CN203571113U - Outlet water switching structure - Google Patents

Abstract

The utility model discloses an outlet water switching structure. The outlet water switching structure comprises a shell and an outlet water switching component, wherein a water inlet channel is arranged at one end of the shell, a partition board is arranged in the shell, a water storage cavity is formed between a lower cover of the shell and the partition board, the water inlet channel is communicated with the water storage cavity, at least two water outlets are formed in the partition board, correspondingly, at least two water outlet channels which are communicated with the corresponding water outlets respectively are formed between an upper cover of the shell and the partition board, and the outlet water switching component comprises at least two button assemblies which are in sliding connection with the corresponding water outlets respectively and a limiting sliding sleeve which is arranged in the shell in a sliding mode and is connected with or separated from the corresponding button assembly. The outlet water switching structure is simple in structure, convenient to use and fast and convenient to install, different water outlet effects can be provided, and requirements of different groups of people for water outlet effects are met.

Description

A kind of outlet switching structure

Technical field

The utility model relates to water outlet handoff technique field in bathroom hot-water heating industry, relates in particular to a kind of outlet switching structure.

Background technique

In bathroom hot-water heating industry, existing water outlet switching function structure all adopts rotation to switch water channel or lever principle, and market penetration rate is very high, lack novelty, and its part is more, and all very inconvenience is installed and used to complicated structure.Due to its complex structure, its cost of production is high, and assembly program is complicated, and control knob part operation trouble, can not meet the convenient requirement of present people.Existing its outlet effect of water outlet switching function structure is single, can not meet the different crowd demand different to outlet effect requirement.

Model utility content

Goal of the invention of the present utility model is to overcome defect of the prior art, provide a kind of simple in structure, easy to operate, the outlet switching structure convenient, different outlet effects can be provided is installed.

Technical solutions of the utility model provide a kind of outlet switching structure, comprise housing and water outlet switching member, one end of described housing is provided with intake tunnel, in described housing, be provided with dividing plate, between the lower cover of described housing and dividing plate, be formed with storage chamber, described intake tunnel is connected with described storage chamber, on described dividing plate, be provided with at least two osculums, correspondingly, between the upper cover of described housing and described dividing plate, be formed with at least two exhalant canals that are connected with corresponding described osculum respectively, described water outlet switching member comprises that at least two button assemblies that are slidably connected with corresponding described osculum respectively and one are slidably arranged in described housing, and the spacing sliding sleeve that joins or be separated with corresponding described button assembly.

Further, described spacing sliding sleeve comprises the sliding sleeve main body portion being slidably arranged in described storage chamber, and on described sliding sleeve main body portion, horizontal-extending has at least two to be respectively used to the sliding sleeve backstop end that corresponding described button assembly coordinates.

Further, on described spacing sliding sleeve away from being provided with between one end of described intake tunnel and the rear end of described storage chamber for driving the sliding sleeve rebound spring of described spacing sliding sleeve resilience.

Further, described button assembly comprises button, button connecting rod and for controlling the button slide block of corresponding described osculum folding, described button slide block is positioned at described storage chamber, and join or be separated with corresponding described sliding sleeve backstop end, the bottom of described button slide block is connected under described and is covered by elastic device, the lower end of described button connecting rod is connected on described button slide block, the upper end of described button connecting rod is passed corresponding described osculum in turn, and links together with described button.

Further, described elastic device is Compress Spring, under described, cover and be provided with attachment post, the bottom of described button slide block is provided with the button slide block blind hole for matching with described attachment post, the bottom of described Compress Spring is connected on described attachment post, its top is connected in the described button slide block blind hole on the bottom of described button slide block, in described sliding sleeve main body portion, be provided with along its length main body portion hollow portion, described Compress Spring passes described main body portion hollow portion, and links together with described button slide block and described attachment post.

Further, on described button slide block, be provided with the seal ring for the corresponding described osculum of shutoff, be provided with button slide block annular groove on described button slide block, described seal ring is arranged in described button slide block annular groove.

Further, on the inwall of described housing, be positioned at the inwall guiding groove that corresponding described osculum place is provided with capwise, on described button slide block, be correspondingly provided with protruding button SLIDE GUIDE, described button SLIDE GUIDE can be engaged in described inwall guiding groove slidably along described inwall guiding groove.

