CN209340555U - Mixed moisture water one body swimming tap valve core - Google Patents
Mixed moisture water one body swimming tap valve core Download PDFInfo
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- CN209340555U CN209340555U CN201821805270.XU CN201821805270U CN209340555U CN 209340555 U CN209340555 U CN 209340555U CN 201821805270 U CN201821805270 U CN 201821805270U CN 209340555 U CN209340555 U CN 209340555U
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Abstract
The utility model relates to a kind of mixed moisture water one body swimming tap valve cores, it is characterised in that: including valve casing, mixed water operating valve lever, divide water operating valve lever and water mixing valve piece component and shunt valve piece component;Valve casing is equipped with hot intake tunnel, cold intake tunnel and multiple exhalant canals, and mixed water operating valve lever is connect with water mixing valve piece component;Shunt valve piece component and water mixing valve piece component are between the upper and lower every setting, water operating valve lever is divided to connect with shunt valve piece component, so that divide water cavity and multiple exhalant canals in shunt valve piece component is carried out selecting one and is connected to by dividing water operating valve lever to manipulate shunt valve piece component, water cavity is divided to be connected to always with mixed water cavity;Divide water operating valve lever and mixed water operating valve lever mutual sheathing and the two can be rotated around respective axis.It is that a kind of topology layout is rationally compact, can be realized respectively the mixed moisture water one body swimming tap valve core of mixed water (control water inlet water route opening and closing adjusts water temperature) He Fenshui (exhalant canal of distribution water flow) two kinds of functions using two groups of valve block components in same spool housing.
Description
Technical field
Having both mixed water the utility model relates to a kind of faucet valve core more particularly to one kind, (control water inlet water route opening and closing is adjusted
Water temperature) function and Fen Shui (exhalant canal of distribution water flow) function mixed moisture water one body swimming tap valve core.
Background technique
Faucet valve core can be divided into two major classes by function, and one kind is water-mixing valve core, to control the water inlet of cold water, hot water
Water route opening and closing adjusts water temperature, and the water-mixing valve core also having can be with regulating pondage.Another kind of is diverter valve spool, can control water flow
To, distribution water flow exhalant canal.Due to the limitation of two type valve core functions, in sanitary ware industry, often two type valve cores are combined
Using the function to realize a point water, adjust water temperature and flow, so not only need to use a spool, but also two class valves more
Core is simultaneously in tap main body, so that structure is complicated, bulky, waste copper material, difficulty of processing is big for tap main body.As specially
A kind of Chinese utility model patent " shower faucets " of benefit number 201320478247.5 just discloses such a using two kinds of valves
The structure for water tap of core.
Diverter valve spool because of spray system difference, be divided into two water route Fen Shui (shower and tap) and three water route Fen Shui (shower,
Top spray and tap) two kinds.Also there are the faucet valve core for being combined into one two spool functions, such as application number currently on the market
The Chinese invention patent application of ZL201210101026.6 discloses in this way " dividing water, mixed water integral multifunctional ceramic cartridge "
A kind of ceramic cartridge, including shell and the pedestal for being mounted on its bottom, enclosure interior is successively arranged driving lever from top to bottom, clamps admittedly
Case top is stretched out in the ceramic stationary plate that the ceramic movable plate and clamping being scheduled on driver plate are fixed on the base, driving lever upper end, and middle part is set
In in bracket, and fulcrum and bracket by being fixed on bracket, pedestal lower end are connected with driver plate, driving lever end and driver plate
It connects and driver plate is driven to stir direction along bracket slide in driving lever, it is characterised in that: the pedestal is equipped with mutually separated
First and second water inlet and the first and second water outlet, ceramic stationary plate are equipped with corresponding first, second, third and fourth flow channels;
The ceramics movable plate end sealing is recessed inwardly in the middle part of bottom end, forms the mixed flow chamber for being connected to entery and delivery port, bottom end end
It is bonded at the top of face and ceramic stationary plate, forms the diverter surface for changing water-in and water-out flow direction and flow.
