CN109174480A - A kind of water outlet control assembly, shower and shower assembly method - Google Patents

Abstract

This application discloses a kind of water outlet control assembly, shower and shower assembly methods.Wherein water outlet control assembly includes water inlet body, push rod, rotor and elastic component.Wherein, water inlet body is equipped with valve chamber, and one end of valve chamber is equipped with the push-rod hole slided for push rod；Push rod is equipped with pushing block, and rotor is equipped with the tooth block and notched barricade for extending to push-rod hole direction and cooperating with pushing block.Barricade and valve chamber inner wall clearance fit, rotor rotation change the degree that barricade blocks inlet channel.Using the shower of above-mentioned water outlet control assembly, water outlet control assembly can be packed by the handle hole of shower ontology.

Description

A kind of water outlet control assembly, shower and shower assembly method

Technical field

This application involves shower fields, and in particular to a kind of water outlet control assembly, shower and shower assembly method.

Background technique

In the prior art, general that gondola water faucet water outlet flow is adjusted by button or water pause function is realized by button, make it Having the characteristics that can be accurate with one-handed performance, movement.Chinese utility model patent disclosed on November 3rd, 2010 200920181969.8 (Authorization Notice No. CN201618647U) discloses a kind of shower head water pause control structure.The structure passes through Button driving axial displacement rotating mechanism drives rotor rotation, make barricade on rotor block water outlet and open water outlet it Between convert, to realize water pause function.

However the shower water suspending structure in above-mentioned patent is since structure is complicated, cause can only separately manufacturing shower ontology, Above-mentioned shower water suspending structure is installed in and covers the shower ontology for closing separately manufacturing after handle portion again, shower could be suspended water knot Structure is packed into shower ontology.Due to shower ontology can only separately manufacturing, shower ontology necessarily forms spue line, not only bad for Beauty, and spue line is easily sheltered evil people and countenance evil practices during bathing；Link is being manufactured due to needing separately manufacturing shower ontology It covers conjunction again afterwards to fix, production procedure is longer, higher cost.

Second, above-mentioned shower water suspending structure is during button press, the case where original state is sealed condition Under, it is necessary to open state could be changed to from sealed condition by pressing biggish stroke rotor being made to rotate, although being only of short duration It waits, but also can allow user that can not obtain preferable experience.

Third, applicant also want to be transformed this shower water suspending structure, have made this shower water suspending structure both It can be realized water pause function, and be able to carry out flow adjusting, i.e., other than blocking water outlet and opening the state of water outlet, At least one gear can also be set, gondola water faucet water outlet is allow to be adjusted to lesser extent.

4th, since the shower overwhelming majority is made of plastic part, generally require gondola water faucet structure that will must not go out completely Water shutdown, to avoid the excessive damage shower internal component of hydraulic pressure.Therefore, shower water suspending structure needs can further have drop Water function remains to the water outflow of very little flow that is, when blocking water outlet completely.This is not only structure setting problem, simultaneously Also higher requirement is proposed to the dimensional tolerance in manufacturing process, this is because the scale error of very little will make the stream to drip Amount causes biggish difference.Therefore, it is necessary to be further improved in structure, to have the shower water suspending structure for function of dripping It is more insensitive to dimensional tolerance or build-up tolerance, it is easier to manufacture.

Summary of the invention

The application's aims to overcome that drawbacks described above present in background technique or problem, provides a kind of water management group out Part and shower, wherein water outlet control assembly should be able to be realized to be protruded into and direct with panel assembly from the handle hole of shower ontology Combination.After reaching this purpose, the application alsos attempt to realize Quick water boiling function, flow regulating function and function of dripping.

To reach above-mentioned purpose, the application adopts the following technical scheme that

First technical solution is related to a kind of water outlet control assembly, is used to be packed into from the handle hole of shower ontology, comprising: into Water body, the valve chamber for being equipped with inlet channel and intersecting with inlet channel；One end of valve chamber is equipped with push-rod hole；If being additionally provided with around push-rod hole Dry guide pad；Push rod body rotation stop and is hermetically slidably connected through push-rod hole and with water inlet；Its one end for protruding into valve chamber is equipped with Several pushing blocks；Rotor is equipped with the tooth block on several tool inclined-planes extended to push-rod hole direction；The outer peripheral edge of rotor is additionally provided with to pushing away The notched barricade that rod aperture direction extends；The barricade and valve chamber inner wall clearance fit；Rotor rotation changes barricade and blocks The degree of inlet channel；Elastic component is held between rotor and the other end of valve chamber；Push rod is pressed, pushing block is compressed in stop position Tooth block, make rotor axial displacement and rotate；Discharge push rod, elastic component drive rotor axial reset, tooth block contact guide pad after It is continuous to turn to next stop position.

Second technical solution is based on the first technical solution, wherein forms separate slot between the guide pad；The pushing block is set It is set to radially extending along push rod, and is slidably connected with separate slot rotation stop；The tooth block is matched with the separate slot；Positioned at stopping When by position, the pushing block and tooth block are respectively positioned in the separate slot；Push rod is pressed, the pushing block compresses tooth block axial direction position It moves, until tooth block rotates after being detached from separate slot；Push rod is discharged, the tooth block is axially resetted, continued to rotate after contact guide pad And separate slot is slid into next stop position.

