CN106925445A - Bathtub nozzle component - Google Patents

Abstract

The invention provides a kind of bathtub nozzle component, it includes bathtub nozzle.Bathtub nozzle includes nozzle entrance and jet expansion.Diverter assembly is carried by bathtub nozzle.Diverter assembly includes that splitter inlet and current divider are exported.Handle can rotate to the second place relative to bathtub nozzle from first position, or conversely.Potted component is coupled to handle so as to be rotated together with handle.In first position, potted component to be arranged to exported with current divider and is separated to allow water to flow through bathtub nozzle component and flow out bathtub nozzle component by jet expansion.Current divider outlet is covered to prevent water from flowing through the jet expansion of bathtub nozzle component in second position potted component.Torque spring bias handle and potted component towards first position.

Description

Bathtub nozzle component

Cross reference to related applications

This application claims Application No. US62/219496, it is filed in September, 2015 U.S. Provisional Patent Application of 16 days Priority, the complete disclosure of this application by reference to mode be expressly incorporated in the application.

Technical field

Bathtub spray present application relates generally to convey water optionally through bathtub nozzle module outlet or shower head Nozzle assembly.The application more particularly to such a bathtub nozzle component, it includes rotatable handgrip, for optionally through Bathtub nozzle module outlet come convey water or shunted by shower head water for conveying.

Background technology

Bathtub nozzle component generally includes current divider, for conveying water optionally through bathtub nozzle module outlet Or water is distributed by shower head for conveying.Current divider typically comprise one kind can linearly be moved by user (push away or Person draw) bar, for water is conveyed optionally through bathtub nozzle module outlet or shunted by shower head water with For conveying.This bar is a kind of relatively obvious part, is easily reduced the attractive in appearance of integral bathtub nozzle assembly.

The content of the invention

According to a first aspect of the present invention, there is provided a kind of bathtub nozzle component, for conveying water and moisture being fitted on shower head, The bathtub nozzle component includes bathtub nozzle and the diverter assembly carried by the bathtub nozzle.The bathtub nozzle includes： Nozzle entrance, it is configured to receive water；Jet expansion, it is defeated from bathtub nozzle component that it is configured to a water；And by described The diverter assembly that bathtub nozzle is carried.The diverter assembly includes：Splitter inlet, it is configured to be connect from nozzle entrance Receive water；Current divider is exported, and it is configured to deliver water to jet expansion；Handle, it is revolvably held by the bathtub nozzle Carry, the handle capable of being rotates to the second place or rotates to the from the second place relative to the bathtub nozzle from first position One position；Potted component, it is coupled to the handle, with together with the handle relative to the bathtub nozzle from described first Position rotates to the second place or rotates to the first position from the second place, in the first position, The potted component to be arranged to and export phase separation with the current divider to allow water to flow through the bathtub nozzle component and lead to Cross the jet expansion and flow out the bathtub nozzle component, and in second position, the potted component covers the shunting Device exports to prevent water from flowing through the jet expansion of the bathtub nozzle component；And torque spring, it is coupled to the hand Handle and the potted component, the torque spring bias the handle and the potted component towards the first position.

Preferably, the torque spring has elastic constant, and the potted component has surface area, when the potted component In the second position, water applies pressure to the surface area, and the elastic constant and the surface area are configured such that： When the pressure is more than pressure threshold, the potted component is maintained the second position by the pressure；And work as institute When stating pressure less than the pressure threshold, the handle and the potted component are rotated to described first by the torque spring Put.

Preferably, the diverter assembly further includes the current divider cover carried by the bathtub nozzle, the shunting Device cover includes the splitter inlet, current divider outlet and the potted component for revolvably carrying, wherein the torsion Power spring includes：It is coupled to the first end of the current divider cover；And it is coupled to the second end of the handle.

Preferably, the bathtub nozzle further includes the longitudinal axis, and the handle and the potted component can be around the longitudinal axis From the first position second place is rotated to relative to the bathtub nozzle or rotate to institute from the second place State first position.

Preferably, the handle and the potted component are big to the second place from the first position around the longitudinal axis Cause is rotated by 90 ° or is substantially rotated by 90 ° to the first position from the second place.

Preferably, the current divider outlet is disposed in the plane substantially perpendicular to the longitudinal axis.

Preferably, the potted component includes：Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；With And tablet, it is coupled to the axle；Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, The first position, the packing ring is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle Component and the bathtub nozzle component is flowed out by the jet expansion, in the second position, the packing ring shelter Current divider outlet is stated to prevent water from flowing through the jet expansion of the bathtub nozzle component.

Preferably, the diverter assembly further includes the current divider cover carried by the bathtub nozzle, the shunting Device cover revolvably carries the potted component, and the current divider cover includes defining the wall of the current divider outlet, wherein The second position, the potted component is close to the wall around current divider outlet to prevent water from flowing through the bathtub The jet expansion of nozzle assembly.

Preferably, the bathtub nozzle further includes nozzle casing, and it defines the groove that partly circumference extends, and the groove prolongs The nozzle is extended through, the handle has the action bars for extending through the groove and being coupled to the potted component.

Preferably, the groove that partly circumference extends described in the handle masking.

According to a second aspect of the present invention, there is provided a kind of bathtub nozzle component, for conveying water and moisture being flowed to shower head, The bathtub nozzle component includes the diverter assembly for defining the bathtub nozzle of the longitudinal axis and being carried by the bathtub nozzle.Institute Stating bathtub nozzle includes：Nozzle entrance, it is configured to receive water；Jet expansion, it is configured to conveying from the bathtub The water of nozzle assembly.The diverter assembly includes：Splitter inlet, it is configured to receive water from the nozzle entrance；Point Stream device outlet, it is configured to deliver water to the jet expansion, and the current divider outlet is disposed in and is substantially perpendicular to In the plane of the longitudinal axis；Handle, it is revolvably carried by the bathtub nozzle, the handle capable of being relative to the bathtub nozzle around The longitudinal axis rotates to the second place or rotates to first position from the second place from first position；And potted component, its The handle is coupled to, is rotated from the first position around the longitudinal axis relative to the bathtub nozzle with together with the handle The first position is rotated to the second place or from the second place, unit is being sealed described in the first position Part is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle component and by the nozzle The outlet outflow bathtub nozzle component, and in the second position, the potted component covers the current divider outlet To prevent water from flowing through the jet expansion of the bathtub nozzle component.

