positioned at below described flow control division; Sliding stand, it is between described flow control division and described motor driving part, below described barrel, extends from described flow control division to described nozzle module; And nozzle cleaning portion, it is fixed on described sliding stand at the opposite face of described flow control division, and holds described nozzle module.

Described flow control division comprises the first motor and flow control valve that are electrically connected to each other, selects one of described cylindrical shell by the control part of described warm water body cleaning device, and supplies the water received from the Water tap of described warm water body cleaning device periphery to one of described cylindrical shell.

Described motor driving part comprises the second motor and gear that combine each other, drive described second motor and described gear by the control part of described warm water body cleaning device, and by described gear, the driving force of described second motor is passed to described barrel and described nozzle module.

Described sliding stand guides the described barrel along one to movement by described motor driving part.

Described operating portion comprises the cleaning solution supplying circuit be communicated with described nozzle cleaning portion with described flow control division further, described nozzle cleaning portion receives cleaning fluid by described supply lines from described flow control division, and is discharged on described nozzle module by described cleaning fluid.

Described lower nozzle body by along one to successively configuration and the cylinder formed as one and semicylinder form.

Described lower nozzle body has along a direction on described cylinder and semicylinder, and the first flow that continuation edge extends to vertical direction successively with one, described first flow possesses respectively in described cleaning fluid runner, and the end of described first flow is adjacent with described space.

The both sides of the described cleaning fluid runner of described lower nozzle body in described semicylinder possess the first openings and patchhole, and described first openings and described patchhole edge in described semicylinder configures to vertical direction successively with one.

Described first openings extends from the face of cylinder of described semicylinder towards the inside of described semicylinder, and extends from the described inside of described semicylinder towards the smooth face of described semicylinder, thus the smooth face of through described semicylinder.

Described patchhole extends from the face of cylinder of described semicylinder towards the inside of described semicylinder on described first openings.

Described upper nozzle body, be positioned on described lower nozzle body, in saddle type shape, there is the second runner that edge is formed to vertical direction with one, described second runner possesses respectively in described cleaning fluid runner, and the end of described second runner is adjacent with described space.

Described second runner is in the shape narrowed from lower side to the upper side of described upper nozzle body.

The opening surface that described first flow is adjacent with described space, has less size compared with the opening surface adjacent with described space with described second runner.

Described upper nozzle body possesses insertion projection and the second openings in the both sides of described cleaning fluid runner.

Described insertion projection is outstanding from described upper nozzle body, is inserted into respectively described in described lower nozzle body and inserts in the hole.

Described second openings is through described upper nozzle body between described cleaning fluid runner and described insertion projection.

Described nozzle cover, has cleaning fluid spray-hole and air inflow hole, and described cleaning fluid spray-hole possesses respectively in described cleaning fluid runner, and described air inflow hole possesses the periphery in described cleaning fluid runner.

beneficial effect

As mentioned above, in nozzle assembly in described warm water body cleaning device, comprise the lower nozzle body and upper nozzle body that combine each other, space is possessed between lower nozzle body and upper nozzle body, and use lower nozzle body and upper nozzle body to limit the cleaning fluid runner extended from cylindrical shell, and in nozzle module, disclose the nozzle arrangements body making cleaning fluid runner and air flow channel be attached to upper nozzle body

Therefore in the space between the lower nozzle body of described nozzle assembly in the nozzle arrangements body of nozzle module and upper nozzle body, along cleaning fluid runner, air is mixed in cleaning fluid in real time, thus compared with prior art can increases the incorporation rate of air in cleaning fluid further.

Described nozzle assembly possesses the nozzle cover holding nozzle arrangements body, the movement of link together with cylindrical shell nozzle arrangements body and nozzle cover, therefore compared with prior art, and the cleaning frequency of prolonging nozzle structure, and can replacement cost be reduced.

Described nozzle assembly possesses the nozzle cover holding nozzle arrangements body, the movement of link together with cylindrical shell nozzle arrangements body and nozzle cover, therefore compared with prior art, can have application life regularly.

Accompanying drawing explanation

Fig. 1 represents the stereogram according to the nozzle assembly in the warm water body cleaning device of the embodiment of the present invention.

Fig. 2 be enlarged drawing 1 ' A' region, to represent the exploded perspective view of the nozzle arrangements body in barrel and nozzle module from the first direction of nozzle assembly.

Fig. 3 be enlarged drawing 1 ' A' region, to represent the exploded perspective view of the nozzle arrangements body in barrel and nozzle module from the second direction of nozzle assembly.