Third technical solution is based on the second technical solution, wherein is additionally provided with around the guide pad to rotor in valve chamber The rotation stop wall that direction extends, the inner wall of rotation stop wall are additionally provided with the rotation stop groove with the separate slot corresponding matching；The pushing block is also It is slidably connected with rotation stop groove；The rotor forms the holding tank for accommodating rotation stop wall between tooth block and barricade.

4th technical solution be based on the first, second or third technical solution, wherein the water inlet body include water-logged base, First end cover and second end cover；The valve chamber slot that the water-logged base is equipped with inlet channel and intersects with inlet channel；The valve chamber slot Closed at one end, the other end is open；Push-rod hole is set to the closed one end of valve chamber slot, and push-rod hole is equipped with away from a face periphery of valve chamber slot First end cover slot；The first end cover is fixed in first end cover slot；The open one end of the second end cover and valve chamber slot It is tightly connected and cooperatively forms valve chamber.

5th technical solution is based on the second technical solution, wherein the inlet channel and valve chamber be crossed to form inlet opening and Apopore；The barricade and valve chamber inner wall clearance fit close to apopore, and by change block the area of apopore with Change the degree for blocking inlet channel.

6th technical solution is based on the 5th technical solution, wherein the barricade outer wall is set as the conical surface, where the conical surface The vertex of a cone of circular cone is towards push-rod hole, and correspondingly, the valve chamber is also configured as matching with barricade outer wall close to the inner wall of apopore The conical surface.

7th technical solution is based on the 5th or the 6th technical solution, wherein and the tooth block and separate slot are set as three, by This forms three stop positions；When first stops position, the barricade does not block the apopore；When second stops position, The barricade blocks a part of area of the apopore；When third stops position, the barricade blocks the water outlet The entire area in hole.

8th technical solution is based on the 5th or the 6th technical solution, wherein the barricade blocks whole faces of apopore When product, channel of dripping is formed between barricade and apopore.

9th technical solution is based on the 8th technical solution, wherein the channel of dripping is drip, the drip It is opened in valve chamber inner wall, one end is opened on apopore, and the barricade that the other end crosses closure apopore is connected to valve chamber.

Tenth technical solution is based on the 8th technical solution, wherein the barricade and close to apopore valve chamber inner wall it Between clearance distance be 0.1-0.4mm, and channel of dripping is formed by the gap.

11st technical solution is related to a kind of shower, including shower ontology, cover component, button and such as first to the Control assembly is discharged defined by any one of nine technical solutions；The shower ontology is equipped with cover hole, handle hole and button Hole, the button hole are set on the handle of shower ontology；After the cover component is packed into from the cover hole of shower ontology It is affixed with shower ontology；The water outlet control assembly is affixed with shower ontology after the loading of the handle hole of shower ontology, described The water outlet sealing of inlet channel and cover component be connected to, button hole described in push rod face；The button is installed in institute The position for the button hole stated is simultaneously affixed with the push rod.

12nd technical solution is related to a kind of assembly method of shower, wherein the water outlet control assembly of shower passes through shower The handle hole of ontology is packed into be docked and connected with the cover component being packed into from the cover hole of shower ontology, and uses water management component Push rod face shower ontology on button hole.

By it is above-mentioned to the description of the present application it is found that compared with the existing technology, have following of the application the utility model has the advantages that

In the first technical solution, the application is changed the barricade of rotor and tooth block in background technique along away from one another The design scheme that direction extends extends barricade and tooth block to the direction of push-rod hole, so that the thickness of rotor is reduced, into one The thickness of valve chamber is also reduced to step, enables entirely to be discharged control assembly and is packed into shower sheet from the handle hole of shower ontology Body.In addition, further defining in the application makes to continue to turn in tooth block reset axial direction reseting procedure next knot for stopping position Structure, that is, guide pad.And guide pad surrounds push-rod hole, structure is very compact, makes entirely to be discharged thinner in control assembly axial direction.

In the second technical solution, pushing block is designed as radially extending along push rod by the application, and with separate slot rotation stop sliding Dynamic connection.Pushing block can be retracted in separate slot to step down for convex block, convex block is enable to compress guide pad and cunning by such setting Into separate slot.Such design not only makes structure more compact, makes entire water outlet control assembly thinner in the axial direction, additionally it is possible to allow Convex block, which more reliably enters, stops position, keeps the movement of entire axial displacement rotating mechanism relatively reliable.

In third technical solution, it is contemplated that the axial displacement stroke of pushing block is possible to be detached from separate slot, therefore passes through setting Rotation stop wall is to guarantee that pushing block is connect after being detached from separate slot with the rotation stop of water inlet body.Certainly, the axial displacement stroke of pushing block is not necessarily It is so to be detached from separate slot, therefore the setting of rotation stop wall is not required.

In the 4th technical solution, pushing block, rotor and elastic component is set advantageously to be packed into very much by the way that second end cover is arranged Valve chamber.Realize that the sealing of push rod and water-logged base is slidably connected by the way that the first sealing ring to be placed in the first seal groove.

In the 5th technical solution, barricade is by the valve chamber inner wall clearance fit with close apopore, to change apopore Area is blocked to realize the change for blocking degree to inlet channel.

In the 6th technical solution, by setting the conical surface for barricade outer wall so that push rod drive rotor axially downwards When displacement, rotors can not be waited to rotate the gap that can change barricade and valve chamber between the inner wall of apopore, made It becomes larger rapidly and opens apopore, opens function fastly to realize.

In the 7th technical solution, by the way that three stop positions are arranged, three kinds of sealed conditions is formed, flow is realized and adjusts function Energy.