Because the faucet valve core inner in aforementioned patent only has one group of valve block component, for make the valve block component realization divide water and
Mixed two kinds of functions of water, there are many runner and corresponding chambers in valve block component, and valve core inside structure is extremely complex, to spool control and
The required precision of assembling is high, while being limited by the area limitation of ceramic valve plate, it is impossible to realize three water route Fen Shui, in addition only one
A operating member (driving lever), very high to work angle requirement, Yi Fasheng maloperation (if adjusted water temperature originally, accidentally turns
Move the position Fen Shui).
In conclusion existing mixed moisture water one body swimming tap valve core can be further improved.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of topology layout for above-mentioned state of the art
It is rationally compact, can realize mixed water (control water inlet water route opening and closing, adjusting respectively using two groups of valve block components in same spool housing
Water temperature) two kinds of functions of the He Fenshui exhalant canal of water flow (distribution) mixed moisture water one body swimming tap valve core, the water of the structure
Tap valve core can as needed in a spool it is convenient, securely achieve two-way, three tunnels and more water routes divide water.
Technical solution adopted by the utility model to solve the above technical problems is as follows: a kind of mixed moisture water one body swimming faucet
Spool, it is characterised in that: including valve casing, mixed water operating valve lever, divide water operating valve lever and the water mixing valve piece component in valve casing
With shunt valve piece component;The valve casing is equipped with hot intake tunnel, cold intake tunnel and multiple exhalant canals, the mixed water operation
Valve rod is connect with the water mixing valve piece component, is manipulated the water mixing valve piece component by mixed water operating valve lever and is able to achieve heat and intakes and leads to
Road, cold intake tunnel are connected to the mixed water cavity in water mixing valve piece component;Above and below the shunt valve piece component and water mixing valve piece component
Interval setting, it is described that water operating valve lever is divided to connect with the shunt valve piece component, by dividing water operating valve lever to manipulate shunt valve piece
Component makes divide water cavity and multiple exhalant canals in shunt valve piece component carry out selecting one and be connected to, described to divide water cavity and mixed water cavity
Always it is connected to;Described point of water operating valve lever is mutually set with mixed water operating valve lever and the two can be rotated around respective axis.
Water outlet is allocated by shunt valve piece component, selects different exhalant canals, and neighbouring exhalant canal is suitble to be arranged, and is mixed
Water valve plate component is control water inlet water route opening and closing, adjusts water temperature, is suitble to neighbouring intake tunnel to be arranged, shunt valve piece component is set thus
The water outlet end position in water mixing valve piece component is set, preferably, above-mentioned shunt valve piece component is set to the top of water mixing valve piece component,
The mixed water operating valve lever is upward through the shunt valve piece component, and water operating valve lever is divided to be sleeved on outside mixed water operating valve lever.This
Sample layout is the most reasonable.Certainly, shunt valve piece component can also be set to water mixing valve piece component lower section, then divide water operating valve lever to
On across the water mixing valve piece component, need for hot intake tunnel, cold intake tunnel to be arranged on valve housing side wall at this time, water outlet is logical
Road is set to valve casing bottom, while mixed water operating valve lever being sleeved on outside point water operating valve lever.
It is further improved, there is linking runner inside above-mentioned mixed water operating valve lever, the linking runner is described to be connected to
Divide water cavity and mixed water cavity.Linking runner is set to inside mixed water operating valve lever, entire valve core structure can be allowed more compact, be conducive to product
Miniaturization, naturally it is also possible in valve casing in addition setting linking runner.
Alternatively, above-mentioned water mixing valve piece component includes mixed hydrodynamic(al) valve block and mixed water fixed valve plate, and the mixed water cavity is set to mixed
On hydrodynamic(al) valve block;The shunt valve piece component includes dividing hydrodynamic(al) valve block and dividing water fixed valve plate, described to divide water cavity to be set to divide hydrodynamic(al) valve
On piece.It is few and simple that aforementioned water mixing valve piece component and shunt valve piece component are related to component, is conducive to assembling, water mixing valve piece component and existing
Valve block component used by some water-mixing valve cores is similar, generally uses ceramic valve plate, shunt valve piece component and existing shunt valve
Valve block component used by core is similar, generally uses ceramic valve plate.This method of salary distribution is simple, is conducive to assembling and operation control.