Fig. 4 be enlarged drawing 1 ' A' region, with represent from the second direction of nozzle assembly nozzle arrangements body in barrel and nozzle module in conjunction with stereogram.

Fig. 5 is the sectional view representing the nozzle arrangements body in the nozzle module of Fig. 4 from the second direction of the nozzle assembly of Fig. 1.

Fig. 6 is the sectional view of the nozzle module representing Fig. 4 from the second direction of the nozzle assembly of Fig. 1.

Fig. 7 is the sectional view that the opposite face of the second direction of nozzle assembly from Fig. 1 represents the nozzle module of Fig. 4.

Fig. 8 to Figure 12 is according in the warm water body cleaning device of the embodiment of the present invention, the schematic diagram of the action of the nozzle assembly of key diagram 1.

symbol description

10: feed water valve 20: reservoir

34: flow control division 38: motor driving part

44: sliding stand 48: nozzle cleaning portion

50: operating portion 60: barrel

70: lower nozzle body 80: upper nozzle body

90: nozzle arrangements body 100: nozzle cover

110: nozzle module 120: nozzle assembly

130: control part 140: warm water body cleaning device

Detailed description of the invention

First, with reference to Fig. 1 to Fig. 7, further describe according to the nozzle assembly in the warm water body cleaning device of the embodiment of the present invention.

Fig. 1 represents the stereogram according to the nozzle assembly in the warm water body cleaning device of the embodiment of the present invention.

With reference to Fig. 1, possess in the warm water body cleaning device 140 of Fig. 8 according to the nozzle assembly 120 of the embodiment of the present invention.Described nozzle assembly 120, in the inside of warm water body cleaning device 140, comprises operating portion 50, barrel 60 and nozzle module 110.If described nozzle assembly 120 is summarily described, then for described operating portion 50 is positioned at the periphery of barrel 60, and be fixed in barrel 60.

Described operating portion 50 is support tube body 60 between one end and the other end of barrel 60.Described barrel 60 configures along a direction and possesses one end and the other end in warm water body cleaning device 140.Described barrel 60 comprises between one end and the other end, and two cylindrical shells 62,64 of difference hollow.Described nozzle module 110 is positioned at the other end of barrel 60.

Further describe described nozzle assembly 120 in detail, described operating portion 50 comprises: flow control division 34, motor driving part 38, sliding stand 44 and nozzle cleaning portion 48.Now, described flow control division 34 is positioned at one end of barrel 60.Described flow control division 34 comprises the first motor and flow control valve (not illustrated in FIG.) that are electrically connected to each other.

Described flow control division 34 selects one of cylindrical shell 62,64 by the control part 130 of warm water body cleaning device 140, and supplies the water received from the Water tap of the periphery of warm water body cleaning device 140 to one of cylindrical shell 62,64.Described motor driving part 38 is positioned at below flow control division 34.Described motor driving part 38 comprises the second motor and gear (not illustrated in FIG.) that combine each other.

Described motor driving part 38 drives the second motor and gear by the control part 130 of warm water body cleaning device 140, and by gear, the driving force of the second motor is passed to barrel 60 and nozzle module 110.Described sliding stand 43, between flow control division 34 and motor driving part 38, in the below of barrel 60, extends to nozzle module 110 from flow control division 34.

Described sliding stand 44 guides the barrel 60 along a direction movement in warm water body cleaning device by motor driving part 38.Described nozzle cleaning portion 48, at the opposite face of flow control division 34, to be fixed on sliding stand 44 and to hold nozzle module 110.Described barrel 60 receives cleaning fluid from flow control division 34, by cylindrical shell 62,64 by cleaning solution supplying to nozzle module 110.For described nozzle module 110, will be described in detail in Fig. 2 to Fig. 7.

Described operating portion 50 comprises and flow control division 34 and the cleaning solution supplying circuit L that is communicated with nozzle cleaning portion 48 further.Described nozzle cleaning portion 48 receives cleaning fluid by cleaning solution supplying circuit L from flow control division 34, and cleaning fluid is discharged on nozzle module 110.

Fig. 2 be enlarged drawing 1 ' A' region, to represent the exploded perspective view of the nozzle arrangements body in barrel and nozzle module from the first direction of nozzle assembly.