In the 8th technical solution, channel of dripping is formed between barricade and apopore, to realize function of dripping.

In the 9th technical solution, by the way that drip is arranged in valve chamber inner wall, to form channel of dripping, and it can pass through Control opens up the depth and width of drip, controls the amount of dripping, and the structure is less sensitive to the dimensional tolerance of processing.

In the tenth technical solution, function of dripping is realized by the clearance distance between setting valve chamber inner wall and barricade.More Importantly, barricade outer surface be the conical surface in the case where, due to the conical surface and revolution between centers angle very little, even if axis It is larger to installation dimension tolerance, it is also smaller between the change of the clearance distance barricade, therefore, before barricade outer surface is the conical surface It puts, this structure that the flow that drips is adjusted by gap is less sensitive to axial fitted position tolerance.

In the 11st technical solution, the scheme that above-mentioned water outlet control assembly is applied to shower is disclosed.Due to button It is additionally mounted, therefore button height will not influence water outlet control assembly and be packed into from handle hole.Using the technical program, the system of shower It makes that process is more simple, also can choose integrally manufactured shower ontology, to achieve the effect that more aesthetically pleasing.

In the 12nd technical solution, the side that gondola water faucet water outlet control assembly is packed by the handle hole of shower ontology is disclosed Method, using this assembly method, shower ontology need not separately manufacturing, therefore shower ontology is utilized without spue line is re-formed Beauty is also not easy to shelter evil people and countenance evil practices during bathing.

Detailed description of the invention

Technical solution in ord to more clearly illustrate embodiments of the present application, below to needed in embodiment description Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the present application, for this field For those of ordinary skill, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the stereogram exploded view that the application is discharged control assembly first embodiment；

Fig. 2 is the partial sectional view that the application is discharged effluent seat in control assembly first embodiment；

Fig. 3 is the partial perspective view that the application is discharged effluent seat in control assembly first embodiment；

Fig. 4 is the perspective view that the application is discharged second end cover in control assembly first embodiment；

Fig. 5 is the perspective view that the application is discharged push rod in control assembly first embodiment；

Fig. 6 is the main view that the application is discharged rotor in control assembly first embodiment；

Fig. 7 is the bottom view that the application is discharged rotor in control assembly first embodiment；

Fig. 8 is the bottom view that the application is discharged control assembly first embodiment；

Fig. 9 is the sectional view along A-A of Fig. 8, shows the internal structure that control assembly is discharged in first embodiment；

Figure 10 is the portion the E partial enlarged view of Fig. 9, shows the gap that channel of dripping is used to form in first embodiment；

Figure 11 is the main view that the application is discharged control assembly first embodiment；

Figure 12 is the B-B direction that the application is discharged Figure 11 when rotor in the first embodiment of control assembly is located at the first stop position Cross-sectional view；

Figure 13 is the B-B direction that the application is discharged Figure 11 when rotor in the first embodiment of control assembly is located at the second stop position Cross-sectional view；

Figure 14 is the B-B direction that the application is discharged that rotor in the first embodiment of control assembly is located at Figure 11 when third stops position Cross-sectional view；

Figure 15 is the main view that the application is discharged rotor in the second embodiment of control assembly；

Figure 16 is the bottom view that the application is discharged rotor in the second embodiment of control assembly；

Figure 17 is the bottom view for the second embodiment that the application is discharged control assembly；

Figure 18 is the C-C of Figure 17 to cross-sectional view, shows the internal structure that control assembly is discharged in second embodiment；

Figure 19 is the portion the E partial enlarged view of Figure 18, shows the drip that channel of dripping is used to form in second embodiment；

Figure 20 is the main view of the embodiment of the application shower；

Figure 21 is the scheme of installation of the embodiment of the application shower.

Main appended drawing reference explanation:

It is discharged control assembly 100:

Water inlet body 10: water-logged base 11, inlet channel 111, inlet channel water inlet end 1111, inlet channel water outlet 1112, inlet opening 1113, apopore 1114, valve chamber slot 112, push-rod hole 113, the first seal groove 114, first end cover slot 115,

Guide pad 116, rotation stop wall 117, rotation stop groove 118, separate slot 119；First sealing ring 12；First end cover 13；Second end Lid 14, second end cover ontology 141, the second seal groove 142, pillar 143；Second sealing ring 15；Valve chamber 16, gap 161, drips Slot 162；

Push rod 20: putter body 21；Pushing block 22；Mandrel 23；Button installing hole 24；

Rotor 30: rotor body 31；Tooth block 32；Barricade 33, the first barricade 331, the second barricade 332；Notch 34,

First notch 341, the second notch 342；Holding tank 35；Core axle hole 36；

Elastic component 40；

Shower 1000:

Shower ontology 200, cover hole 210, handle hole 220；

Cover component 300；

Button 400.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description.Obviously, described embodiment is preferred embodiment of the present application, and is not to be seen as the row to other embodiments It removes.Based on the embodiment of the present application, those skilled in the art are obtained all under the premise of not making creative work Other embodiments shall fall in the protection scope of this application.

The all parts that the application is discharged in the first embodiment of control assembly are shown referring to Fig. 1, Fig. 1.Such as Fig. 1 institute Show, be discharged in the first embodiment of control assembly, water outlet control assembly includes water inlet body 10, push rod 20, rotor 30 and elastic component 40。

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Figure 10, as shown in the figure, water inlet body 10 includes water-logged base 11, the first sealing ring 12, first end cover 13, second end cover 14 and the second sealing ring 15.