Preferably, having upper and lower spaced lower chambers and upper chamber, the water mixing valve piece group inside above-mentioned valve casing
Part is set to bottom chamber, and the shunt valve piece component is set in upper chamber, and the hot intake tunnel, cold intake tunnel are set to cavity of resorption
Room bottom is simultaneously connected to lower chambers.Chamber independent of each other separates water mixing valve piece component and shunt valve piece component, each other will not
It interferes, facilitates the setting in water route.
To adapt to have the spray equipment of shower, top spray and tap, there are three above-mentioned exhalant canals, multiple water outlets
Channel surrounds lower chambers circumferentially arranged for interval.
Upper chamber and lower chambers are formed to facilitate assembly and in valve casing, and above-mentioned valve casing includes valve seat, is located at valve seat top
Upper housing, the lower case positioned at valve seat lower part, valve seat and upper housing constitute the upper chamber, described in valve seat and lower case are constituted
Lower chambers, the hot intake tunnel, cold intake tunnel are set to the bottom of lower case, and the exhalant canal is arranged in lower case and valve
In seat.Sealing ring is set at the binding site of upper housing and valve seat, sealing ring is set at the binding site of lower case and valve seat, can
Leak is prevented, valve casing is made of three components, and the structure of each component is relatively easy, is conducive to injection molding.
Preferably, above-mentioned water mixing valve piece component includes mixed hydrodynamic(al) valve block and mixed water fixed valve plate, the mixed water fixed valve plate card
The inner face in lower case bottom is set, leading into hot water through-hole, with cold water inlet of be connected to hot intake tunnel is provided on mixed water fixed valve plate
Road connection into cold water through-hole, the mixed hydrodynamic(al) valve block is set to the top of mixed water fixed valve plate and is driven by the mixed water operating valve lever
And can be rotated around own axes, the mixed water cavity is set on mixed hydrodynamic(al) valve block;When the mixed hydrodynamic(al) valve block is located at initial position,
The mixed water cavity described is blocked into hot water through-hole and with described into cold water through-hole;The rotational energy of the mixed hydrodynamic(al) valve block makes described
Mixed water cavity is connected into hot water through-hole and/or into cold water through-hole.
Preferably, above-mentioned shunt valve piece component includes dividing hydrodynamic(al) valve block and dividing water fixed valve plate, it is described to divide water fixed valve plate card
It sets to divide to be provided on water fixed valve plate in the top surface of valve seat and corresponds the apopore being connected to the exhalant canal, it is described to divide hydrodynamic(al)
Valve block divides water operating valve lever to drive and can rotate around own axes set on the top for dividing water fixed valve plate and by described, described to divide water cavity
Set on dividing on hydrodynamic(al) valve block, the rotational energy for dividing hydrodynamic(al) valve block carries out point water cavity and multiple apopores.By dividing water
Chamber is selected one with multiple apopores and is connected to, and guarantees that only one exhalant canal is discharged, additionally by dividing going out for water cavity and corresponding position
The variation that water hole overlapping area occurs, realizes the adjusting of water yield.
Preferably, the bottom surface of above-mentioned valve seat has inner cavity, the internal perisporium of inner cavity has the resistance of two pieces of radial protrusions
Block, two pieces of stoppers are circumferentially spaced setting, have on the bottom periphery wall of mixed water operating valve lever and radially extend and upward convex
The convex block of hydrodynamic(al) valve block top surface is mixed out, and when mixed hydrodynamic(al) valve block is located at initial position, the convex block connects with one of stopper
Touching turns to the mixed water cavity only and under hot water through-hole connected state in mixed hydrodynamic(al) valve block, and the convex block stops with another piece
Block contact;It is realized by being equipped with for stopper and convex block so that mixed water operating valve lever only rotates in some angular range
The adjusting of water temperature and water route on-off mixes water operating valve lever when toward opening direction rotation, guarantees mixed water cavity first and into cold water channel
Connection, only turns to maximum angle state, and mixed water cavity is only connected into hot water through-hole, realizes the purpose of hot water after first cold water.