With reference to Fig. 2, according in the nozzle assembly 120 in the warm water body cleaning device 140 of Fig. 8 of the embodiment of the present invention, described nozzle module 110 comprises nozzle arrangements body 90.Described nozzle arrangements body 90 comprises lower nozzle body 70 and the upper nozzle body 80 of lamination successively.Described nozzle arrangements body 90, in lower nozzle body 70 and upper nozzle body 80, possesses the internal washing liquid runner (not illustrated in FIG.) be communicated with the cylindrical shell 62,64 of the barrel 60 in nozzle assembly 120.

For this reason, described lower nozzle body 70 is by configure successively along a direction in warm water body cleaning device 140 and the cylinder formed as one and semicylinder are formed.Described lower nozzle body 70 has along a direction on cylinder and semicylinder, and the first flow P1 that continuation extends successively along the direction vertical with a direction, and first flow P1 is possessed respectively in internal washing liquid runner.

Described first flow P1 possesses water inlet 73,74 and outfall 77,79.Described upper nozzle body 80 is positioned on lower nozzle body 70, in saddle.Described upper nozzle body 80 limits the second runner P2 formed along the direction vertical with a direction, and possesses the second runner P2 in internal washing liquid runner respectively.Described second runner P2 possesses tap 83,85 respectively on upper nozzle body 80.

The through upper nozzle body 80 of described tap 83,85.Further explain lower nozzle body 70 and upper nozzle body 80, then in the semicylinder of described lower nozzle body 70, there is internal washing liquid runner, such as, possess the first openings 75 and patchhole 76 in the both sides of first flow P1.Described first openings 75 is positioned on the direction vertical with a direction in semicylinder successively with patchhole 76.

Described first openings 75 extends from the face of cylinder of semicylinder towards the inside of semicylinder, and extends from the inside of semicylinder towards the smooth face of semicylinder with the smooth face of through semicylinder.Described patchhole 76 extends from the face of cylinder of semicylinder towards the inside of semicylinder on the first openings 75.In addition, described upper nozzle body 80 at internal washing liquid runner, such as, possesses in the both sides of the second runner P2 and inserts projection 87 and the second openings 89.

Described insertion projection 87 is given prominence to from upper nozzle body 80, and the central area towards upper nozzle body 80 possesses bending.Described second openings 89 at internal washing liquid runner, such as, at the second runner P2 and insert between projection 87, through upper nozzle body 80.

Fig. 3 be enlarged drawing 1 ' A' region, to represent the exploded perspective view of the nozzle arrangements body in barrel and nozzle module from the second direction of nozzle assembly.

With reference to Fig. 3, according to an embodiment of the invention in nozzle assembly 120, described barrel 60 possesses cylindrical shell 62,64, possesses the open pore 66,68 making cylindrical shell 62,64 towards lower nozzle body 70 opening simultaneously.On the water inlet 73,74 of the open pore 66,68 of described cylindrical shell 62,64 proper alignment first flow P1 in fig. 2 respectively.

Described lower nozzle body 70 possesses the connecting portion 71 extended towards cylindrical shell.Described connecting portion 71 difference proper alignment is on the binding groove 69 of barrel 60.

Fig. 4 be enlarged drawing 1 ' A' region, with represent from the second direction of nozzle assembly nozzle arrangements body in barrel and nozzle module in conjunction with stereogram.

With reference to Fig. 4, according in the nozzle assembly 120 of the embodiment of the present invention, the insertion projection 87 of described upper nozzle body 80 contact with the patchhole 76 of lower nozzle body 70 and Intercalation in the patchhole 76 of lower nozzle body 70.Now, described lower nozzle body 70 and upper nozzle body 80 possess and intersect with internal washing liquid runner, such as, possess between the first flow P1 and the second runner P2 of Fig. 2, and the space intersected with first flow P1 and the second runner P2.

Described first flow P1 and the second runner P2 between lower nozzle body 70 and upper nozzle body 80, to space S opening.Described upper nozzle body 80 makes the space S between lower nozzle body 70 and upper nozzle body 80 be exposed to outside by tap 83,85.Now, the connecting portion 71 of described lower nozzle body 70 contacts with the fastener hole 69 of barrel 60 respectively and is fused on the binding groove 69 of barrel 60.

The cylinder of described lower nozzle body 70 contacts with the other end of barrel 60.The cylinder of described lower nozzle body 70 and the other end of barrel 60 have identical contact area and are close to toward each other.Described first flow P1 is communicated with cylindrical shell 62,64 respectively by the open pore 66,68 of Fig. 3.

Fig. 5 is the sectional view representing the nozzle arrangements body in the nozzle module of Fig. 4 from the second direction of the nozzle assembly of Fig. 1.