Wherein, as shown in Figures 2 and 3, the valve chamber slot 112 that water-logged base 11 is equipped with inlet channel 111 and intersects with inlet channel, In the present embodiment, inlet channel 111 includes inlet segment and water exit end, and wherein inlet segment one end is inlet channel water inlet end 1111, is used for It is connected to the water supply hose (not shown) of Portable rose, the other end and valve chamber slot 112 are crossed to form inlet opening 1113；Water outlet One end and valve chamber slot 112 are crossed to form apopore 1114, and the other end is inlet channel water outlet 1112, for being connected to panel assembly Water outlet (not shown) in 300.As shown in figure 3, valve chamber slot 112 is an end seal in multiple embodiments of the application It closes, the open tubular of the other end, axis is perpendicular to inlet channel 111.It is pushed away as shown in Fig. 2, the closed one end of valve chamber slot 112 is equipped with Rod aperture 113；Push-rod hole 113 is additionally provided with the first seal groove 114 and first end cover slot away from the periphery of the one side of valve chamber slot 112 115, wherein the first seal groove 114 is more inner and diameter is smaller for accommodating the first sealing ring 12, first end cover slot 115 is more leaned on Outer and diameter is bigger, for the first sealing ring 12 to be placed in the first seal groove 114.As shown in figure 3, being surrounded in valve chamber slot 112 Push-rod hole 113 is additionally provided with the guide pad 116 extended to the open end of valve chamber slot 112, in multiple embodiments of the application, guiding Block 116 is arranged radially, and quantity is three, and each guide pad 116 is equipped with inclined-plane, and certainly, the inclined-plane of guide pad 116 is not required , such as can also be plane.Three guide pads 116 form separate slot 119 in the presence of interval to each other, and certain separate slot 119 can also be with It is three.From Fig. 3 be also shown to, around guide pad 116 be additionally provided with to the open end of valve chamber slot 112 extend rotation stop wall 117, from Fig. 3 is it is found that the development length of rotation stop wall 117 is greater than the development length of guide pad 116.The inner wall of rotation stop wall 117 is equipped with rotation stop Slot 118, in multiple embodiments of the application, rotation stop groove 118 is three, and corresponds with separate slot 119 that groove width is equal.

As shown in Figure 1, the first sealing ring 12 is set in the first seal groove 114, internal diameter is less than the interior of push-rod hole 113 Diameter, so that push rod 20 is tightly connected with water-logged base 11.

As shown in Figure 1, there is through-hole, for passing through for putter body 21 among first end cover 13.First end cover 13 is affixed In in first end cover slot 115, outside displacement occurs to limit the first sealing ring 12 along axial.In this implementation, first end cover 13 It is affixed with water-logged base 11 in such a way that plastics weld after being packed into the first sealing ring 12.

As shown in figure 4, second end cover 14 includes second end cover ontology 141 and pillar 143；Wherein, second end cover 141 is one End seal is closed, the tubular structure of another end opening, and pillar 143 is located at the center of tubular structure, extending direction and tubular structure The extending direction of barrel is identical.Pillar 143 is for positioning elastic part 40 (elastic component 40 uses reset spring in the present embodiment).? The second seal groove 142, the second sealing of the second sealing ring 15 insertion are equipped on the outside of the barrel of 141 tubular structure of second end cover ontology In ring recess 142.

As shown in Figure 10, it before second end cover 14 is installed, needs for push rod 20, rotor 30 to be fitted into valve chamber slot 112, and by bullet Property part 40 be placed on pillar 143, after the completion, can by second end cover 14 with the second sealing ring 15 it is open with valve chamber slot 112 one End sealing is affixed.After second end cover 14 is installed, the open end of valve chamber slot 112 is also closed, water-logged base 11 and second end cover 14 cooperatively form valve chamber 16.

As shown in figure 5, push rod 20 includes putter body 21, pushing block 22 and mandrel 23.As shown in Figure 10, wherein putter body 21 run through push-rod hole 113 above-mentioned, and are hermetically slidably connected by the first sealing ring 12 with push-rod hole 113.Putter body 21 The pushing block 22 being connected on one end of valve chamber 16 towards second end cover 14 is protruded into, as shown in figure 5, pushing block 22 is total in the present embodiment Three, each is radially extended from putter body 21, and the width of pushing block 22 is set as between separate slot 119 and rotation stop groove 118 Gap cooperation, to slide pushing block 22 along rotation stop groove 118 and separate slot 119, while such structure also makes pushing block 22 is opposite to intake The connection of 10 rotation stop of body.It should be pointed out that being based on this structure, pushing block 22 can be set to skid off separate slot in axial displacement stroke 119 may be set to be and not skid off separate slot 119, and therefore, the setting of rotation stop wall 117 and rotation stop groove 118 is not required.Certainly, By setting rotation stop wall 117 and rotation stop groove 118, pushing block 22 is set to skid off separate slot 119, because this trip can become much larger.Such as Fig. 5 It is shown, in the present embodiment, pushing block 22 towards second end cover 14 be set as on one side wedge shape, i.e., be made of two faces of inclining one it is blunt Angle；But this shape is not required, and may be selected to be single-sided oblique, also can choose as cylindrical surface, it might even be possible to be selected as One perpendicular to the axis of putter body 21 plane, as long as the mating surface of tooth block 32 is inclined-plane, the phase between pushing block 22 and tooth block 32 Tooth block 32 can be made to rotate contact.It is noted that as shown in figure 5 and figure 10, in the present embodiment, putter body 21 stretches out valve Axially extending button installing hole 24 is also provided on one end end face of chamber 16, the axis of a cylinder of button 400 can fill in button installation Being fixedly connected with completing button 400 and push rod 20 in hole 24.Mandrel 23 is set to putter body 21 towards second end cover 14 One end, and along the axially extending of putter body 21, it is used to cooperate with the core axle hole 36 of rotor 30, to guarantee the rotation of rotor 30 Axis is consistent with the axis of putter body 21.