Further, the side matching with described sliding sleeve backstop end on described button slide block is provided with button slide block sphenoid surface, described button slide block sphenoid surface tilts and upwards arranges in the direction from described button slide block to described spacing sliding sleeve, correspondingly, the side matching with described button slide block in described sliding sleeve backstop end is provided with the backstop end sphenoid surface for matching with described button slide block sphenoid surface, and described backstop end sphenoid surface tilts and arranges downwards in the direction from described spacing sliding sleeve described button slide block extremely.

Further, between any two two adjacent described exhalant canals, be provided with water channel dividing plate, described water channel dividing plate is between described dividing plate and described upper cover.

Adopt technique scheme, there is following beneficial effect:

This outlet switching structure by arranging a dividing plate in housing, between this dividing plate and lower cover, form storage chamber, the front end of housing is communicated with intake tunnel, intake tunnel is communicated with storage chamber, and at least two osculums are set on dividing plate, between dividing plate and upper cover, be formed with at least two exhalant canals, the outlet effect of each exhalant canal is different.And on each osculum, dispose a button assembly, above-mentioned button assembly is slidably connected with corresponding osculum, and this button assembly can be blocked osculum, to stop this osculum water outlet, or above-mentioned button assembly is separated with osculum, to control osculum water outlet.In storage chamber, dispose spacing sliding sleeve, above-mentioned spacing sliding sleeve is for the button assembly separated with osculum that slide joined, and the resilience of limit button assembly, makes this osculum keep water outlet; Or separated with button assembly, to remove the restriction to jammed button assembly, make its resilience block osculum.User can select different osculum water outlets as required thus, or selects a plurality of osculum water outlets, to form different outlet effects, meets the needs of different crowd.

This outlet switching structure, it is simple in structure, easy to use, and it is convenient to install, and different outlet effects can be provided, and has met the needs of different crowd to different outlet effects.

Accompanying drawing explanation

The schematic perspective view of the outlet switching structure that Fig. 1 provides for the utility model;

Fig. 2 is the exploded perspective view of the outlet switching structure shown in Fig. 1;

Fig. 3 is that the housing shown in Fig. 2 removes the schematic diagram that its upper cover is seen from top to bottom;

Fig. 4 is that the housing shown in Fig. 2 removes the schematic diagram that its lower cover is seen from the bottom up;

Fig. 5 is the structural representation that button slide block in the button assembly shown in Fig. 2 and button connecting rod are combined together;

Fig. 6 is the structural representation of the spacing sliding sleeve shown in Fig. 2;

Fig. 7 is the schematic diagram that in the outlet switching structure shown in Fig. 1, button slide block all slides and to be connected together with osculum;

Fig. 8 is that in the outlet switching structure shown in Fig. 7, a button slide block is separated with osculum slip, and is blocked by sliding sleeve backstop end, limits the schematic diagram of its resilience.

The reference character table of comparisons:

Embodiment

Below in conjunction with accompanying drawing, further illustrate embodiment of the present utility model.

A kind of outlet switching structure that the utility model provides, is mainly used in bathroom hot-water heating equipment, for water outlet, switches, and to realize different outlet effects, meets the needs of different crowd.

As Figure 1-4, the utility model provides a kind of outlet switching structure 100, comprise housing 1 and water outlet switching member, one end of housing 1 is provided with intake tunnel 15, in housing 1, be provided with dividing plate 16, between the lower cover 12 of housing 1 and dividing plate 16, be formed with storage chamber 17, intake tunnel 15 is connected with storage chamber 17, on dividing plate 16, be provided with at least two osculums 161, correspondingly, between the upper cover 11 of housing 1 and dividing plate 16, be formed with at least two exhalant canals 162 that are connected with corresponding osculum 161 respectively.

Above-mentioned water outlet switching member comprises that at least two button assemblies 2 that are slidably connected with corresponding osculum 161 respectively and one are slidably arranged in housing 1, and the spacing sliding sleeve 3 that joins or be separated with corresponding button assembly 2.