Divide water operating valve lever to protrude into the indoor part of epicoele and is equipped with the positioning column for keeping exposing trend by spring supporting, institute
The inner wall for stating upper chamber is equipped with multiple location dimples matched for positioning column card, divides the drive of water operating valve lever to divide hydrodynamic(al) valve described
Piece is rotated to dividing water cavity and one of apopore utmostly under coincidence status, and positioning column is caught in one of location dimples
It is interior.Under positioning column and location dimples mating reaction under the action of the spring, indicative function is provided to each position Fen Shui, in addition,
Also a point operating handle for water operating valve lever can be promoted.
Compared with the prior art, the advantages of the utility model are: by adopting the above technical scheme, in a valve casing simultaneously
Equipped with shunt valve piece component and water mixing valve piece component, shunt valve piece component and water mixing valve piece component divide water to grasp between the upper and lower every setting
Make that valve rod is mutually set with mixed water operating valve lever and the two can be rotated around respective axis, therefore spool compact overall structure, layout are closed
Reason can realize mixed water using two groups of valve block components in the same faucet valve in-core respectively and be divided to water two kinds of functions, and can be with
That realizes two water routes, three water routes and more water routes divides water;It mixes water and divides water function respectively by mixing water operating valve lever and water being divided to operate
Valve rod operation, avoids maloperation, water cavity is divided to be connected to always with mixed water cavity, and such hot and cold water enters after mixing via mixed water cavity and divides water
Chamber, then by dividing water operating valve lever to manipulate shunt valve piece component, water cavity will be divided to be connected to corresponding exhalant canal, completion divides water, whole
A water route control is concise, rationally distributed;Using the tap of the spool, the internal structure of tap can be simplified, and greatly
The volume and material consumption for reducing swivel body, reduce costs, install and use is more convenient.
Detailed description of the invention
Fig. 1 is the schematic perspective view one of the utility model embodiment;
Fig. 2 is the schematic perspective view two of the utility model embodiment;
Fig. 3 is the cross-sectional view of the utility model embodiment;
Fig. 4 is the sectional view along A-A of Fig. 3;
Fig. 5 is the stereogram exploded view of the utility model embodiment;
Fig. 6 is the stereoscopic schematic diagram of two valve block component relative positional relationships in the utility model embodiment;
Fig. 7 is the stereoscopic schematic diagram for the corner locating structure that the utility model embodiment is mixed between hydrodynamic(al) valve block and valve seat;
Fig. 8 is position view of the water mixing valve piece component under each tempered state in the utility model embodiment;
Fig. 9 is position view of the shunt valve piece component under each point of water state in the utility model embodiment.
Specific embodiment
The utility model is described in further detail below in conjunction with figure embodiment.
As shown in figure 1-9, the preferred embodiment to mix moisture water one body swimming tap valve core.
A kind of mixed moisture water one body swimming tap valve core, including valve casing 1, mixed water operating valve lever 2, divide water operating valve lever 3 and
Water mixing valve piece component 5 and shunt valve piece component 6 in valve casing 1;Valve casing 1 is equipped with hot intake tunnel 4a, cold intake tunnel
4b and multiple exhalant canal 4c, mixed water operating valve lever 2 are connect with water mixing valve piece component 5, manipulate mixed water by mixed water operating valve lever 2
Valve block component 5 is able to achieve hot intake tunnel 4a, cold intake tunnel 4b and is connected to the mixed water cavity 7a in water mixing valve piece component 5;Divide water
Valve block component 6 and water mixing valve piece component 5 divide water operating valve lever 3 to connect with shunt valve piece component 6 between the upper and lower every setting, by dividing
Water operating valve lever 3, which manipulates shunt valve piece component 6, to be made to divide water cavity 7b to be selected with multiple exhalant canal 4c in shunt valve piece component 6
One connection, divides water cavity 7b to be connected to always with mixed water cavity 7a.
Shunt valve piece component 6 is set to the top of water mixing valve piece component 5, and water operating valve lever 3 is divided to be sleeved on mixed water operating valve lever 2
Outside and the two can be rotated around respective axis.The part that 1 top of valve casing is manifested in mixed water operating valve lever 2 is square for cross section
The connector for people's operation, divide the rounded connection for people's operation in part that the top of valve casing 1 is manifested in water operating valve lever 3
Portion, and rack gear is set in the periphery of interconnecting piece.