As shown in Figure 6 and Figure 7, rotor 30 is equipped with a rotor body 31, in the present embodiment, rotor body 31 can be considered as by One disk and composition is connected as one to the cylindrical bump that push-rod hole 113 extends positioned at one of disc centre, and rotor The direction that the cylindrical bump of ontology 31 faces push-rod hole 113 is equipped with core axle hole 36, for cooperating with mandrel 23；Face second end The direction of lid 14 is equipped with receiving hole, for accommodating elastic component 40.In above-mentioned cylindrical bump periphery, it is radially equipped at intervals with three The width of a tooth block 32, each tooth block 32 is matched with separate slot 119, so that tooth block 32 can be slided along separate slot 119, in tooth block 32 Free end towards the face of pushing block 22 and guide pad 116 be inclined-plane, in order to cooperate in tooth block 32 and pushing block 22 or guide pad 116 When contact, the bearing force perpendicular to the inclined-plane is generated, and the bearing force can be decomposed into axial force and tangential force, wherein when tooth block 32 with 22 contact of pushing block when, axial force moves tooth block 32 to 14 direction of second end cover, and tangential force drives tooth block 32 entirely The rotation of the rotary shaft defined in the mandrel 23 of rotor 30；And when tooth block 32 and 116 contact of guide pad, axial force and tangential force are total Same-action, tooth block 32 drive rotor 30 to slide into separate slot 119.The outer peripheral edge of disk in rotor body 31, be additionally provided with to The barricade 33 with notch 34 that 113 direction of push-rod hole extends.In the first embodiment, there are two barricades, respectively the first barricade 331, the second barricade 332 forms the first notch 341 and the second notch 342, from figure between first barricade 331 and the second barricade 332 It is recognised that being sequentially the first barricade 331, the first notch 341, the second barricade 332 and the second barricade along clockwise direction in 7 342, wherein the section of the first barricade 331 and the second barricade 332 can be considered the segmental arc of two concentric same radiuses.This implementation In example, the outer wall of the first barricade 331 and the second barricade 332 is the conical surface, is specifically proximate to one end radius of push-rod hole 113 Smaller, one end radius close to rotor body 31 is larger, i.e., the vertex of a cone of circular cone where the conical surface is directed toward push-rod hole 113.Meanwhile with it is upper State the first barricade 331 and the second barricade 332 matchingly, valve chamber 16 is also configured as the conical surface close to the inner wall of apopore 1114, and With 332 clearance fit of the first barricade 331 and the second barricade.More specifically, as shown in fig. 7, in the present embodiment, the first barricade 331 segmental arc substantially central angle is 100 degree, and the segmental arc substantially central angle of the first notch 341 is 110 degree, the arc of the second barricade 332 Section substantially central angle is 100 degree, and the segmental arc of the second notch substantially central angle is 50 degree.In addition, between barricade 34 and tooth block 32 Holding tank 35 is also formed, the holding tank 35 is for accommodating rotation stop wall 117.

Elastic component 40 is set on pillar 143, and is held in the bottom surface of rotor body 31 and the cylinder of second end cover ontology 141 Between bottom.

Referring to Fig. 1, in the present embodiment, the assembly method for being discharged control assembly 100 is as follows:

First sealing ring 12 is placed in the first seal groove 114 by the first step first；

First end cover 13 is welded in first end cover slot 115 by second step by the method for welding, makes the first sealing ring 12 It can not axial displacement；

Third step, push rod 20 is facing forward with button installing hole 24 from valve chamber slot 112, and the direction of pushing block 22 backwards passes through and pushes away Rod aperture 21 and the first sealing ring 12 simultaneously stretch out the through-hole in first end cover 13, and pushing block 22 is made to be embedded in separate slot 119 and rotation stop groove 118 In, until pushing block 22 contacts the slot bottom of separate slot 119；

The core axle hole 36 of rotor 30 is directed at mandrel 23 by the 4th step, and makes barricade 33 and tooth block 32 towards push-rod hole 113, To the direction drive rotor 30 of push-rod hole 113, gently rotation makes rotor 30 be embedded in tooth block 32 in separate slot 119；

Elastic component 40 is sheathed on outside pillar 143 by the 5th step, and towards receiving hole；

Second sealing ring 15 is sheathed on the second seal groove 142 by the 6th step；

Second end cover 14 is fixed on the open end of valve chamber slot 16 by the 7th step.

After the assembly is completed, the structure of control assembly 100 is discharged as shown in Fig. 8, Fig. 9 to Figure 10.Wherein, pushing block 22 is placed in only In turn trough 118 and separate slot 119, tooth block 32 is also placed in separate slot 119；Barricade 33 and valve chamber 16 are between the inner wall of apopore 1114 Gap cooperation, gap dip distance are 0.1-0.4mm, are 0.3mm in the present embodiment.Rotor 30 is held by the top of elastic component 40 floats on valve chamber In 16.From Fig. 9 and Figure 21 it will be seen that the extending direction due to barricade 33 is identical as the extending direction of tooth block 32, The thickness of rotor 30 is reduced, the thickness of valve chamber 16 is further also reduced, enables entirely to be discharged control assembly 100 from flower The handle hole 220 for spilling ontology 200 is packed into, and is connect with panel assembly 300.