Preferably, the handle and the potted component are big to the second place from the first position around the longitudinal axis Cause is rotated by 90 ° or is substantially rotated by 90 ° to the first position from the second place.

Preferably, the potted component includes：Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；With And tablet, it is coupled to the axle；Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, The first position, the packing ring is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle Component and the bathtub nozzle component is flowed out by the jet expansion, and in the second position, the packing ring hides Current divider outlet is stated to prevent water from flowing through the jet expansion of the bathtub nozzle component in covert.

Preferably, the diverter assembly further includes torque spring, and the torque spring is coupled to the handle With the potted component, the torque spring biases the handle and the potted component towards the first position, described Torque spring has elastic constant, and the potted component has surface area, when the potted component is in the second position, water Pressure is applied to the surface area, the elastic constant and the surface area are configured such that：When the pressure is more than pressure During threshold value, the potted component is maintained the second position by the pressure；And when the pressure is less than the pressure During threshold value, the handle and the potted component are rotated to the first position by the torque spring.

Preferably, the handle and the potted component are big to the second place from the first position around the longitudinal axis Cause is rotated by 90 ° or is substantially rotated by 90 ° to the first position from the second place.

Preferably, the diverter assembly further includes the current divider cover carried by the bathtub nozzle, the shunting Device cover revolvably carries the potted component, and the current divider cover includes defining the wall of the current divider outlet, wherein in institute Second position is stated, the potted component is close to the wall around current divider outlet to prevent water from flowing through the bathtub nozzle The jet expansion of component.

According to a third aspect of the present invention, there is provided a kind of bathtub nozzle component, including：Bathtub nozzle and by the bathtub nozzle The diverter assembly of support.The bathtub nozzle includes：Nozzle entrance, it is configured to receive water；Jet expansion, it is configured to Water of the conveying from the bathtub nozzle component.The diverter assembly includes：Splitter inlet, it is configured to from the nozzle Entrance receives water；Current divider is exported, and it is configured to water to be transferred to the jet expansion；Handle, it is revolvably by described Bathtub nozzle is supported, and the handle capable of being rotates relative to the bathtub nozzle between the first position and the second position；Sealing unit Part, it is coupled to the handle with the handle together between the first position and the second place relative to described Bathtub nozzle rotates, and in the first position, the potted component is arranged to current divider outlet phase separation to permit Xu Shui flows through the jet expansion of the bathtub nozzle component, and in the second position, the potted component masking The current divider exports to prevent water from flowing through the jet expansion of the bathtub nozzle component；And torque spring, its coupling To the handle and the potted component, the torque spring is the handle and the potted component towards the first position Biasing.

Preferably, the bathtub nozzle further includes the longitudinal axis, and the handle and the potted component can be around the longitudinal axis From the first position second place is rotated to relative to the bathtub nozzle or rotate to institute from the second place State first position.

Preferably, the current divider outlet is disposed in the plane substantially perpendicular to the longitudinal axis.

Preferably, the potted component includes：Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；With And tablet, it is coupled to the axle；Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, in institute First position is stated, the packing ring is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle group Part and the bathtub nozzle component is flowed out by the jet expansion, and in the second position, the packing ring masking The current divider exports to prevent water from flowing through the jet expansion of the bathtub nozzle component.

Preferably, the bathtub nozzle further includes nozzle casing, and it defines the groove that partly circumference extends, and the groove prolongs The nozzle is extended through, the handle has the action bars for extending through the groove and being coupled to the potted component.

According to the one exemplary embodiment of the application, bathtub nozzle component delivers water to and is assigned to shower head.Bathtub sprays Nozzle assembly includes bathtub nozzle.Bathtub nozzle includes the nozzle entrance for being configured to receive water.Bathtub nozzle further includes handle The defeated jet expansion from bathtub nozzle component of water.Diverter assembly is carried by bathtub nozzle.Diverter assembly includes being configured to The splitter inlet of water is received from nozzle entrance and be configured to deliver water to the current divider outlet of jet expansion.Handle capable of being revolves Turn ground to be carried by bathtub nozzle, and handle capable of being rotates to the second place from the first position of bathtub nozzle, vice versa.Sealing Element is coupled to handle so as to rotate to the second place from the first position of bathtub nozzle together with handle, and vice versa. First position, potted component is arranged to current divider outlet phase separation to allow water to flow through bathtub nozzle component and pass through Jet expansion flows out bathtub nozzle component.In second position, potted component masking current divider exports to prevent water from flowing through bathtub The jet expansion of nozzle assembly.Torque spring is coupled to handle and potted component.Torque spring handle and potted component direction First position biases.

According to another one exemplary embodiment of the application, bathtub nozzle component delivers water to and is assigned to shower head. Bathtub nozzle component includes defining the bathtub nozzle of the longitudinal axis.Bathtub nozzle includes the nozzle entrance for being configured to receive water.Bathtub Nozzle further includes the jet expansion for being configured to convey the water from bathtub nozzle component.Diverter assembly is by bathtub nozzle Carry.Diverter assembly includes being configured to being received from nozzle entrance the splitter inlet of water.Diverter assembly is further included It is configured to deliver water to the current divider outlet of jet expansion.Current divider outlet is disposed in the plane for being basically perpendicular to the longitudinal axis On.Handle is revolvably carried by bathtub nozzle.Handle can rotate to second around the longitudinal axis relative to bathtub nozzle from first position Position, vice versa.Potted component is coupled to handle, so as to together with handle relative to bathtub nozzle around the longitudinal axis from first Position rotates to the second place, and vice versa.In first position, potted component be arranged to current divider export be separated with Allow water to flow through bathtub nozzle component and bathtub nozzle component is flowed out by jet expansion.In second position, potted component Masking current divider exports to prevent water from flowing through the jet expansion of bathtub nozzle component.