Certainly, shunt valve piece component 6 can also be set to the lower section of water mixing valve piece component 5, and water operating valve lever 36 is divided to wear upwards
Overmulling water valve plate component 5, mixed water operating valve lever 2 are sleeved on outside point water operating valve lever 3, hot intake tunnel 4a, cold intake tunnel 4b
It is arranged on 1 side wall of valve casing, exhalant canal 4c is set to 1 bottom of valve casing.To constitute another embodiment.
Mixed water operating valve lever 2 is upward through shunt valve piece component 6, and water cavity 7b is divided to connect in the following ways with mixed water cavity 7a
Logical: it has linking runner 21 inside mixed water operating valve lever 2, is connected runner 21 to be connected to point water cavity 7b and mixed water cavity 7a.
There is upper and lower spaced lower chambers 8a and upper chamber 8b, water mixing valve piece component 5 is set to lower chambers inside valve casing 1
In 8a, shunt valve piece component 6 is set in upper chamber 8b, and hot intake tunnel 4a, cold intake tunnel 4b are set to the bottom lower chambers 8a simultaneously
It is connected to lower chambers 8a, there are three exhalant canal 4c, and multiple exhalant canal 4c surround lower chambers 8a circumferentially arranged for interval.Specifically
, valve casing 1 include valve seat 11, be located at and be connected to 11 top of valve seat upper housing 12, be located at and be connected to 11 lower part of valve seat
It is equipped with sealing ring at the faying face of lower case 13, upper housing 12 and valve seat 11, is also set at lower case 13 and the faying face of valve seat 11
There is sealing ring, valve seat 11 and upper housing 12 constitute upper chamber 8b, and valve seat 11 and lower case 13 constitute lower chambers 8a, hot intake tunnel
4a, cold intake tunnel 4b are set to the bottom of lower case 13, and exhalant canal 4c is arranged in lower case 13 and valve seat 11, specifically goes out
Aquaporin-4 c is arranged in the side wall and valve seat 11 of lower case 13.
Water mixing valve piece component 5 includes mixed hydrodynamic(al) valve block 51 and mixed water fixed valve plate 52, mixes 52 holding of water fixed valve plate in lower case
The inner face of 13 bottoms, be provided on mixed water fixed valve plate 52 be connected to hot intake tunnel 4a into hot water through-hole 521 and cold intake tunnel
4b connection into cold water through-hole 522, mixed hydrodynamic(al) valve block 51 is set to the top of mixed water fixed valve plate 52 and is driven by mixed water operating valve lever 2
And can be rotated around own axes, it mixes water cavity 7a and is set on mixed hydrodynamic(al) valve block 51;When mixed hydrodynamic(al) valve block 51 is located at initial position,
Mixed water cavity 7a is blocked with into hot water through-hole 521 and into cold water through-hole 522;The rotational energy of mixed hydrodynamic(al) valve block 51 makes mixed water cavity 7a
It is connected into hot water through-hole 521 and/or into cold water through-hole 522.
Shunt valve piece component 6 includes dividing hydrodynamic(al) valve block 61 and dividing water fixed valve plate 62, divides 62 holding of water fixed valve plate in valve seat 11
Top surface, divide and be provided with multiple apopores 621 for corresponding with exhalant canal 4c and being connected on water fixed valve plate 62, divide hydrodynamic(al) valve block 61
It can be rotated around own axes set on the top for dividing water fixed valve plate 62 and by dividing water operating valve lever 3 to drive, divide water cavity 7b to be set to and divide
On hydrodynamic(al) valve block 61, divide 61 ground rotational energy of hydrodynamic(al) valve block that point water cavity 7b and multiple apopores 621 is made to carry out selecting one and be connected to.