On the dividing plate 16 of this outlet switching structure 100, be provided with at least two osculums 161, its water outlet switching member comprises at least two button assemblies 2, only describes structure and the working principle with two osculums 161 and two button assemblies 2 below.The structure with a plurality of osculums 161 and button assembly 2 is identical with working principle with the structure only with two osculums 161 and two button assemblies 2 with working principle.

This outlet switching structure 100 comprises housing 1 and water outlet switching member, and switching member is for realizing the switching of outlet effect.In above-mentioned housing 1, be provided with dividing plate 16, on dividing plate 16, be provided with at least two osculums 161.Between the lower cover 12 of aforementioned barriers 16 and housing 1, be formed with airtight storage chamber 17, between dividing plate 16 and the upper cover 11 of housing 1, be formed with at least two exhalant canals 162, and every outlet effect difference that exhalant canal 163 has.

At the front end of housing 1, on the front screen 13 of housing 1, be connected with intake tunnel 15, intake tunnel 15 is connected with storage chamber 17, for supplying water to storage chamber 17.Osculum 161 is arranged on dividing plate 16, and it is communicated with storage chamber 17 respectively, and is positioned at the top of storage chamber 17.Osculum 161 is communicated with exhalant canal 162, for exporting the water flowing out from osculum 161 to outside water outlet device.

Thus, when osculum is opened, from intake tunnel 15, enter the water in storage chamber 17, selectively in different osculum 161 flow to different exhalant canal 162, then export outside water outlet device to through water outlet logical 162, such as the first-class parts of gondola water faucet.

By controlling different above-mentioned osculum 161 water outlets, such as open osculum 161 water outlets of the rightmost side in Fig. 8 simultaneously, or middle part osculum 161 water outlets shown in unlatching Fig. 8, or open osculum 161 water outlets of the leftmost side in Fig. 8, can distinguish real different outlet effects.

Above-mentioned water outlet switching member comprises at least two button assemblies 2 and a spacing sliding sleeve 3, two button assemblies 2 are slidably connected with osculum 161 respectively, it can slide up and down in the vertical direction, with respectively with osculum 161 slide join or slide separated, to control osculum 161 water outlets.Be specially, button assembly 2 upward slidings are slidably connected mutually with osculum 161, and button assembly 2 slides into osculum 161 places, to block osculum 161, make its no longer water outlet; Or allow button assembly 2 down slidings leave osculum 161 places, to open osculum 161, make its water outlet.

Spacing sliding sleeve 3 is slidably arranged in housing 1, and its cooperation that can horizontally slip in housing 1, to control corresponding button assembly 2 resiliences.Particularly, above-mentioned spacing sliding sleeve 3 can be positioned at storage chamber 17 or be positioned at exhalant canal 162, and in storage chamber 17 or be positioned at exhalant canal 162 and horizontally slip, to coordinate with button assembly 2, thereby control knob assembly 2 recoils to corresponding osculum 161.The cooperation corresponding to button assembly 2 of above-mentioned spacing sliding sleeve 3 refers to: spacing sliding sleeve 3 slides and joins or slide separated with button assembly 2.The glide direction of spacing sliding sleeve 3 is identical with the direction at two osculum 161 line places.

Spacing sliding sleeve 3 joins and refers to when button assembly 2 leaves corresponding osculum 161 with button assembly 2, above-mentioned spacing sliding sleeve 3 slides and joins with corresponding button assembly 2, be combined together, spacing sliding sleeve 3 blocks button assembly 2, limit this button assembly 2 and recoil to corresponding osculum 161 places, to open osculum 161, make its water outlet.Spacing sliding sleeve 3 is separated and refers to when another button assembly 2 glides and joins with spacing sliding sleeve 3 slips with button assembly 2, removed the resilience restriction to above-mentioned first button assembly 2, itself and spacing sliding sleeve 2 slide and separate, and recoil to corresponding osculum 161 places, block osculum 161, make it stop water outlet.

This outlet switching structure 100 is simple in structure, easy to use, and it can control 2 resiliences of different button assemblies by above-mentioned spacing sliding sleeve 3.By the resilience of control knob assembly 2, can control and open or close corresponding osculum 161, to realize different outlet effects, for example air-bubble, light flowing water etc., to meet the needs of different crowd to different outlet effects.Each osculum is different with the outlet effect in exhalant canal correspondingly, can, by opening different osculums, realize above-mentioned different outlet effect.