Read and consider hereafter to the detailed description of the application one exemplary embodiment after, the supplementary technology of the application Feature and advantage can become apparent to those skilled in the art.

Brief description of the drawings

Fig. 1 is the stereogram of exemplary bathtub nozzle component, is rotated to " bathtub " shown with bathtub nozzle component handle Position or first position, its reclaimed water flow out from the outlet of bathtub nozzle component；

Fig. 2 is another stereogram of the bathtub nozzle component of Fig. 1, and the handle shown with bathtub nozzle component is rotated to " shower " position or the second place, its reclaimed water do not flow out from the outlet of bathtub nozzle component, conversely, water is from shower head stream Go out；

Fig. 3 is the forward direction exploded perspective view of the bathtub nozzle component drawings of Fig. 1；

Fig. 4 is the backward exploded perspective view of the bathtub nozzle component drawings of Fig. 1；；

Fig. 5 is longitudinal profile stereogram of the bathtub nozzle component along the line 5-5 in Fig. 1；

Fig. 6 is longitudinal profile stereogram of the bathtub nozzle component along the line 6-6 in Fig. 2；

Fig. 7 is horizontal section stereogram of the bathtub nozzle component along the line 7-7 in Fig. 1；

Fig. 8 is horizontal section stereogram of the bathtub nozzle component along the line line 8-8 in Fig. 2；

Fig. 9 is the forward direction stereogram of the first cover portion of the diverter assembly of the bathtub nozzle component of Fig. 1；

Figure 10 is the backward stereogram of first cover portion of Fig. 9；

Figure 11 is the forward direction stereogram of the part of the diverter assembly of the bathtub nozzle component of Fig. 1；

Figure 12 is the top perspective view of the potted component of the diverter assembly of the bathtub nozzle component of Fig. 1；

Figure 13 is the face upwarding stereogram of the potted component of Figure 12；

Figure 14 is the face upwarding stereogram of the second cover portion of the diverter assembly of the bathtub nozzle component of Fig. 1；

Figure 15 is the backward stereogram of second cover portion of Figure 14；

Figure 16 is longitudinal profile stereogram of the bathtub nozzle component along the line 5-5 of Fig. 1, and it is shown with operational torque and resistance The torque that only potted component rotates towards the second place；

Figure 17 is longitudinal profile stereogram of the bathtub nozzle component along the line 6-6 of Fig. 2, and it is shown with operational torque and resistance The torque that only potted component rotates towards first position；

Figure 18 is longitudinal profile stereogram of the bathtub nozzle component along the line 6-6 of Fig. 2, and it is shown with hydraulic pressure threshold value torque With the torque for preventing potted component from being rotated towards first position；

Figure 19 is the stereogram of another exemplary bathtub nozzle component, and it is shown with the hand shown with bathtub nozzle component Handle is rotated to " bathtub " position or first position, and its reclaimed water flows out from the outlet of bathtub nozzle component；；

Figure 20 is another stereogram of the bathtub nozzle component of Figure 19, and the handle shown with bathtub nozzle component is rotated To " shower " position or the second place, its reclaimed water does not flow out from the outlet of bathtub nozzle component, conversely, water is from shower head stream Go out；

Figure 21 is line 21-21 side view in transverse section of the bathtub nozzle component along Figure 19；

Figure 22 be Figure 19 bathtub nozzle component first position part stereogram, and the second current divider cover portion Shown with contour line；

Figure 23 is the stereogram of the bathtub nozzle component in the part of second position of Figure 20, and the second current divider cover portion Shown with contour line；

Figure 24 is the stereogram of the part of the bathtub nozzle component of Figure 19；

Figure 25 is the stereogram of the part of the potted component of the bathtub nozzle component of Figure 19；

Figure 26 is the stereogram of the second current divider cover portion of the bathtub nozzle component of Figure 19；And

Figure 27 is the end view of the second current divider cover portion of the bathtub nozzle component of Figure 19.

Specific embodiment

The embodiment of present disclosure as described herein is not intended to exhaustive or limits accurate reality disclosed in this specification Apply example.Conversely, embodiment described herein enables that those skilled in the art implements the present invention.

With reference first to the figure in Fig. 1 and Fig. 2, an exemplary bathtub nozzle component 10 of this specification is configured to pass through Bathtub nozzle pipe 15 and T connector 16 and be coupled to water transfer tube (or riser) 12 and shower-head tubes (or riser) 14.Bath Cylinder nozzle assembly 10 generally comprises the bathtub nozzle 18 for carrying diverter assembly 20.The handle 22 of diverter assembly 20 is rotatable To first position, i.e. " bathtub " or " bathtub " position (referring to Fig. 1), in the position, bathtub nozzle component 10 will be transmitted from water The water that pipe 12 is received is transported to jet expansion 24.Exemplarily, diverter assembly 20 be attributable to the manually operated of user or Person's spring apply power and rotate to first position.Handle 22 can also rotate to the second place or " shower " position (referring to figure 2), in the position, bathtub nozzle component 10 prevents water from flowing through wherein, and will not deliver water into jet expansion 24.Substitute Ground, the water from water transfer tube 12 is transported to shower-head tubes 14 and is coupled to the shower head (not shown) of the shower-head tubes.Show Plasticity ground, diverter assembly 20 is attributable to the manually operated of user and rotates to the second place.Illustrate further below These and other feature of bathtub nozzle component 10.

Referring to figs. 1 to Fig. 6, bathtub nozzle 18 includes escutcheon or decoration 26, and it is configured to be close to carrying bathtub nozzle group The wall (not shown) of part 10.Escutcheon 26 around and be exemplarily coupled to entrance male part 28 by cooperating screw thread.Enter Mouth male part 28 is coupled to bathtub nozzle pipe 15 and including the nozzle entrance 30 for receiving the water from water transfer tube 12.Nozzle Entrance 30 is coupled to passage 32, and passage 32 is coupled to outlet 34, and it delivers water into diverter assembly 20, and hereafter this is entered More detailed explanation is gone.