11 bottom of valve seat has inner cavity 111, and the internal perisporium of inner cavity 111 has the stopper 112 of two pieces of radial protrusions,
Two pieces of stoppers 112 are circumferentially spaced setting, have on the bottom periphery wall of mixed water operating valve lever 2 and radially extend and protruding upward
The convex block 22 of mixed 51 top surface of hydrodynamic(al) valve block, when mixed hydrodynamic(al) valve block 51 is located at initial position, convex block 22 and one of stopper
112 contacts turn to mixed water cavity 7a only and under 521 connected state of hot water through-hole in mixed hydrodynamic(al) valve block 51, convex block 22 with it is another
Block stopper 112 contacts;Divide water operating valve lever 3 to protrude into the part in upper chamber 8b and be equipped with to expose to become by the support holding of spring 91
The inner wall of the positioning column 9a of gesture, upper chamber 8b are equipped with multiple location dimples 9b matched for positioning column 9a card, are dividing water operation valve
The drive of bar 3 divides the rotation of hydrodynamic(al) valve block 61 to dividing water cavity 7b and one of apopore 621 utmostly under coincidence status, positioning
Column 9a is caught in one of location dimples 9b.
The operation principle and process of this mixed moisture water one body swimming tap valve core is as follows:
Before operation, mixed hydrodynamic(al) valve block 51 is located at initial position, and convex block 22 is contacted with one of stopper 112, mixes water cavity
7a is not connected to hot intake tunnel 4a, cold intake tunnel 4b, and divides water cavity 7b to go out with one of them in shunt valve piece component 6
The corresponding exhalant canal 4c in water hole 621 connection,
It when operation, first adjusts and divides water, rotation divides water operating valve lever 3, divides the drive of water operating valve lever 3 that hydrodynamic(al) valve block 61 is divided to rotate
To water cavity 7b exhalant canal 4c connection corresponding with one of apopore 621 is divided, (exhalant canal 4c be can be and shower, top
Spray and one of tap three be connected tos), divide water adjusting completion.As shown in Figure 9.
Adjust mixed water again, rotate mixed water operating valve lever 2, mix water operating valve lever 2 drive the mixed rotation of hydrodynamic(al) valve block 51 to heat into
Aquaporin-4 a and/or cold intake tunnel 4b are connected to mixed water cavity 7a, pass through mixed water cavity 7a and hot intake tunnel 4a and/or cold water inlet
The difference of channel 4b overlapping area, realizes the adjusting of water temperature, during mixed hydrodynamic(al) valve block 51 is started turning from original state, mixes water
Chamber 7a is first connected to cold intake tunnel 4b, after rotating an angle, while being connected to hot intake tunnel 4a and cold intake tunnel 4b,
It continues to rotate, mixed water cavity 7a is overlapped degree increase with hot intake tunnel 4a, and degree reduction is overlapped with cold intake tunnel 4b, water temperature
Gradually rise, turn to mixed water cavity 7a only and under hot water through-hole 4a connected state in mixed hydrodynamic(al) valve block 51, convex block 22 with it is another
Block stopper 112 contacts.As shown in Figure 8.
The water flow process of this spool is as follows: water enters from hot intake tunnel 4a, cold intake tunnel 4b, through overmulling water fixed valve plate
On 52 into hot water through-hole 521, into cold water through-hole 522, in the mixed water cavity 7a mixing of mixed hydrodynamic(al) valve block 51, mixing water is from mixed water cavity
7a divides water cavity 7b, then the apopore by dividing on water fixed valve plate 62 via what linking runner 21 flowed upwardly into point hydrodynamic(al) valve block 61
621, it is finally flowed out via the exhalant canal 4c of 13 side wall of valve seat 11 and lower case, water flow process is simple.
It should be noted that in the description of the present embodiment, term " forward and backward ", " left and right ", " upper and lower ", " clockwise ",
The orientation or positional relationship of instructions such as " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, it is only for is convenient for
Describe the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation,
It is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.