Spacing sliding sleeve 3:

Preferably, as shown in Fig. 6-8, spacing sliding sleeve 3 comprises the sliding sleeve main body portion 31 being slidably arranged in storage chamber 17, and on sliding sleeve main body portion 31, horizontal-extending has at least two to be respectively used to the sliding sleeve backstop end 32 coordinating with corresponding button assembly 2.

That is, spacing sliding sleeve 3 comprises sliding sleeve main body portion 31 and at least two sliding sleeve backstop ends 32, and sliding sleeve backstop end 32 forms at the upper end of sliding sleeve main body portion 31 horizontal-extending.

Sliding sleeve main body portion 31 is configured in storage chamber 17 slidably, and it can move forward and backward along the direction at storage chamber 17 places.Above-mentioned " front " refers to that above-mentioned " afterwards " refers to the direction away from the intake tunnel 15 shown in Fig. 7-8 near the direction of the intake tunnel 15 shown in Fig. 7-8.Above-mentioned at least two sliding sleeve backstop ends 32 are respectively used to and above-mentioned corresponding cooperation of at least two button assemblies 2, join or are separated.Being specially, slides and joins with button assembly 2 in sliding sleeve backstop end 32, and block button assembly 2 temporarily sliding sleeve backstop end 32, limits its resilience, to open osculum 161; Sliding sleeve backstop end 32 is separated with button assembly 2 slips, and the resilience restriction to button assembly 2 is removed in sliding sleeve backstop end 32, and button assembly recoils to osculum 161, to close osculum 161.

Preferably, as shown in Fig. 2 and Fig. 6-8, on above-mentioned spacing sliding sleeve 3 away from being provided with for driving the sliding sleeve rebound spring 34 of spacing sliding sleeve 3 resiliences between one end of intake tunnel 15 and the rear end of storage chamber 17.

On the rear end indication storage chamber 17 of above-mentioned storage chamber 17 away from one end of intake tunnel 15.The rear end of storage chamber 17 is provided with storage chamber backboard 18, and one end of above-mentioned sliding sleeve rebound spring 34 is connected in the sliding sleeve blind hole 33 of rear end of spacing sliding sleeve 3, and the other end is connected to after storage chamber on plate washer 18.

Between the rear end of spacing sliding sleeve 3 and the rear end of storage chamber 17, be connected with sliding sleeve rebound spring 34, this sliding sleeve rebound spring 34 is for driving spacing sliding sleeve 3 resiliences, and the resilience that this place refers to refers to that spacing sliding sleeve 3 recoils to the place ahead specified location of storage chamber 17 from the rear of storage chamber 17.

Owing between spacing sliding sleeve 3 rear ends and storage chamber 17 rear ends, sliding sleeve rebound spring 34 being installed, and this spacing sliding sleeve 3 can slide in the interior front and back of storage chamber 17, so while sliding to 32 place, sliding sleeve backstop end under the bottom of button assembly 2, give sliding sleeve backstop end 32 with the thrust to storage chamber 17 rears, under the effect of above-mentioned thrust, spacing sliding sleeve 3 drives sliding sleeve backstop end 32 one to slide towards the direction away from intake tunnel 15, and compress above-mentioned sliding sleeve rebound spring 34, make sliding sleeve rebound spring 34 in compressive state; When button assembly slides to for 2 times behind the below of sliding sleeve backstop end 32, sliding sleeve backstop end 32 direction towards intake tunnel 15 under the effect of sliding sleeve rebound spring 34 is slided, and slide and join with button assembly 2, button assembly 2 is blocked, limit its resilience, to keep osculum 161 in opening state.