Specific driving push rod 20, realizes being described as follows for drip function, fast boiled water function and flow regulating function:

Referring to Figure 11 to Figure 14.Wherein, when showing rotor 30 in Figure 12 in the first stop position, barricade 33, notch 34 With the relationship of water inlet 1113 and water outlet 1114.When stopping position in first, tooth block 32 is located in separate slot 119, at this point, first 341 face apopore 1114 of notch, 332 face inlet opening 1113 of the second notch, either the first barricade 331 or the second barricade 332 all do not block apopore 1114, and water can pass through apopore 1114 from inlet opening 1113 through valve chamber 16 and rotor 30.

When Figure 13 shows rotor 30 in the second stop position, barricade 33, notch 34 and water inlet 1113 and water outlet 1114 relationship.Since first stops position, push rod 20 is pressed, pushing block 22 compresses the oblique of the tooth block 32 for stopping position in first Face makes rotor 30 to 14 axial displacement of second end cover, until tooth block 32 completely disengages the side clockwise of edge such as Figure 13 after separate slot 119 To rotation；Push rod 30 is discharged, elastic component 40 drives direction axial displacement of the rotor 30 to push-rod hole 113, until tooth block 32 is oblique Face contact guide pad 116, to continue along such as Figure 13 rotationally clockwise, until tooth block 32 turns to the position of separate slot 119 It sets and continuing axial displacement under the action of elastic component 40 makes tooth block 32 be embedded in the stop of separate slot 119 to the second position.At this point, first gear Wall 331 blocks 1114 substantially 60% area of water outlet, and the first notch 341 has half against water inlet 1113,332 envelope of the second barricade The area of stifled water inlet 1113 substantially 40%, the second notch 342 have substantially half against water outlet 1114；From first stop position to Second stops position, and rotor 30 is substantially rotated clockwise 120 degree along such as Figure 13, to realize from maximum amount of water to maximum The switching of water of the water close to 40%, i.e., may be implemented flow regulating function by above-mentioned movement.

When Figure 14 shows rotor 30 and is in third and stops position, barricade 33, notch 34 and water inlet 1113 and water outlet 1114 relationship.Since second stops position, push rod 20 is pressed, pushing block 22 compresses the oblique of the tooth block 32 for stopping position in first Face makes rotor 30 to 14 axial displacement of second end cover, until tooth block 32 completely disengages the side clockwise of edge such as Figure 14 after separate slot 119 To rotation；Push rod 30 is discharged, elastic component 40 drives direction axial displacement of the rotor 30 to push-rod hole 113, until tooth block 32 is oblique Face contact guide pad 116, to continue along such as Figure 14 rotationally clockwise, until tooth block 32 turns to the position of separate slot 119 It sets and continuing axial displacement under the action of elastic component 40 makes tooth block 32 be embedded in separate slot 119 to third stop position.It is stopped from second Position is stopped to third in position, and rotor 30 is substantially rotated clockwise 120 degree along such as Figure 13, when third stops position, first gear Wall 331 blocks the area of water inlet 1113 substantially 80%, and the first notch 341 has substantially 20% against water inlet 1113, second gear Wall 332 then blocks water outlet 1114 completely, since barricade 33 and valve chamber 16 are equipped with 0.3mm's between the inner wall of water outlet 1114 Therefore gap 161, although barricade 33 blocks water outlet 1114, can not simultaneously prevent completely water flow to form channel 16 of dripping Passed through with lesser flow, to realize function of dripping.

When being back to the first stop position of Figure 12 from the third of Figure 14 stop position, roughly the same process is also undergone.Pressing Push rod 20, pushing block 22 compress the inclined-plane for stopping the tooth block 32 of position in third, make rotor 30 to 14 axial displacement of second end cover, directly After completely disengaging separate slot 119 to tooth block 32 rotationally clockwise along such as Figure 12.During this, it should be noted that due to Rotor is in water outlet control assembly 100 when third stops position and is in state of dripping, and compresses tooth block 32 in pushing block 22 and rises to tooth block 32 Completely disengaging tooth block 32 in the stroke that separate slot 119 stops can not rotate, since barricade 33 uses the conical surface, and circular cone where the conical surface The vertex of a cone towards push-rod hole, therefore, in this process, as rotor 30 is displaced to 14 direction of second end cover, barricade 33 and valve chamber 16 gap between the inner wall of apopore 1114 becomes larger, and the increase that water can be realized is rotated without rotor 30, this It is achieved that fast boiled water function.

Figure 15 to Figure 19 shows the difference that the application is discharged the second embodiment and first embodiment of control assembly 100. Structurally, the main distinction of second embodiment and first embodiment is the outer wall surface of the barricade 33 of rotor 30 for circle Cylinder, and simultaneously, the inner wall of valve chamber 16 is also provided with drip 162 above apopore 1114.Drip 162 it is open at one end in Apopore 1114, the other end cross barricade 33 and are connected to valve chamber 16, to form channel 16 of dripping.Certain drip 162 can also be with Circumferencial direction along valve chamber inner wall opens up, it is only necessary to which, when stopping position in third, drip 162 can be connected to valve chamber 16 and go out Water hole 1114.It should be pointed out that the second embodiment of water outlet control assembly 100 cannot achieve fast boiled water function.This is Although due to pushing block 22 compress tooth block 32 rise to tooth block 32 completely disengage separate slot 119 stop stroke in barricade 33 move down, But the area for blocking apopore 1114 can not be changed.