Entrance male part 28 and escutcheon 26 are coupled to the nozzle casing 36 for defining jet expansion 24.Nozzle casing 36 includes facing Near-end point or Part I 38, Part I 38 exemplarily rotatably carry handle 22 by packing ring 40.It is exemplary Ground, other diameters of external diameter less than nozzle casing 36 of Part I 38, hereafter provides more specific description to this.Nozzle casing 36 is also Including two grooves 42 to cause internally to accommodate diverter assembly 20, more specific description is hereafter provided to this.Nozzle casing 36 Deep-slotted chip breaker 44 is further included to accommodate a part for handle 22, it is as detailed below.Deep-slotted chip breaker 44 is around nozzle casing 36 Part I 38 circumference a part and extend.

Nozzle casing 36 further includes to be coupled to the center section of Part I 38 or Part II 46.Exemplarily, Part II 46 is integrally coupled to Part I 38.Part II 46 defines the longitudinal axis 48 of bathtub nozzle component 10, and along It extends.Exemplarily, Part II 46 has cavity, usually cylinder.Exemplarily, the external diameter of Part II 46 is more than The external diameter of Part I 38.Part II 46 further includes the inwall 49 with hole 51 for extending laterally (referring to Fig. 5 and Tu 6).Hole 51 accommodates diverter assembly 20, and following article is specifically described.Inwall 49 also includes aperture 53 to allow fluid from spray The Part II 46 of mouth cover 36.

Nozzle casing 36 further includes distal part or Part III 50, and it is coupled to relative with Part I 38 Two parts 46.Exemplarily, Part III 50 is integrally coupled to Part II 46.Part III 50 extends outwardly away from bathtub nozzle The longitudinal axis 48 of component 10, and define the jet expansion 24 relative with Part II 46.Exemplarily, Part III 50 includes sky Chamber, usually sweeping cylinder.

The Part I and Part II of the nozzle casing according to the application can use various different shapes and form.Example Such as, the Part I of nozzle casing can have different axisymmetric shapes, such as frusto-conical, or non-axis symmetry shape. Another example, the Part II of nozzle casing can extend laterally away from Part I and the longitudinal axis.

Jet expansion 24 exemplarily includes packing ring 52 and air blown producer or stream straightener 54.Exemplarily, straightener is flowed 54 Part III 50 that nozzle casing 36 can be threadably coupled at jet expansion 24.

With continued reference to Fig. 3 to Fig. 6 and referring again to Fig. 7 and Fig. 8, diverter assembly 20 includes handle 22 for selection Property ground the position of bathtub nozzle component 10 is arranged on first position (or bathtub position) (referring to Fig. 5 and Fig. 7) or second Put (or shower position) (referring to Fig. 6 and Fig. 8).Exemplarily, handle 22 is (such as clockwise from first position to the second place Ground) (i.e. 90 degree ± 5 degree) are substantially rotated by 90 ° around the longitudinal axis 48, vice versa (such as against deasil).Diverter assembly 20 is also Generally comprise the first current divider cover portion 56 and the second current divider cover portion 58 that water is received from entrance male part 28.First current divider cover The current divider cover portion 58 of portion 56 and second carries rotatably and internally potted component 60.Potted component 60 is coupled to handle 22, So as to rotate to the second place from first position together with handle 22, vice versa.In first position, potted component 60 is set Be set to and defined by the second current divider cover portion 58 current divider outlet 62 be separated, with allow water flow through bathtub nozzle component 10 with And flowed out from jet expansion 24.Exemplarily and reference picture 7, when potted component 60 is in first position, water is typically in arrow Trickled on direction shown in head W.In the second position of Fig. 8, the masking current divider of potted component 60 exports 62 to prevent water from flowing through The jet expansion 24 of bathtub nozzle component 10.Hereafter these technical characteristics and other technical characteristics to diverter assembly 20 enter Row further description.

Handle 22 includes Part I 64, and Part I 64 is rotatably carried by nozzle casing 36 by packing ring 40.Demonstration Property, Part I 64 has the shape of general cylinder.Exemplarily, Part I 64 is concentric with the longitudinal axis 48, and around the longitudinal axis 48 rotations.The external diameter of Part I 64 is substantially the same with the external diameter of the Part II 46 of nozzle casing 36 (i.e. poor at 0.1 inch It is interior).Such diameter can provide apparent company between the Part I 64 of handle 22 and the Part II 46 of nozzle casing 36 Continuous property.

Handle 22 exemplarily also includes being coupled to the boss or raised 66 of Part I 64.Exemplarily, raised 66 It is integrally coupled to Part I 64.Exemplarily, raised 66 have essentially a three-dimensional rectangular shape, and it is extended laterally away from From Part I 64 and the longitudinal axis 48.

Handle 22 exemplarily further includes to be coupled to raised 66 handle or lid 68.Exemplarily, by inside Ground accommodates raised 66 and by fastener (such as one group bolt assembly 70), and lid 68 is coupled into raised 66.Exemplarily, Lid 68 has three-dimensional rectangular shape substantially, and it is extended laterally from Part I 64 and the longitudinal axis 48.Lid 68 includes the first table Face 72 and second surface 74, when handle 22 is in first position or bathtub position, the first surface 72 is visible (referring to figure 7), and when handle 22 is in the second place or shower position, the second surface 74 is visible (referring to Fig. 8).Alternatively, One surface 72 includes words " shower " to represent and by rotary handle 22 water can be made to be pumped through shower head.Alternatively, First surface 72 may include alphabetical " S " or the explanation on shower head.Alternatively, first surface 72 may include words " bathtub " Or " bathtub ", alphabetical " B " or " T ", or the explanation on bathtub nozzle are in bathtub representing bathtub nozzle component 10 Position.Alternatively, second surface 74 includes words " bathtub " to represent and can be pumped through water by rotary handle 22 Bathtub nozzle component 10.Alternatively, second surface 74 can be including words " bathtub ", alphabetical " B " or " T ", or on bath The explanation of cylinder nozzle.Alternatively, second surface 74 can include words " shower ", alphabetical " S ", or saying on shower head It is bright, to represent that bathtub nozzle component 10 is in shower position.