As shown in Fig. 6-8, between each sliding sleeve backstop end 32 and sliding sleeve main body portion 31, be connected vertical support plate 35, sliding sleeve backstop end 32 is horizontally set on the top of vertical support plate 35, the bottom of sliding sleeve main body portion 31 is prolonged its length direction and is provided with main body portion hollow portion 311, and the below of this vertical support plate 35 is provided with the dunnage groove 351 being communicated with main body portion hollow portion 311.The setting of body hollow portion 311 is in order to facilitate button assembly 2 to be connected by spring with bottom 12, and can not hinder the movement of spacing sliding sleeve 3.The below of above-mentioned vertical support plate 351 is provided with dunnage groove 351, this dunnage groove 351 is communicated with main body portion hollow portion 311, become an integral hollow portion, and the degree of depth of this dunnage groove 351 is greater than the length that attachment post 121 stretches out in main body portion hollow portion 311, to guarantee that the top of attachment post 121 is positioned at hollow region, can not hinder the slip of the spacing sliding sleeve 3 of shelves, alleviate the weight of structure simultaneously.

Button assembly 2:

Preferably, as shown in Fig. 1-2 and Fig. 5, above-mentioned button assembly 2 comprises button 21, button connecting rod 22 and for controlling the button slide block 23 of corresponding osculum 161 foldings, this button slide block 23 is positioned at storage chamber 17, and join or be separated with corresponding sliding sleeve backstop end 32, the bottom of button slide block 23 is connected on lower cover 12 by elastic device, the lower end of button connecting rod 22 is connected on button slide block 23, the upper end of button connecting rod 23 is passed corresponding osculum 161 in turn, and links together with button 21.

When above-mentioned spacing sliding sleeve 3 is positioned at storage chamber 17, the button slide block 23 in button assembly 2 is positioned at storage chamber 17, for being slidably matched with sliding sleeve backstop end 32.When above-mentioned spacing sliding sleeve 3 is positioned at exhalant canal 162, the button slide block 23 in button assembly 2 is positioned at the top of storage chamber 17 or osculum 161, for being slidably matched with sliding sleeve backstop end 32.

That is, button assembly 2 comprises button 21, button connecting rod 22 and button slide block 23.Wherein, button slide block 23 is positioned at storage chamber 17, and is positioned at the below of osculum 161, its in vertical direction down sliding with or upward sliding separated with osculum 161 with shutoff osculum 161, and then control osculum 161 foldings, open or close.

The bottom of button slide block 23 is connected on lower cover 12 by elastic device, and the lower end of button connecting rod 22 is connected on button slide block 23, and button connecting rod 22 upper ends are passed the mounting hole on osculum 161, upper cover 11 in turn, and link together with button 21.This button slide block 23 is positioned at storage chamber 17, and can join or be separated with corresponding sliding sleeve backstop end 32, when the button slide block 23 gliding is connected together with 32 slips of sliding sleeve backstop end, this button slide block 23, by the 32 restriction resiliences of sliding sleeve backstop end, is controlled osculum 161 and is opened; When button slide block 23 and the sliding sleeve backstop end 32 that slides backward, slide when separated, removed the resilience restriction to above-mentioned button slide block 23, button slide block 23 recoils to osculum 161 places under the effect of elastic device, controls osculum 161 and closes.

Above-mentioned elasticity assembling device can be for realizing the member that button slide block 23 is sprung back to osculum 161 arbitrarily, and it can be Compress Spring, folded spring, spring sheet etc. resilient member.

Preferably, as Fig. 2, shown in Fig. 6-8, above-mentioned elastic device is Compress Spring 25, on lower cover 12, be provided with attachment post 121, the bottom of above-mentioned button slide block 23 is provided with the button slide block blind hole 234 for matching with attachment post 121, the bottom of Compress Spring 25 is connected on attachment post 121, its top is connected in the button slide block blind hole 234 on the bottom of button slide block 23, in above-mentioned sliding sleeve main body portion 31, be provided with along its length main body portion hollow portion 311, Compress Spring 25 is through main body portion hollow portion 311, and link together with button slide block 23 and attachment post 121.