Figure 20 and Figure 21 shows the embodiment of shower 1000.As shown in Figure 20 and Figure 21, shower 1000 includes shower sheet Water outlet control assembly 100 in body 200, cover component 300, button 400 and such as above-mentioned the first embodiment or the second embodiment.

Wherein, as shown in figure 21, shower ontology 200 is equipped with cover hole 210, handle hole 220 and button hole, button hole and is set to On the handle of shower ontology 200, is conducive to people and presses control water outlet in Portable rose.Cover component 300 is from shower ontology 200 loading of cover hole 210 is simultaneously affixed with shower ontology 200.It may be noted that in the present embodiment, the tail portion of cover component 300 Sealing ring is equipped at water outlet, to be connected to the sealing of inlet channel 111 of water outlet control assembly 100.It is discharged control assembly 100 then It is packed into from the handle hole 220 of shower ontology and affixed with shower ontology, while inlet channel 111 must be made to pass through above-mentioned sealing ring It is connected to the sealing of the water outlet of cover component 300, at this point, button hole described in 20 face of push rod.400 face button hole of button dress If button 400 is equipped with axis of a cylinder, axis of a cylinder is inserted into the button installing hole 24 on push rod 20, to realize consolidating for button 400 and push rod 20 It connects.

Shower 1000 using the above structure no longer needs to separately manufacturing shower ontology, to keep shower ontology primary Injection molding, to improve the aesthetics of shower entirety.

When above-mentioned shower 1000 assembles, water outlet control assembly 100 be packed by the handle hole 220 of shower ontology 200 and with The cover component 300 being packed into from the cover hole 210 of shower ontology 200 is docked and connected, meanwhile, it is discharged the push rod of control assembly 100 The beauty that shower ontology guarantees shower entirety without separately manufacturing may be implemented in 20 face button holes, such assembly method The goal of the invention of degree.

Compared with the existing technology, the embodiment of the present application has the following beneficial effects:

The application changes the design side for extending the barricade of rotor and tooth block along direction away from one another in background technique Case extends barricade and tooth block to the direction of push-rod hole, to reduce the thickness of rotor, further also reduces valve chamber Thickness, enable entirely to be discharged control assembly and be packed into shower ontology from the handle hole of shower ontology.In addition, in the application into One step, which defines, makes to continue to turn in tooth block reset axial direction reseting procedure next structure i.e. guide pad for stopping position.And guide pad Around push-rod hole, structure is very compact, makes entirely to be discharged thinner in control assembly axial direction.

Pushing block is designed as radially extending along push rod by the application, and is slidably connected with separate slot rotation stop.Such setting, Pushing block can be retracted in separate slot to step down for convex block, so that convex block is compressed guide pad and slide in separate slot.It is such to set Meter not only makes structure more compact, makes entire water outlet control assembly thinner in the axial direction, additionally it is possible to allow convex block more reliably into Enter to stop position, keeps the movement of entire axial displacement rotating mechanism relatively reliable.

In view of the axial displacement stroke of pushing block is possible to be detached from separate slot, therefore by setting rotation stop wall to guarantee that pushing block exists It is connect after being detached from separate slot with the rotation stop of water inlet body.Certainly, the axial displacement stroke of pushing block is not necessarily to be detached from separate slot, therefore stop The setting for turning wall is not required.

Pushing block, rotor and elastic component is set advantageously to be packed into very much valve chamber by the way that second end cover is arranged.By close by first Seal, which is placed in the first seal groove, realizes that the sealing of push rod and water-logged base is slidably connected.

Barricade blocks area by the valve chamber inner wall clearance fit with close apopore, to change apopore to realization pair The change of inlet channel closure degree.

By setting the conical surface for barricade outer wall, so that can not wait and turn when push rod drive rotor is displaced axially downwards Son rotates the gap that can change barricade and valve chamber between the inner wall of apopore, so that it is become larger rapidly and opens out Function is opened to realize in water hole fastly.

By the way that three stop positions are arranged, three kinds of sealed conditions are formed, flow regulating function is realized.

Channel of dripping is formed between barricade and apopore, to realize function of dripping.

By the way that drip is arranged in valve chamber inner wall, to form channel of dripping, and drip can be opened up by control Depth and width, control the amount of dripping, and the structure is less sensitive to the dimensional tolerance of processing.

Function of dripping is realized by the clearance distance between setting valve chamber inner wall and barricade.Importantly, outside barricade Surface be the conical surface in the case where, due to the conical surface and revolution between centers angle very little, even if axially mounted dimensional tolerance compared with Greatly, also smaller between the change of the clearance distance barricade, therefore, barricade outer surface be the conical surface under the premise of, it is this by Gap is less sensitive to axial fitted position tolerance come the structure for adjusting the flow that drips.

Using the shower of above-mentioned water outlet control assembly.Since button is additionally mounted, button height will not influence water outlet Control assembly is packed into from handle hole.Using the technical program, the manufacturing process of shower is more simple, also can choose integrally manufactured Shower ontology, to achieve the effect that more aesthetically pleasing.

Since water outlet control assembly is packed by the handle hole of shower ontology, shower ontology is without re-forming molding Line is also not easy to shelter evil people and countenance evil practices during bathing using beauty.