Handle 22 exemplarily further includes action bars (such as fastener and in particular bolt assembly 76), and it is convex Play 66 and be coupled to potted component 60 so that potted component 60 rotates together with handle 22.Exemplarily, bolt assembly 76 prolongs The deep-slotted chip breaker 44 of nozzle casing 36 is extended through, potted component 60 is coupled to raised 66.

Reference picture 3 arrives Fig. 8 and reference picture 9 and Figure 10, the first current divider cover portion 56 exemplarily coupling by packing ring 78 Close entrance male part 28.Internally, the first current divider cover portion 56 includes the entrance 80 for receiving water from entrance male part 28. Entrance 80 is coupled to passage 82, and passage 82 is coupled to outlet 84, and it delivers water to the second current divider cover portion 58.Externally, One current divider cover portion 56 includes two boss 86 being accommodated in the groove 42 of nozzle casing 36, to prevent the first current divider cover portion Rotation between 56 and nozzle casing 36.First current divider cover portion 56 also includes two additional boss 88, and hereinafter this is entered Row is more specifically bright.It is close to the exit at 84, the first current divider cover portion 56 includes through hole 90, and potted component 60 extends through this Through hole, wherein potted component 60 exemplarily can be supported rotatably by packing ring 92.First current divider cover portion 56 is further Including groove 94, wherein bolt assembly 76 is coupled to potted component 60 and wherein bolt assembly 76 rotates around the longitudinal axis 48.Groove 94 include side wall 96, and it provides stop part, and bolt assembly 76 is close to stop part to define first position.

With continued reference to Fig. 3 to Fig. 6 and referring additionally to Figure 11, diverter assembly 20 is further included around the first current divider The torque spring 98 that cover portion 56 extends.In general, torque spring 98 is towards first position bias handle 22 and potted component 60, As explained in further detail below, if hydraulic pressure is less than pressure threshold, the handle 22 of torque spring 98 and potted component 60 First position is rotated to from the second place.Exemplarily, torque spring 98 includes being coupled by being accommodated between boss 88 To the first end 100 of the first current divider cover portion 56.Torque spring 98 also includes the second end 102, and second end exemplarily passes through It is meshed with the side of the bolt assembly 76 towards the second place and is coupled to bolt assembly 76.When bolt assembly 76 and sealing unit At first position, torque spring 98 is relative no-load to part 60.When bolt assembly 76 and potted component are in second position When, torque spring 98 is relative loading.As a result, torque spring 98 is towards first position bias handle 22 and potted component 60.Torque spring 98 can have the elastic constant for helping the operation of diverter assembly 20 enough, as described in further detail below.

Reference picture 3 arrives Fig. 8 and Figure 11 to Figure 13, and potted component 60 is rotatably coupled (exemplarily, respectively by packing ring 92 and packing ring 106) to the first current divider cover portion 56 and the second current divider cover portion 58.Potted component 60 includes axle 108, and axle 108 can Extend along the longitudinal axis 48 and can be rotated around the longitudinal axis 48.Axle 108 is coupled to the spiral shell in the groove 94 of the first current divider cover portion 56 Bolt assembly 76.Axle 108 is additionally coupled to the blade or tablet 110 for laterally extending from axle 108.Exemplarily, tablet 110 are integrally coupled to axle 108.Tablet 110 is arranged within the second current divider cover portion 58.Tablet 110 couples (exemplary Ground, by fastener (such as bolt 114) and disc 116) to packing ring 112.Packing ring 112 exemplarily has substantially three-dimensional planar Elliptical shape, although it is anticipated that be that packing ring 112 can have other shapes.Packing ring 112 is configured to and the phase of the longitudinal axis 48 point From.In first position and second position, packing ring 112 is disposed in the plane substantially perpendicular to the longitudinal axis 48.Additionally, At one position, packing ring 112 is configured to be separated with current divider outlet 62 allow water to flow through bathtub nozzle component 10 and lead to Cross the outflow bathtub nozzle of jet expansion 24 component 10.In second position, the masking current divider of packing ring 112 exports 62 to prevent current Cross the jet expansion 24 of bathtub nozzle component 10.

The surface area of the tablet 110 relative with packing ring 112 may be configured to so that the hydraulic pressure in diverter assembly 20 So that potted component 60 and handle 22 maintain second position.That is, in second position, the tablet relative with packing ring 112 Hydraulic pressure in 110 surface area and diverter assembly 20 can be provided more than the torque for applying in the opposite direction (such as by turning round Power spring 98 provide torque) torque.Exemplarily, the surface area of tablet 110 relative with packing ring 112 is about 0.35 Square inch (in²) (i.e. in 0.35in²10% within), hydraulic pressure and 0.3 inch of arm of force of (in) for 125 pounds (psi). Similarly, the given surface area of the tablet 110 relative for packing ring 112, if pressure is more than pressure threshold, shunts Potted component 60 and handle 22 are maintained second position by the hydraulic pressure in device assembly 20；If pressure is less than pressure threshold, Potted component 60 and handle 22 are rotated to first position by torque spring 98.This will be hereafter further described in detail.

Reference picture 3 arrives Fig. 8, Figure 14 and Figure 15, and the second current divider cover portion 58 is coupled (exemplarily, respectively by packing ring 118 With packing ring 120) to the first current divider cover portion 56 and nozzle casing 36.On the end wall 122 relative with packing ring 118 and packing ring 120, the Two current divider cover portions 58 include the boss 124 being contained in the hole 51 in the inwall 49 for extending laterally of nozzle casing 36.Boss 124 And hole 51 is therefore, it is possible to prevent the rotation between the second current divider cover portion 58 and nozzle casing 36.Internally, the second current divider cover portion 58 include the entrance 126 for receiving water from the first current divider cover portion 56.Entrance 126 is coupled to passage 128, and passage 128 Blind hole 130 is coupled to, the blind hole 130 rotatably accommodates the packing ring 112 of axle 108 and potted component 60.Passage 128 is additionally coupled to Current divider outlet 62.Exemplarily, current divider outlet 62 has generally elliptical shape.Alternatively, it is assumed that outlet 62 is less than packing ring 112, current divider outlet 62 can have different shapes.Current divider outlet 62 is defined by wall 132, in second position, packing ring 112 are close to the wall 132 around current divider outlet 62, to prevent water from flowing through the jet expansion 24 of bathtub nozzle component 10.Exemplarily, Wall 132 and current divider outlet 62 are disposed in the plane of (i.e. deviation is within 5 degree) substantially vertical with the longitudinal axis 48.