With reference to Fig. 5, according in the nozzle assembly 120 of the embodiment of the present invention, described nozzle arrangements body 90, in lower nozzle body 70, possesses the first upper flow passage P11 and the first lower flow passage P12 of the first flow P1 of subdivision graph 2.Described first upper flow passage P11 and described first lower flow passage P12 extends from water inlet 73,74 towards delivery port 77,79.

In addition, described nozzle arrangements body 90 in upper nozzle body 80, possess the second runner P2 of subdivision graph 2 second on the left of runner P22 on the right side of runner P21 and second.On the left of in the of described second, on the right side of runner P21 and second, runner P22 distinguishes proper alignment on the first upper flow passage P11 and the first lower flow passage P12.Now, described lower nozzle body 70 and upper nozzle body 80 at the first upper flow passage P11 and the first lower flow passage P12, and have space S between runner P22 on the right side of runner P21 and second on the left of in the of second.

If further describe in detail, then the first upper flow passage P11 and the first lower flow passage P12, and on the left of in the of second on the right side of runner P21 and second runner P22 towards the space S opening between lower nozzle body 70 and upper nozzle body 80.On the right side of described second left runner P21 and second, runner P22 extends from space S towards tap 83,85.On the right side of described second left runner P21 and second, runner P22 is in from lower side to the narrow gradually shape of upper side.

Described first upper flow passage P11 has less size with runner P21 on the left of in the of second with opening surface adjacent with space S in the first lower flow passage P12 compared with opening surface adjacent with space S in runner P22 on the right side of in the of second.

Fig. 6 is the sectional view of the nozzle module representing Fig. 4 from the second direction of the nozzle assembly of Fig. 1.

With reference to Fig. 6, according in the nozzle assembly 120 of the embodiment of the present invention, described nozzle module 110 comprises the nozzle cover 100 holding nozzle arrangements body 90.Described nozzle cover 100 limit respectively with the cleaning fluid spray-hole 103,106 of tap 83,85 proper alignment in the internal washing liquid runner of nozzle arrangements body 90.The through nozzle cover 100 of described cleaning fluid spray-hole 103,106.

The cleaning fluid spray-hole 103,106 of described nozzle cover 100 forms exterior washings liquid runner.Described internal washing liquid runner and exterior washings liquid runner form cleaning fluid runner in nozzle module 110.

Fig. 7 is the sectional view that the opposite face of the second direction of nozzle assembly from Fig. 1 represents the nozzle module of Fig. 4.

With reference to Fig. 7, according in the nozzle assembly 120 of the embodiment of the present invention, described nozzle module 110 possesses air inflow hole 109 at cleaning fluid spray-hole 103,106 periphery of Fig. 6 of nozzle cover 100.If further describe in detail, then described air inflow hole 109 is positioned at the opposite face of cleaning fluid spray-hole 103,106.Described nozzle cover 100 exposes nozzle arrangements body 90 by air inflow hole 109.

Fig. 8 to Figure 12 is according in the warm water body cleaning device of the embodiment of the present invention, the schematic diagram of the action of the nozzle assembly of key diagram 1.Now, described warm water body cleaning device 140 is connected electrically on the switchboard (not illustrated in FIG.) of washroom, and supposes that the user of warm water body cleaning device 140 is sitting in toilet seat.

With reference to Fig. 8 to Figure 12, as shown in Figure 8, warm water body cleaning device 140 of the present invention comprises: feed water valve 10, reservoir 20, nozzle assembly 120 and control part 130.Described control part 130 is electrically connected with feed water valve 10, reservoir 20 and nozzle assembly 120.Described feed water valve 10 can receive water from the Water tap being arranged in warm water body cleaning device 140 periphery, and to reservoir 20 for feedwater.

Described feed water valve 10 can regulate current (flow and/or pressure) based on the signal of telecommunication of control part 130.Described reservoir 20 receives water by feed water valve 10, and can, based on the signal of telecommunication of control part 130, utilize heater block (not illustrated in FIG.) carry out heating water and form cleaning fluid.Described reservoir 20 can supply cleaning fluid to the flow control division 34 of nozzle assembly 120.

In described nozzle assembly 120, described flow control division 34 drives the first motor to operate to make flow control valve based on the signal of telecommunication of control part 130.Described flow control valve can select one of the cylindrical shell 62, cylindrical shell 64 of barrel 60.Meanwhile, described flow control division 34 can use traffic control valve to cylindrical shell supply cleaning fluid being selected from cylindrical shell 62, cylindrical shell 64.