The description of description above and embodiment for explaining the application protection scope, but is not constituted and is protected to the application Protect the restriction of range.By the enlightenment of the application or above-described embodiment, those of ordinary skill in the art combine common knowledge, ability The ordinary technical knowledge and/or the prior art in domain, it is available right by logical analysis, reasoning or limited test Modification, equivalent replacement or the other improvements of the embodiment of the present application or in which a part of technical characteristic, should be included in the application's Within protection scope.

Claims (12)

1. a kind of water outlet control assembly, characterized in that include:

Water inlet body, the valve chamber for being equipped with inlet channel and intersecting with inlet channel；One end of valve chamber is equipped with push-rod hole；Also around push-rod hole Equipped with several guide pads；

Push rod body rotation stop and is hermetically slidably connected through push-rod hole and with water inlet；Its one end for protruding into valve chamber is equipped with several Pushing block；

Rotor is equipped with the tooth block on several tool inclined-planes extended to push-rod hole direction；The outer peripheral edge of rotor is additionally provided with to push-rod hole The notched barricade that direction extends；The barricade and valve chamber inner wall clearance fit；Rotor rotation changes barricade and blocks water inlet The degree in road；

Elastic component is held between rotor and the other end of valve chamber；

Push rod is pressed, pushing block compresses in the tooth block for stopping position, makes rotor axial displacement and rotate；Push rod is discharged, elastic component drives Dynamic rotor axial resets, and tooth block contact guide pad is continued to rotate to next stop position.

2. a kind of water outlet control assembly as described in claim 1, characterized in that

Separate slot is formed between the guide pad；

The pushing block is set as radially extending along push rod, and is slidably connected with separate slot rotation stop；

The tooth block is matched with the separate slot；

Positioned at when stopping position, the pushing block and tooth block are respectively positioned in the separate slot；Push rod is pressed, the pushing block compresses tooth Block axial displacement, until tooth block rotates after being detached from separate slot；Push rod is discharged, the tooth block axially resets, after contact guide pad It continues to rotate and slides into separate slot to next stop position.

3. a kind of water outlet control assembly as claimed in claim 2, it is characterized in that:

The rotation stop wall extended to rotor direction is additionally provided in valve chamber around the guide pad, the inner wall of rotation stop wall is additionally provided with and institute The rotation stop groove for the separate slot corresponding matching stated；

The pushing block is also slidably connected with rotation stop groove；

The rotor forms the holding tank for accommodating rotation stop wall between tooth block and barricade.

4. a kind of water outlet control assembly as claimed in claim 1,2 or 3, characterized in that the water inlet body include water-logged base, First end cover and second end cover；

The valve chamber slot that the water-logged base is equipped with inlet channel and intersects with inlet channel；The valve chamber slot is closed at one end, the other end It is open；Push-rod hole is set to the closed one end of valve chamber slot, and push-rod hole is equipped with first end cover slot away from a face periphery of valve chamber slot；

The first end cover is fixed in first end cover slot；

The open one end of the second end cover and valve chamber slot is tightly connected and cooperatively forms valve chamber.

5. a kind of water outlet control assembly as claimed in claim 2, characterized in that the inlet channel and valve chamber be crossed to form into Water hole and apopore；The barricade and the valve chamber inner wall clearance fit close to apopore, and apopore is blocked by changing Area blocks the degree of inlet channel to change.

6. a kind of water outlet control assembly as claimed in claim 5, characterized in that the barricade outer wall is set as the conical surface, should The vertex of a cone of circular cone is towards push-rod hole where the conical surface, and correspondingly, the valve chamber is also configured as close to the inner wall of apopore and barricade The matched conical surface of outer wall.

7. such as a kind of water outlet control assembly described in claim 5 or 6, characterized in that the tooth block and separate slot are set as three It is a, three stop positions are consequently formed；When first stops position, the barricade does not block the apopore；It is stopped second When position, the barricade blocks a part of area of the apopore；When third stops position, the barricade blocks described The entire area of apopore.

8. such as a kind of water outlet control assembly described in claim 5 or 6, characterized in that the barricade blocks the complete of apopore When portion's area, channel of dripping is formed between barricade and apopore.

9. a kind of water outlet control assembly as claimed in claim 8, characterized in that the channel of dripping is drip, described Drip be opened in valve chamber inner wall, one end is opened on apopore, and the other end crosses the barricade for blocking apopore and valve chamber connects It is logical.

10. a kind of water outlet control assembly as claimed in claim 8, characterized in that the barricade and the valve close to apopore Clearance distance between cavity wall is 0.1-0.4mm, and forms channel of dripping by the gap.

11. a kind of shower, characterized in that including shower ontology, cover component, button and such as any one of claims 1 to 10 The water outlet control assembly；

The shower ontology is equipped with cover hole, handle hole and button hole, and the button hole is set to the handle of shower ontology On；The cover component is affixed with shower ontology after being packed into from the cover hole of shower ontology；

The water outlet control assembly inlet channel and face affixed with shower ontology, described after the loading of the handle hole of shower ontology The water outlet of cap assemblies seals connection, button hole described in push rod face；

The button is installed in the position of the button hole and affixed with the push rod.

12. a kind of shower assembly method, characterized in that the water outlet control assembly of shower by the handle hole of shower ontology be packed into It is docked and connected with the cover component being packed into from the cover hole of shower ontology, and uses the push rod face shower ontology of water management component On button hole.