Reference picture 16, when diverter assembly 20 is in first position, the operational torque M1 on the longitudinal axis 48 is applied in one's hands Handle 22 rotates to the second place with handle 22 and potted component 60.M1 must be over resistance handle 22 and the direction of potted component 60 The sum of the torque of second place rotation, i.e. M1 is as shown in Equation 1.

M1>M2+M3+M4+M5+M6 (formula 1)

Wherein：

M2 is the torque on the longitudinal axis 48 that torque spring 98 is provided；

M3 is the torque on the longitudinal axis 48 produced by the hydraulic pressure on potted component 60；

M4 is the torque on the longitudinal axis 48 produced by the friction caused by the rotation of packing ring 92 and packing ring 106；

M5 is the torque on the longitudinal axis 48 produced by the friction caused by the rotation of handle 22；With

M6 is the torque on the longitudinal axis 48 produced by the weight of handle projection 66, lid 68 and tablet 110.

M3 is as shown in Equation 2.

M3=pA_se·d_se(formula 2)

Wherein：

P is hydraulic pressure；

A_seThe total surface area of the potted component 60 that hydraulic pressure is applied to；And

d_seIt is for power pA_seThe arm of force.

Exemplarily, in first position, M2 is 3.7 inchpounds (in.lbs), and M3 is that zero, M4 is 0.1 inchpound (in.lbs), M5 is 0.41 inchpound (in.lbs), and M6 is zero.As a result, M1 must be over 4.31 inchpounds (in.lbs) The second place is rotated to from first position with handle 22 and potted component 60.If operating physical force F1 is with a distance of the distance of the longitudinal axis 48 D1 and be applied on lid 68, F1 is then as shown in Equation 3.

F1=M1/d1 (formula 3)

Exemplarily, if d1 is 1.53 inches (in), F1 is then 2.82 pounds (lbs).

As being briefly described above, when diverter assembly 20 is in second position, by (formula 1) when water flows through During shower head, apply the operational torque M1 ' on the longitudinal axis 48 to handle 22, or hydraulic pressure is fallen below pressure by (formula 2) Threshold value, diverter assembly 20 can be moved to first position.Operational torque M1 ', is being applied to handle 22 by reference picture 17 In the case of, M1 ' is as shown in Equation 4.

M1′>(- M2)+M3+M4+M5+M6 (formula 4)

Exemplarily, in second position, M2 is 3.7 inchpounds (in.lbs), and M3 is 13.13 inchpounds (in.lbs) (p It is 125 pounds/square inch (psi), A_seIt is 0.35 square inch of (in²), d_seIt is 0.3 inch (in)), M4 is 0.1 inchpound (in.lbs), M5 is 0.41 inchpound (in.lbs), and M6 is 0.1 inchpound (in.lbs).As a result, M1 ' must be over 10.04 inchpounds (in.lbs) rotate to first position with handle 22 and potted component 60 from the second place, and simultaneously water Conveyed shower head.If operating physical force F1 ' is applied into lid 68 apart from d1 with a distance of the longitudinal axis 48, F1 ' is as shown in Equation 5.

F1 '=M1 '/d1 (formula 5)

Exemplarily, if d1 is 1.53 inches (in), F1 ' is 6.56 pounds (lbs).

Reference picture 18, formula 6 and formula 7 shown, hydraulic pressure is being fallen below pressure threshold p_tIn the case of, sealing unit By p on part 60_tThe produced torque M3 ' on the longitudinal axis 48.

M3 '=p_tA_se·d_se(formula 6)

M3 '=M2-M4-M5-M6 (formula 7)

As a result, p_tAs shown in Equation 8.

p_t=(M2-M4-M5-M6)/A_se·d_se(formula 8)

Exemplarily, for value presented above, p_tIt is 29.4 pounds/square inch (psi).I.e. hydraulic pressure is necessarily less than 29.4 pounds/square inch rotate to first position to allow the handle 22 of torque spring 98 and potted component 60 from the second place.

Reference picture 19 arrives the accompanying drawing of Figure 27, and another exemplary bathtub nozzle component 200 of the application is configured to pass through Bathtub nozzle pipe 15 and T connector 16 and be coupled to water transfer tube 12 (or riser 12) and shower-head tubes (or riser 14). Bathtub nozzle component 200 may include multiple with the same or analogous component of bathtub nozzle component 10 mentioned above.For purpose of brevity, Come pair to be illustrated with the same or analogous component of bathtub nozzle component 10 mentioned above without reference to Figure 19 to Figure 27.But It is that bathtub nozzle component 200 includes the diverter assembly 202 different from diverter assembly 20 mentioned above.Especially, current divider Component 202 includes being different from the second current divider cover portion 204 and potted component 206 mentioned above.

In general, the first current divider cover portion 56 and the second current divider cover portion 204 rotatably and internally carry sealing Element 206.Potted component 206 is coupled to handle 22 so that from first position (for example, " bathtub " or " bath together with handle 22 Cylinder " position；Referring to Figure 19 and Figure 22) second place is rotated to (for example, " shower " position；Referring to Figure 20 and Figure 23), otherwise also So.In first position, potted component 206 is configured to export 208 phases with the current divider defined by the second current divider cover portion 204 Separate to allow water to flow through bathtub nozzle component 200 and flowed out by jet expansion 24.In second position, potted component 206 masking current dividers export 208 to prevent water from flowing through the jet expansion 24 of bathtub nozzle component 200.Exemplarily, current divider goes out Mouth 208 includes two parts 209, and it is diametrically opposed to each other on the longitudinal axis 48.Each part 209 of current divider outlet 208 is equal Exemplarily there is three-dimensional " sector " shape or sector, with about 90 degree of angle bit widths of (i.e. 90 degree ± 15 degree), to the greatest extent Pipe is it is appreciated that the part 209 of current divider outlet 208 can have other shapes.