Described cleaning fluid by being selected from a cylindrical shell of cylindrical shell 62, cylindrical shell 64, and can be delivered in the nozzle module 110 be communicated with cylindrical shell 62,64 at the opposite face of flow control division 34.Described nozzle module 110 can continue to fill one of internal washing liquid runner with cleaning fluid.

Now, according to Fig. 9, described cleaning fluid in the nozzle arrangements body 90 of nozzle module 110, such as, can flow along the first flow circuits F1 or the second flow circuits F2 in the first upper flow passage P11 between the water inlet 73,74 and delivery port 77,79 of lower nozzle body 70 or the second lower flow passage P12.Described cleaning fluid at the delivery port 77,79 of lower nozzle body 70, can contact with the space S between lower nozzle body 70 and upper nozzle body 80.

In addition, according to Figure 10, described nozzle module 110 can utilize the air inflow hole 109 of nozzle cover 110 that nozzle arrangements body is exposed to the air surrounding nozzle cover 100.Described air can flow to the inside of nozzle cover 100 via air inflow hole 109 from the outside of nozzle cover 100 along the 3rd flow circuits F3.

Then, according to Figure 11, described cleaning fluid can from the tap 79 of lower nozzle body 70 via the space S between lower nozzle body 70 and upper nozzle body 80, and along the 4th flow circuits F4 fill upper nozzle body 80 second on the right side of runner P22.Meanwhile, described air can from the air inflow hole 109 of nozzle cover 100 via the space S between lower nozzle body 70 and upper nozzle body 80, and runner P22 on the right side of flowing into second along the 5th flow circuits F5.

In addition, described air from the first openings 75 of lower nozzle body 70 via the space S between lower nozzle body 70 and upper nozzle body 80, and runner P22 on the right side of flowing into second along the 5th flow circuits F5.Thus, described air can the space S between lower nozzle body 70 and upper nozzle body 80 be mixed in cleaning fluid in real time.

If further describe in detail, while then described cleaning fluid flows along runner P22 on the right side of the first lower flow passage P12 and second, space S between lower nozzle body 70 and upper nozzle body 80 forms the environment (relation between speed and pressure) of satisfied " bernoulli principle ", and the space S of described air between lower nozzle body 70 and upper nozzle body 80 holds the flow trace of cleaning fluid, and contacts along the flow trace of cleaning fluid with cleaning fluid.

Relatively, the space S between lower nozzle body 70 and upper nozzle body 80 intermittently occurs for the flow trace of described cleaning fluid and the selection of flow control division 34 pairs of cylindrical shells.Therefore, the flow trace of described cleaning fluid is also made contributions to formation cleaning fluid runner.For the flowing of the described cleaning fluid in runner P21 on the left of second of the first upper flow passage P11 of lower nozzle body 70 and upper nozzle body 80 and air, also can illustrate equally.

Again observe Fig. 8, described nozzle assembly 120 second motor in drive motor portion based on the signal of telecommunication of control part 130 carrys out swing pinion.Described gear can utilize connecting band to be combined with barrel 60.The rotation of described gear can make barrel 60 move along a direction D in warm water body cleaning device 140.Now, described barrel 60 can move along sliding stand 44.

Described nozzle module 110 can be come in and gone out nozzle cleaning portion 48 on sliding stand 44.Thus, described nozzle module 110 can be given prominence to from warm water body cleaning device 140 and expose to outside.Described nozzle module 110 is when warm water body cleaning device 140 outside, be positioned at the below of the user of warm water body cleaning device 140, and by the tap 83,85 of nozzle arrangements body 90 of Figure 12 and the spray-hole 103,106 of nozzle cover 100, cleaning fluid can be mixed into along the 6th flow circuits F6 or the 7th flow circuits F7 to the anus of user or localized ejection air.

According to the needs of user, described cut-out governing portion 48 use traffic adjusting portion 34 and cleaning solution supplying circuit L can receive cleaning fluid, and cleaning fluid is ejected into nozzle module 110.

Above, although illustrate embodiments of the invention with reference to appended, the technician with the usual knowledge of the technical field of the invention can understand, and the present invention, under the prerequisite not changing its technological thought or its necessary feature, can implement with the form of other specific embodiment.Therefore, the embodiment of above record is only illustration the present invention, instead of limits the present invention.