The bottom of above-mentioned button slide block 23 is provided with button slide block blind hole 234, this button slide block blind hole 234 can match with attachment post 121, when button slide block 23 glides, button slide block blind hole 234 can be engaged on attachment post 121, and can glide along this attachment post 121, the upper end of above-mentioned Compress Spring 25 is connected in button slide block blind hole 234, and its bottom is connected on attachment post 121.Compress Spring 27 can recoil to button slide block 23 at osculum 161 places, to close osculum 161.The bottom of sliding sleeve main body portion 31 is prolonged its length direction and is provided with main body portion hollow portion 311, and the setting of body hollow portion 311 is in order to facilitate Compress Spring 25 through being connected with attachment post 121 with button slide block 23, and can not hinder the movement of spacing sliding sleeve 3.Preferably, as shown in Figure 2 and Figure 5, be provided with the seal ring 24 for the corresponding osculum 161 of shutoff on button slide block 2, be provided with button slide block annular groove 233 on button slide block 23, above-mentioned seal ring 24 is arranged in button slide block annular groove 233.

As shown in Figure 5, be provided with button slide block annular groove 233 on button slide block 23, above-mentioned seal ring 24 is arranged in button slide block annular groove 233, while being used for sliding to osculum 161 on button slide block 23, sealing blocking osculum 161, improves the effect of closing osculum 161, makes it stop water outlet.

Preferably, as shown in Fig. 4-5, on the inwall of housing 1, be positioned at the inwall guiding groove 141 that corresponding osculum 161 places are provided with capwise, on button slide block 23, be correspondingly provided with protruding button SLIDE GUIDE 232, this button SLIDE GUIDE 232 can be engaged in inwall guiding groove 141 slidably along above-mentioned inwall guiding groove 141.

Above-mentioned inwall guiding groove 141 is arranged on the inwall of housing 1, and it is positioned on the inwall of lateral retaining plate 14, and is positioned at corresponding osculum 161 places.

On button slide block 23, be provided with button SLIDE GUIDE 232, button SLIDE GUIDE 232 is configured in inwall guiding groove 141, and button SLIDE GUIDE 232 can slide up and down along inwall guiding groove 141, at button slide block 23 when sliding up and down, inwall guiding groove 141 plays leading role, avoids button slide block 23 to skid off track designation.

Certainly can on the lateral retaining plate 14 of every side, be provided with inwall guiding groove 141, correspondingly on button slide block 23, on relative two faces, button SLIDE GUIDE 232 is set respectively, two button SLIDE GUIDEs, 232 difference slide arrangement, in two inwall guiding grooves 141, are further improved to guide effect.

Preferably, as shown in Fig. 2 and Fig. 5-8, the side matching with sliding sleeve backstop end 32 on button slide block 23 is provided with button slide block sphenoid surface 231, this button slide block sphenoid surface 231 tilts and upwards arranges in the direction from button slide block 23 to spacing sliding sleeve 3, correspondingly, the side matching with button slide block 23 in sliding sleeve backstop end 32 is provided with the backstop end sphenoid surface 321 for matching with button slide block sphenoid surface 231, this backstop end sphenoid surface 321 from spacing sliding sleeve 3 to the direction of button slide block 23 tilt and arrange downwards.

As shown in Fig. 5-8, the side matching with backstop end 322 on button slide block joint end 231 is provided with button slide block sphenoid surface 2311, on the direction from button slide block 23 to spacing sliding sleeve 3, button slide block sphenoid surface 2311 is tilted to setting, correspondingly, the side matching with button slide block 23 in backstop end 322 is provided with the backstop end sphenoid surface 3221 for matching with button slide block sphenoid surface 2311, from spacing sliding sleeve 3 to the direction of button slide block 3, backstop end sphenoid surface 3221 is tilted to lower setting.

On above-mentioned button slide block joint end, button slide block sphenoid surface 231 is set on 231, on the direction from button slide block 23 to spacing sliding sleeve 3 (be in Fig. 7 from the front end of storage chamber 17 to the direction of rear end), this button slide block sphenoid surface 231 is tilted to setting.On sliding sleeve backstop end 32, be provided with backstop end sphenoid surface 321, from spacing sliding sleeve 3 to the direction of button slide block 23 (be in Fig. 7 from the rear end of storage chamber 17 to the direction of front end), backstop end sphenoid surface 321 is tilted to lower setting.Above-mentioned front end is interior one end near intake tunnel of storage chamber in Fig. 7, and rear end refers to the one end away from intake tunnel.