Potted component 206 includes axle 210, and it extends along the longitudinal axis 48, and can be rotated relative to the longitudinal axis 48.Axle 210 goes back coupling Close one or more blades or tablet 212 (exemplarily, being two tablets 212) for extending from axle 210.Show Plasticity ground, tablet 212 is diametrically opposed to each other on the longitudinal axis 48.Can be with view of pressure threshold applies pressure to it considering water On tablet 212 surface area (see below).Each tablet 212 is coupled to packing ring 214.Each packing ring 214 is demonstrated Property ground there is three-dimensional " sector " shape or sector, with about 90 degree of angle bit widths of (i.e. 90 degree ± 15 degree), although can It is that packing ring 214 can have other shapes with what is understood.In first position and second position, packing ring 214 is arranged on substantially In the plane parallel with the longitudinal axis 48.Additionally, in first position, each packing ring 214 is configured to right with current divider outlet 208 Partly (it exemplarily includes the three-dimensional fan shape and the angle bit width that are similar to) should be separated to allow water to flow through bathtub nozzle 200 and by jet expansion 24 flow out bathtub nozzle 200.In second position, the masking current divider outlet of each packing ring 214 208 corresponding part flows through the jet expansion 24 of bathtub nozzle 200 to prevent water.

With the similar mode of diverter assembly 20 mentioned above, torque spring 98 is configured to close under certain situation Envelope element 206 and handle 22 rotate to first position.For this purpose, along the longitudinal axis 48 relative to the He of the first current divider cover portion 56 Second current divider cover portion 204 moves potted component 206.When (the tablet 212 of applying power F to potted component 206 of component 200；Ginseng See Figure 21) in pressure higher than threshold value, and as shown in Figure 21 to Figure 23, potted component 206 is close to and is exported for defining current divider The end wall 216 of 208 the second current divider cover portion 204.When pressure be higher than threshold value when, and when handle 22 and thus potted component 206 when rotating to the second place (for example, due to user manually operated), and the current divider cover portion 204 of potted component 206 and second is nibbled One or more anti-rotation elements are closed, to prevent potted component 206 from being rotated since first position (for example, by torque spring 98 The torque for being applied).Exemplarily, anti-rotation element includes the protuberance 218 being formed on tablet 212 and is formed in end wall The groove 220 for accommodating protuberance 218 on 216 inner surface (referring to Figure 26 and Figure 27).Anti-rotation element can be taken Other forms.For example, groove can be formed on tablet and protuberance can be formed in the end wall of the second current divider cover portion 204 On 216 inner surface.In either event, when pressure is less than threshold value, the compression spring 222 carried by axle 210 promotees Potted component 206 is set to move away the end wall 216 of the second current divider cover portion 204, and anti-rotation element unclamps.When anti-rotational unit When part unclamps, potted component 206 and handle 22 are rotated to first position by the torque that torque spring 98 is applied.

Various modifications and increase can be carried out to above-described embodiment on the premise of without departing from scope of the present application.For example, Although above-described embodiment refers to specific feature, the present invention can also be embodied as the combination of different features, although the application's Embodiment does not include all of implementation method of features described above.

Claims (21)

1. a kind of bathtub nozzle component, for conveying water and moisture being fitted on shower head, the bathtub nozzle component includes：

Bathtub nozzle, including：

Nozzle entrance, it is configured to receive water；

Jet expansion, it is defeated from the bathtub nozzle component that it is configured to a water；And

The diverter assembly carried by the bathtub nozzle, the diverter assembly includes：

Splitter inlet, it is configured to receive water from the nozzle entrance；

Current divider is exported, and it is configured to deliver water to the jet expansion；

Handle, it is revolvably carried by the bathtub nozzle, and the handle capable of being is relative to the bathtub nozzle from first position Rotate to the second place or rotate to first position from the second place；

Potted component, it is coupled to the handle, with together with the handle relative to the bathtub nozzle from described first Put and rotate to the second place or rotate to the first position from the second place, in the first position, institute Potted component is stated to be arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle component and pass through The jet expansion flows out the bathtub nozzle component, and in the second position, described point of the potted component masking Stream device exports to prevent water from flowing through the jet expansion of the bathtub nozzle component；And

Torque spring, it is coupled to the handle and the potted component, and the torque spring is the handle and the sealing Element is biased towards the first position.

2. bathtub nozzle component as claimed in claim 1, wherein, the torque spring has elastic constant, the sealing unit Part has surface area, and when the potted component is in the second position, water applies pressure to the surface area, and the elasticity is often Number and the surface area are configured such that：When the pressure is more than pressure threshold, the pressure ties up the potted component Hold in the second position；And when the pressure be less than the pressure threshold when, the torque spring the handle with The potted component rotates to the first position.

3. bathtub nozzle component as claimed in claim 1, wherein, the diverter assembly further includes to be sprayed by the bathtub The current divider cover that mouth is carried, the current divider cover includes the splitter inlet, current divider outlet and revolvably carries The potted component, wherein the torque spring includes：

It is coupled to the first end of the current divider cover；And

It is coupled to the second end of the handle.

4. bathtub nozzle component as claimed in claim 1, wherein, the bathtub nozzle further includes the longitudinal axis, the handle The second place can be rotated to the potted component from the first position relative to the bathtub nozzle around the longitudinal axis Or rotate to the first position from the second place.

5. bathtub nozzle component as claimed in claim 4, wherein, the handle and the potted component are around the longitudinal axis from institute First position is stated substantially to be rotated by 90 ° to the second place or substantially rotated to the first position from the second place 90 degree.

6. bathtub nozzle component as claimed in claim 4, wherein, the current divider outlet is disposed in substantially perpendicular to institute In stating the plane of the longitudinal axis.

7. bathtub nozzle component as claimed in claim 4, wherein, the potted component includes：

Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；And

Tablet, it is coupled to the axle；

Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, in the first position, the pad Circle is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle component and by the nozzle The outlet outflow bathtub nozzle component, in the second position, the packing ring covers the current divider outlet to prevent water Flow through the jet expansion of the bathtub nozzle component.