Claims (10)
1. a kind of mixed moisture water one body swimming tap valve core, it is characterised in that: including valve casing (1), mixed water operating valve lever (2), divide
Water operating valve lever (3) and the water mixing valve piece component (5) and shunt valve piece component (6) being located in valve casing (1);On the valve casing (1)
Equipped with hot intake tunnel (4a), cold intake tunnel (4b) and multiple exhalant canals (4c), the mixed water operating valve lever (2) with it is described
It is logical to be able to achieve heat water inlet by mixed water operating valve lever (2) manipulation water mixing valve piece component (5) for water mixing valve piece component (5) connection
Road (4a), cold intake tunnel (4b) are connected to the mixed water cavity (7a) in water mixing valve piece component (5);The shunt valve piece component (6)
It is described that water operating valve lever (3) is divided to connect with the shunt valve piece component (6) with water mixing valve piece component (5) between the upper and lower every setting, lead to
Excessive water operating valve lever (3) manipulation shunt valve piece component (6) make in shunt valve piece component (6) divide water cavity (7b) with it is multiple described
Exhalant canal (4c) carries out selecting a connection, described that water cavity (7b) is divided to be connected to always with mixed water cavity (7a);Described point of water operating valve lever
(3) it is mutually set with mixed water operating valve lever (2) and the two can be rotated around respective axis.
2. mixed moisture water one body swimming tap valve core according to claim 1, it is characterised in that: the shunt valve piece component
(6) it is set to the top of water mixing valve piece component (5), the mixed water operating valve lever (2) is upward through the shunt valve piece component (6),
Described point of water operating valve lever (3) is sleeved on mixed water operating valve lever (2) outside.
3. mixed moisture water one body swimming tap valve core according to claim 2, it is characterised in that: the mixed water operating valve lever
(2) internal to have linking runner (21), the linking runner (21) is to divide water cavity (7b) and mixed water cavity (7a) described in being connected to.
4. mixed moisture water one body swimming tap valve core according to claim 1, it is characterised in that: the water mixing valve piece component
It (5) include mixed hydrodynamic(al) valve block (51) and mixed water fixed valve plate (52), the mixed water cavity (7a) is set on mixed hydrodynamic(al) valve block (51);It is described
Shunt valve piece component (6) includes dividing hydrodynamic(al) valve block (61) and dividing water fixed valve plate (62), described to divide water cavity (7b) set on dividing hydrodynamic(al) valve
On piece (61).
5. mixed moisture water one body swimming tap valve core according to claim 1 or 2, it is characterised in that: in the valve casing (1)
Portion has upper and lower spaced lower chambers (8a) and upper chamber (8b), and the water mixing valve piece component (5) is set to lower chambers (8a)
Interior, the shunt valve piece component (6) is set in upper chamber (8b), and the hot intake tunnel (4a), cold intake tunnel (4b) are set to
The lower chambers bottom (8a) is simultaneously connected to lower chambers (8a).
6. mixed moisture water one body swimming tap valve core according to claim 5, it is characterised in that: the exhalant canal (4c)
There are three, multiple exhalant canals (4c) surround lower chambers (8a) circumferentially arranged for interval.
7. mixed moisture water one body swimming tap valve core according to claim 5, it is characterised in that: the valve casing (1) includes
Valve seat (11), be located at valve seat (11) top upper housing (12), be located at valve seat (11) lower part lower case (13), valve seat (11) and
Upper housing (12) constitutes the upper chamber (8b), and valve seat (11) and lower case (13) constitute the lower chambers (8a), it is described it is hot into
Aquaporin (4a), cold intake tunnel (4b) are set to the bottom of lower case (13), and the exhalant canal (4c) is arranged in lower case
(13) and in valve seat (11).
8. mixed moisture water one body swimming tap valve core according to claim 7, it is characterised in that: the water mixing valve piece component
It (5) include mixed hydrodynamic(al) valve block (51) and mixed water fixed valve plate (52), mixed water fixed valve plate (52) holding is in lower case (13) bottom
Inner face, be provided on mixed water fixed valve plate (52) be connected to hot intake tunnel (4a) into hot water through-hole (521) and cold intake tunnel
(4b) connection into cold water through-hole (522), the mixed hydrodynamic(al) valve block (51) is set to the top of mixed water fixed valve plate (52) and by described
Mixed water operating valve lever (2) drive and can rotate around own axes, and the mixed water cavity (7a) is set on mixed hydrodynamic(al) valve block (51);Work as institute
When stating mixed hydrodynamic(al) valve block (51) and being located at initial position, the mixed water cavity (7a) with it is described into hot water through-hole (521) and described into cold
Water through-hole (522) blocks;The rotational energy of the mixed hydrodynamic(al) valve block (51) make the mixed water cavity (7a) with into hot water through-hole (521)
And/or it is connected into cold water through-hole (522).