Thus, when button slide block 23 coordinates with sliding sleeve backstop end 32, button slide block 23 moves from top to bottom, button slide block sphenoid surface 231 is engaged on backstop end sphenoid surface 321, button slide block sphenoid surface 231 can be decomposed into the thrust above it level towards the horizontal thrust of sliding sleeve backstop end 32 and vertical thrust vertically downward, so that promote spacing sliding sleeve 3, towards storage chamber 17 rears, slide, thereby also slided to storage chamber 17 rears in sliding sleeve backstop end 32, be beneficial to the below that button slide block slides to sliding sleeve backstop end 32 for 23 times.

Housing 1:

As Figure 1-4, this housing 1 comprises upper cover 11, lower cover 12, front screen 13, lateral retaining plate 14, dividing plate 16 and storage chamber backboard 18 etc., between above-mentioned two lateral retaining plates 14, lower cover 12, dividing plate 16, front screen 13 and storage chamber backboard 18, surround airtight storage chamber 17, intake tunnel 15 is communicated with storage chamber 17, and exhalant canal 162 is communicated with storage chamber 17 by osculum 161.Enter thus the water of storage chamber 17, can flow to corresponding exhalant canal 162 by the osculum 161 through opening, then be delivered to outside water outlet device.

As shown in Figure 2 and Figure 4, between any two two adjacent exhalant canals 161, be provided with water channel dividing plate 163, water channel dividing plate 163 is between dividing plate 16 and upper cover 11.By water channel dividing plate 163 is set between two exhalant canals, can be so that every exhalant canal be communicated with an osculum respectively, so that every exhalant canal has different outlet effects, avoid the water with different outlet effects flowing out from different osculums to mix pipelined channel, to guarantee thering is outlet effect separately in every exhalant canal.

As required, above-mentioned each technological scheme can be carried out to combination, to reach best-of-breed technology effect.

The outlet switching structure 100 that the utility model provides comprises at least two button assemblies, and its structure, working principle only comprise that with above-mentioned the structure of two button assemblies, working principle are identical.

The operating process of the outlet switching structure 100 that the utility model provides is as follows:

For the ease of setting forth working principle of the present utility model, suppose that in Fig. 7, rightmost button assembly 2 is first button assembly, middle button assembly 2 is second button assembly; Correspondingly in Fig. 7, rightmost osculum 161 is first osculum, and middle osculum 161 is second osculum; Correspondingly in Fig. 7, rightmost sliding sleeve backstop end 32 is first backstop end, and middle sliding sleeve backstop end 32 is second backstop end.

As shown in Figure 7, above-mentioned outlet switching structure 100 is in closed condition, or is referred to as original state.

As Figure 7-8, while first pressing first button 21 of left side, under the effect of external force, first button 21 moves down, and drive first button connecting rod 22, first button slide block 23 moves down along guiding groove, when first button slide block 23 slides down to first chute backstop end 32, button slide block sphenoid surface 231 on first button slide block 23 coordinates with backstop end sphenoid surface 321, and promote spacing sliding sleeve 3 towards the rear slip of storage chamber 17, when first button slide block 23 surpasses or slides to 32 below, sliding sleeve backstop end, this spacing sliding sleeve 3 recoils to initial position under the effect of sliding sleeve rebound spring 34, slide and join with first button slide block 23 in first sliding sleeve backstop end 32, complete the resilience restriction to first button slide block 23.

When selecting to press middle second button 21, under the effect of external force, second button 21 moves down, and drive second button connecting rod 22, second button slide block 23 moves down along guiding groove, when second button slide block 23 slides down to second sliding sleeve backstop end 32, button slide block sphenoid surface 231 on second button slide block 23 coordinates with backstop end sphenoid surface 321, and promote spacing sliding sleeve 3 towards the rear slip of storage chamber 17, when second button slide block 23 surpasses or slides to 32 below, sliding sleeve backstop end, first sliding sleeve backstop end 32 is slided separated with first button slide block 23, removed the resilience restriction to first button slide block 23, first button slide block 23 recoils to first osculum 161 places, close first osculum 161, meanwhile, this spacing sliding sleeve 3 recoils to initial position under the effect of sliding sleeve rebound spring 34, second sliding sleeve backstop end 322 and second button slide block 23 slide and join, complete the resilience restriction to second button slide block 23, keep second osculum 161 in opening state, completed a circulation.Certainly also can select the button 21 of pressing other to remove the resilience restriction to first button slide block 23, this outlet switching structure 100 can be removed the resilience of other button slide block 23 is limited by pressing one of them button 21, realizes the switching of different outlet effects.