Claims (18)

1. a nozzle assembly, in warm water body cleaning device inside, comprising:

Barrel, it configures along a direction, and possesses one end and the other end;

Operating portion, to support described barrel between its described one end in described barrel and described other end; And

Nozzle module, it is positioned at the described other end of described barrel, and possesses nozzle arrangements body and the nozzle cover holding described nozzle arrangements body,

Wherein, described barrel comprises between described one end and the described other end, and two cylindrical shells of difference hollow,

Described nozzle arrangements body and nozzle cover possess the cleaning fluid runner be communicated with described cylindrical shell,

Described nozzle arrangements body possesses lower nozzle body and the upper nozzle body of lamination successively, and between described lower nozzle body and described upper nozzle body, possess the space intersected with described cleaning fluid runner.

2. nozzle assembly according to claim 1, wherein,

Described operating portion comprises:

Flow control division, it is positioned at described one end of described barrel;

Motor driving part, it is positioned at below described flow control division;

Sliding stand, it is between described flow control division and described motor driving part, below described barrel, extends from described flow control division to described nozzle module; And

Nozzle cleaning portion, it is fixed on described sliding stand at the opposite face of described flow control division, and holds described nozzle module.

3. nozzle assembly according to claim 2, wherein,

Described flow control division comprises the first motor and flow control valve that are electrically connected to each other, selects one of described cylindrical shell by the control part of described warm water body cleaning device, and supplies the water received from the Water tap of described warm water body cleaning device periphery to one of described cylindrical shell.

4. nozzle assembly according to claim 2, wherein,

Described motor driving part comprises the second motor and gear that combine each other, drive described second motor and described gear by the control part of described warm water body cleaning device, and by described gear, the driving force of described second motor is passed to described barrel and described nozzle module.

5. nozzle assembly according to claim 2, wherein,

Described sliding stand guides the described barrel along one to movement by described motor driving part.

6. nozzle assembly according to claim 2, wherein,

Described operating portion comprises the cleaning solution supplying circuit be communicated with described nozzle cleaning portion with described flow control division further,

Described nozzle cleaning portion receives cleaning fluid by described supply lines from described flow control division, and is discharged on described nozzle module by described cleaning fluid.

7. nozzle assembly according to claim 1, wherein,

Described lower nozzle body by along one to successively configuration and the cylinder formed as one and semicylinder form.

8. nozzle assembly according to claim 7, wherein,

Described lower nozzle body has along a direction on described cylinder and semicylinder, and the first flow that continuation edge extends to vertical direction successively with one,

Described first flow possesses respectively in described cleaning fluid runner,

And the end of described first flow is adjacent with described space.

9. nozzle assembly according to claim 7, wherein,

The both sides of the described cleaning fluid runner of described lower nozzle body in described semicylinder possess the first openings and patchhole,

Described first openings and described patchhole edge in described semicylinder configures to vertical direction successively with one.

10. nozzle assembly according to claim 9, wherein,

Described first openings extends from the face of cylinder of described semicylinder towards the inside of described semicylinder, and extends from the described inside of described semicylinder towards the smooth face of described semicylinder, thus the smooth face of through described semicylinder.

11. nozzle assemblies according to claim 9, wherein,

Described patchhole extends from the face of cylinder of described semicylinder towards the inside of described semicylinder on described first openings.

12. nozzle assemblies according to claim 8, wherein,

Described upper nozzle body, is positioned on described lower nozzle body, in saddle type shape,

There is the second runner that edge is formed to vertical direction with one,

Described second runner possesses respectively in described cleaning fluid runner,

And the end of described second runner is adjacent with described space.

13. nozzle assemblies according to claim 12, wherein,

Described second runner is in the shape narrowed from lower side to the upper side of described upper nozzle body.

14. nozzle assemblies according to claim 12, wherein,

The opening surface that described first flow is adjacent with described space, has less size compared with the opening surface adjacent with described space with described second runner.

15. nozzle assemblies according to claim 9, wherein,

Described upper nozzle body possesses insertion projection and the second openings in the both sides of described cleaning fluid runner.

16. nozzle assemblies according to claim 15, wherein,

Described insertion projection is outstanding from described upper nozzle body, is inserted into respectively described in described lower nozzle body and inserts in the hole.

17. nozzle assemblies according to claim 15, wherein,

Described second openings is through described upper nozzle body between described cleaning fluid runner and described insertion projection.

18. nozzle assemblies according to claim 1, wherein,

Described nozzle cover, has cleaning fluid spray-hole and air inflow hole,

Described cleaning fluid spray-hole possesses respectively in described cleaning fluid runner,

Described air inflow hole possesses the periphery in described cleaning fluid runner.