9. mixed moisture water one body swimming tap valve core according to claim 7, it is characterised in that: the shunt valve piece component
It (6) include dividing hydrodynamic(al) valve block (61) and dividing water fixed valve plate (62), it is described to divide (62) holding of water fixed valve plate in the top surface of valve seat (11),
Divide and is provided with multiple apopores (621) being connected to the exhalant canal (4c) one-to-one correspondence on water fixed valve plate (62), it is described to divide water
Moving valve plate (61) divides water operating valve lever (3) to drive and can revolve around own axes set on the top for dividing water fixed valve plate (62) and by described
Turn, described to divide water cavity (7b) to be set to divide on hydrodynamic(al) valve block (61), the rotational energy for dividing hydrodynamic(al) valve block (61) makes described to divide water cavity
(7b) and multiple apopores (621), which carry out selecting one, to be connected to;Valve seat (11) bottom has inner cavity (111), inner cavity
(111) internal perisporium has the stopper (112) of two pieces of radial protrusions, and two pieces of stoppers (112) are circumferentially spaced setting, mixes water
Have on the bottom periphery wall of operating valve lever (2) and radially extend and the convex block (22) of mixed hydrodynamic(al) valve block (51) top surface protruding upward,
When mixed hydrodynamic(al) valve block (51) is located at initial position, the convex block (22) contacts with one of stopper (112), in mixed hydrodynamic(al)
Valve block (51) turns to the mixed water cavity (7a) only and under hot water through-hole (521) connected state, the convex block (22) with it is another
Block stopper (112) contact;Described point of water operating valve lever (3) is protruded into the part in upper chamber (8b) and is equipped with by spring (91) branch
Support keeps the positioning column (9a) of exposing trend, and the inner wall of the upper chamber (8b) is determined equipped with multiple for what positioning column (9a) card was matched
Position pit (9b) divides water operating valve lever (3) to drive to divide hydrodynamic(al) valve block (61) rotation to dividing water cavity (7b) and one of them described
Utmostly under coincidence status, the positioning column (9a) is caught in one of location dimples (9b) apopore (621).
10. mixed moisture water one body swimming tap valve core according to claim 1, it is characterised in that: the shunt valve piece group
Part (6) is set to the lower section of water mixing valve piece component (5), described that water operating valve lever (3) is divided to be upward through the water mixing valve piece component
(5), the mixed water operating valve lever (2) is sleeved on point water operating valve lever (3) outside, the hot intake tunnel (4a), cold intake tunnel
(4b) is arranged on valve casing (1) side wall, and exhalant canal (4c) is set to valve casing (1) bottom.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109185499A (en) * | 2018-11-01 | 2019-01-11 | 宁波万海阀门科技有限公司 | Mixed moisture water one body swimming tap valve core |
CN110792805A (en) * | 2019-11-04 | 2020-02-14 | 温州海瑞陶瓷阀有限公司 | Combined washbasin drawing faucet water mixing valve core |
CN111677911A (en) * | 2020-07-01 | 2020-09-18 | 宁波万海阀门科技有限公司 | Water mixing and water dividing integrated water faucet valve core |
WO2022198834A1 (en) * | 2021-03-22 | 2022-09-29 | 陈宗仁 | Valve core structure |
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2018
- 2018-11-01 CN CN201821805270.XU patent/CN209340555U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109185499A (en) * | 2018-11-01 | 2019-01-11 | 宁波万海阀门科技有限公司 | Mixed moisture water one body swimming tap valve core |
CN109185499B (en) * | 2018-11-01 | 2024-05-24 | 宁波万海阀门科技有限公司 | Water mixing and dividing integrated tap valve core |
CN110792805A (en) * | 2019-11-04 | 2020-02-14 | 温州海瑞陶瓷阀有限公司 | Combined washbasin drawing faucet water mixing valve core |
CN111677911A (en) * | 2020-07-01 | 2020-09-18 | 宁波万海阀门科技有限公司 | Water mixing and water dividing integrated water faucet valve core |
WO2022198834A1 (en) * | 2021-03-22 | 2022-09-29 | 陈宗仁 | Valve core structure |
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