Above-described is only principle of the present utility model and preferred embodiment.It should be pointed out that for the person of ordinary skill of the art, on the basis of the utility model principle, can also make some other modification, also should be considered as protection domain of the present utility model.

Claims (9)

1. an outlet switching structure, is characterized in that, comprises housing and water outlet switching member, and one end of described housing is provided with intake tunnel,

In described housing, be provided with dividing plate, between the lower cover of described housing and dividing plate, be formed with storage chamber, described intake tunnel is connected with described storage chamber,

On described dividing plate, be provided with at least two osculums, correspondingly, between the upper cover of described housing and described dividing plate, be formed with at least two exhalant canals that are connected with corresponding described osculum respectively,

Described water outlet switching member comprises that at least two button assemblies that are slidably connected with corresponding described osculum respectively and one are slidably arranged in described housing, and the spacing sliding sleeve that joins or be separated with corresponding described button assembly.

2. a kind of outlet switching structure according to claim 1, is characterized in that, described spacing sliding sleeve comprises the sliding sleeve main body portion being slidably arranged in described storage chamber,

On described sliding sleeve main body portion, horizontal-extending has at least two to be respectively used to the sliding sleeve backstop end coordinating with corresponding described button assembly.

3. a kind of outlet switching structure of stating according to claim 1, is characterized in that, on described spacing sliding sleeve away from being provided with between one end of described intake tunnel and the rear end of described storage chamber for driving the sliding sleeve rebound spring of described spacing sliding sleeve resilience.

4. a kind of outlet switching structure according to claim 2, is characterized in that, described button assembly comprises button, button connecting rod and for controlling the button slide block of corresponding described osculum folding,

Described button slide block is positioned at described storage chamber, and joins or be separated with corresponding described sliding sleeve backstop end,

The bottom of described button slide block is connected under described and is covered by elastic device,

The lower end of described button connecting rod is connected on described button slide block, and the upper end of described button connecting rod is passed corresponding described osculum in turn, and links together with described button.

5. a kind of outlet switching structure according to claim 4, it is characterized in that, described elastic device is Compress Spring, under described, cover and be provided with attachment post, the bottom of described button slide block is provided with the button slide block blind hole for matching with described attachment post, the bottom of described Compress Spring is connected on described attachment post, and its top is connected in the described button slide block blind hole on the bottom of described button slide block

In described sliding sleeve main body portion, be provided with along its length main body portion hollow portion, described Compress Spring passes described main body portion hollow portion, and links together with described button slide block and described attachment post.

6. a kind of outlet switching structure according to claim 4, it is characterized in that, on described button slide block, be provided with the seal ring for the corresponding described osculum of shutoff, be provided with button slide block annular groove on described button slide block, described seal ring is arranged in described button slide block annular groove.

7. a kind of outlet switching structure according to claim 4, it is characterized in that, on the inwall of described housing, be positioned at the inwall guiding groove that corresponding described osculum place is provided with capwise, on described button slide block, be correspondingly provided with protruding button SLIDE GUIDE, described button SLIDE GUIDE can be engaged in described inwall guiding groove slidably along described inwall guiding groove.

8. a kind of outlet switching structure of stating according to claim 4, is characterized in that, the side matching with described sliding sleeve backstop end on described button slide block is provided with button slide block sphenoid surface,

Described button slide block sphenoid surface tilts and upwards arranges in the direction from described button slide block to described spacing sliding sleeve,

Correspondingly, the side matching with described button slide block in described sliding sleeve backstop end is provided with the backstop end sphenoid surface for matching with described button slide block sphenoid surface,

Described backstop end sphenoid surface tilts and arranges downwards in the direction from described spacing sliding sleeve described button slide block extremely.

9. a kind of outlet switching structure according to claim 1, is characterized in that, between any two two adjacent described exhalant canals, is provided with water channel dividing plate, and described water channel dividing plate is between described dividing plate and described upper cover.

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