8. bathtub nozzle component as claimed in claim 1, wherein, the diverter assembly further includes to be sprayed by the bathtub The current divider cover that mouth is carried, the current divider cover revolvably carries the potted component, and the current divider cover includes defining The wall of the current divider outlet, wherein in the second position, the potted component is close to around current divider outlet The wall flows through the jet expansion of the bathtub nozzle component to prevent water.

9. bathtub nozzle component as claimed in claim 1, wherein, the bathtub nozzle further includes nozzle casing, and it is defined The groove that partly circumference extends, the groove extends through the nozzle, and the handle has and extends through the groove and couple To the action bars of the potted component.

10. bathtub nozzle component as claimed in claim 9, wherein, the groove of the handle masking partly circumference extension.

A kind of 11. bathtub nozzle components, for conveying water and moisture being flowed to shower head, the bathtub nozzle component includes：

Bathtub nozzle for defining the longitudinal axis, the bathtub nozzle includes：

Nozzle entrance, it is configured to receive water；

Jet expansion, it is configured to convey the water from the bathtub nozzle component；And

The diverter assembly carried by the bathtub nozzle, the diverter assembly includes：

Splitter inlet, it is configured to receive water from the nozzle entrance；

Current divider is exported, and it is configured to deliver water to the jet expansion, and the current divider outlet is disposed in substantially In the plane of the longitudinal axis；

Handle, it is revolvably carried by the bathtub nozzle, and the handle capable of being is relative to the bathtub nozzle around the longitudinal axis The second place is rotated to from first position or rotate to first position from the second place；And

Potted component, it is coupled to the handle, with together with the handle relative to the bathtub nozzle around the longitudinal axis from The first position rotates to the second place or rotates to the first position from the second place, described first The potted component is arranged to and is separated to allow water to flow through the bathtub nozzle component with current divider outlet at position And the bathtub nozzle component is flowed out by the jet expansion, and in the second position, the potted component hides Current divider outlet is stated to prevent water from flowing through the jet expansion of the bathtub nozzle component in covert.

12. bathtub nozzle components as claimed in claim 11, wherein, the handle and the potted component around the longitudinal axis from The first position is substantially rotated by 90 ° to the second place or is substantially revolved to the first position from the second place It turn 90 degrees.

13. bathtub nozzle components as claimed in claim 11, wherein, the potted component includes：

Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；And

Tablet, it is coupled to the axle；

Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, in the first position, the pad Circle is arranged to current divider outlet phase separation to allow water to flow through the bathtub nozzle component and by the nozzle The outlet outflow bathtub nozzle component, and in the second position, the packing ring covers the current divider outlet to hinder Sealing flows through the jet expansion of the bathtub nozzle component.

14. bathtub nozzle components as claimed in claim 13, wherein, the diverter assembly further includes torque spring, The torque spring is coupled to the handle and the potted component, and the torque spring is the handle and sealing unit Part is biased towards the first position, and the torque spring has elastic constant, and the potted component has surface area, when described Potted component applies pressure in the second position, water to the surface area, and the elastic constant and the surface area are matched somebody with somebody Put to cause：When the pressure is more than pressure threshold, the potted component is maintained the second position by the pressure； And when the pressure is less than the pressure threshold, the handle and the potted component are rotated to institute by the torque spring State first position.

15. bathtub nozzle components as claimed in claim 14, wherein, the handle and the potted component around the longitudinal axis from The first position is substantially rotated by 90 ° to the second place or is substantially revolved to the first position from the second place It turn 90 degrees.

16. bathtub nozzle components as claimed in claim 11, wherein, the diverter assembly is further included by the bathtub The current divider cover that nozzle is carried, the current divider cover revolvably carries the potted component, and the current divider cover includes defining The wall of the current divider outlet, wherein in the second position, the potted component is close to the institute around current divider outlet Wall is stated to prevent water from flowing through the jet expansion of the bathtub nozzle component.

A kind of 17. bathtub nozzle components, including：

Bathtub nozzle, including：

Nozzle entrance, it is configured to receive water；

Jet expansion, it is configured to convey the water from the bathtub nozzle component；And

The diverter assembly supported by the bathtub nozzle, the diverter assembly includes：

Splitter inlet, it is configured to receive water from the nozzle entrance；

Current divider is exported, and it is configured to water to be transferred to the jet expansion；

Handle, it is revolvably supported by the bathtub nozzle, and the handle capable of being is relative between the first position and the second position In bathtub nozzle rotation；

Potted component, it is coupled to the handle with the handle together between the first position and the second place Relative to bathtub nozzle rotation, in the first position, the potted component is arranged to and current divider outlet It is separated to allow water to flow through the jet expansion of the bathtub nozzle component, and in the second position, it is described close Current divider described in envelope element covers exports to prevent water from flowing through the jet expansion of the bathtub nozzle component；And

Torque spring, it is coupled to the handle and the potted component, and the torque spring is the handle and the sealing Element is biased towards the first position.

18. bathtub nozzle components as claimed in claim 17, wherein, the bathtub nozzle further includes the longitudinal axis, the hand Handle and the potted component can rotate to the second relative to the bathtub nozzle around the longitudinal axis from the first position Put or rotate to the first position from the second place.

19. bathtub nozzle components as claimed in claim 18, wherein, the current divider outlet is disposed in and is substantially perpendicular to In the plane of the longitudinal axis.

20. bathtub nozzle components as claimed in claim 19, wherein, the potted component includes：

Axle, it is coupled to the handle, and the axle extends along the longitudinal axis；And

Tablet, it is coupled to the axle；

Packing ring, it is coupled to the tablet and is arranged to and is separated with the longitudinal axis, in the first position, the packing ring It is arranged to and is separated to allow water to flow through the bathtub nozzle component and go out by the nozzle with current divider outlet The mouth outflow bathtub nozzle component, and in the second position, the packing ring covers the current divider outlet to prevent Water flows through the jet expansion of the bathtub nozzle component.

21. bathtub nozzle components as claimed in claim 17, wherein, the bathtub nozzle further includes nozzle casing, its boundary The groove that fixed partly circumference extends, the groove extends through the nozzle, and the handle has and extends through the groove and coupling Close the action bars of the potted component.