CN206329804U - Divide water termostat valve - Google Patents
Divide water termostat valve Download PDFInfo
- Publication number
- CN206329804U CN206329804U CN201621433811.1U CN201621433811U CN206329804U CN 206329804 U CN206329804 U CN 206329804U CN 201621433811 U CN201621433811 U CN 201621433811U CN 206329804 U CN206329804 U CN 206329804U
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- China
- Prior art keywords
- base
- delivery port
- water
- point
- mixing chamber
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model discloses one kind point water termostat valve, including the mixing chamber for mixing cold water and hot water, described mixing chamber one end is formed with the hybrid chamber delivery port flowed out for mixing water, the mixing chamber is externally provided with base, the base delivery port of some confession mixing water outflows is provided with the base, the water side of the hybrid chamber delivery port is fixed with a point water still, described point of water still is arranged between the base delivery port and hybrid chamber delivery port, described point of water still includes the first delivery port and isolation part, first delivery port is communicated with the hybrid chamber delivery port, the base can be rotated so that first delivery port is communicated with base delivery port relative to point water still, and the isolation part lid is covered the part or all of opening of base delivery port, with the openings of sizes of the water inlet of adjusting base delivery port.The utility model has the mixing water that constant temperature can be supplied for multiple water sides, can reduce use cost and advantage easy to use.
Description
Technical field
The utility model is related to a kind of thermostatic valve, and in particular to one kind point water termostat valve.
Background technology
For solve bathing during water outlet it is sometimes hot and sometimes cold the problem of, people, which have been invented in thermostatic valve, but bathroom, generally to be had
Tap at multiple bathing water sides, such as washbowl, gondola water faucet, the fire hose is first-class at bathtub, if often place's water exit end all arranges in pairs or groups one
Individual thermostatic valve, then need to assemble multiple thermostatic valves, and needs to enter setting to the temperature of each thermostatic valve when using, and uses ten
Divide trouble.
The content of the invention
The purpose of this utility model, which is to provide one kind, can be applicable many places water side, can reduce use cost and easy to use
Divide water termostat valve.
To achieve the above object, the utility model is adopted the following technical scheme that:One kind point water termostat valve, including for mixing
The mixing chamber of cold water and hot water, described mixing chamber one end is formed with the hybrid chamber delivery port flowed out for mixing water, described mixed
Close cavity and be externally provided with the base delivery port that some confession mixing water outflows are provided with base, the base, the hybrid chamber delivery port
Water side be fixed with a point water still, described point of water still is arranged between the base delivery port and hybrid chamber delivery port, institute
Stating point water still includes the first delivery port and isolation part, and first delivery port is communicated with the hybrid chamber delivery port, the bottom
Seat can be rotated relative to point water still so that first delivery port is communicated with base delivery port, and the isolation part lid is covered base
The part or all of opening of delivery port, with the openings of sizes of the water inlet of adjusting base delivery port.
The utility model, with the position of adjusting base delivery port, makes the isolation part lid of point water still cover bottom by rotating base
The outs open of seat delivery port or the position for making isolation part deviation base delivery port, to reach that multiple water outlets bring out mixing water(It is permanent
The water of temperature)Purpose, and multiple thermostatic valves need not be used, to reduce the use cost of user, the utility model need to only enter
The temperature setting of thermostatic valve of row, which becomes, can make all water sides to flow out the mixing water of constant temperature;Isolation part lid is set to cover a part
Base delivery port, it is another part water side to supply mixing water as a part of water side while ensureing water yield to reach, stop
For mixing water;Different base delivery ports are covered by making a point water still isolation part lid, to realize multiple water sides cutting for mixing water
Change.Wherein, quantity and the position of base delivery port are arranged as required to, the size and location of isolation part is arranged as required to.This
Utility model it is simple in construction, to reduce cost of the present utility model, and the utility model is easier to assemble and is installed
Among bathing system.Wherein, divide water still except through the first delivery port in addition to part be isolation part.
Preferably, being fixed with a point hydrodynamic(al) piece on the base, described point of hydrodynamic(al) piece is provided with some second delivery ports, one
Second delivery port at least corresponds to a base delivery port, encapsulation process between the mixing chamber and base, described point of hydrodynamic(al) piece
Smooth end face is with described point of water still adjacent face.The rotation of base can be easy to by dividing the setting of hydrodynamic(al) piece, can be reduced with dividing
Frictional force between water still;Simultaneously because base is made of plastics, base end face is extremely difficult to ensure smooth, the setting of point hydrodynamic(al) piece
It can avoid because dividing point water failure problem caused by having gap between water still isolation part and base.Wherein, it is a guarantee point water still
Smooth with point hydrodynamic(al) piece adjacent face, point water still and point hydrodynamic(al) piece can be made of ceramics or glass.Wherein, as needed
Make several corresponding base delivery ports of second delivery port, by controlling isolation part and the second delivery port position, if to control
Whether is the water supply of dry water side.
Preferably, the mixing chamber includes one section of mixing chamber, one section of the mixing chamber is radial section outer rim
Rounded tubular construction, and the mixing chamber close to the one end open of base to form the hybrid chamber delivery port, it is described
Divide water still and described one section of fixation of mixing chamber, the base is formed with the rounded annular protrusion in inner edge, and the base goes out
The mouth of a river is located on the inside of the annular protrusion, and the annular protrusion is set in described one section of radial outside of mixing chamber, described point of water
Still and a point hydrodynamic(al) piece are respectively positioned on the inside of the annular protrusion.The radially fixed of point water still is easy in above-mentioned setting, also allows for bottom
The rotation of seat.
Preferably, the base is formed with some first positioning convex, described point of hydrodynamic(al) piece is positioned in annular protrusion
And each second delivery port inwall is offseted with least one first positioning convex.It is above-mentioned to be provided for a point radial direction for hydrodynamic(al) piece
It is fixed, to avoid a point hydrodynamic(al) piece deflection, and the first positioning convex setting be easy to the utility model divide hydrodynamic(al) piece processing and into
Type, to reduce production cost of the present utility model.
Preferably, be provided with shell on the outside of the mixing chamber, the shell be set on the outside of the mixing chamber and with
The base buckle is fixed, and the mixing chamber is formed with the position limiting structure of mutual cooperation to avoid shell from departing from shell
Mixing chamber, the base and shell can be rotated centered on mixing chamber axis, and the base is with being set in mixing chamber
The shell in outside is fixed so that point water still is located between mixing chamber and base.Being provided for of shell and position limiting structure prevents
Base departs from mixing chamber, to avoid the separation of point hydrodynamic(al) piece and point water still adjacent face;Position limiting structure may be selected shell with
The inner convex platform outer lug boss structure that mixing chamber cooperates.Wherein, the utility model realizes a point water still by the fixed of base
Axial restraint.
Preferably, described point of water still is limited in described point between one section of hydrodynamic(al) piece and mixing chamber, described point of water
One section of still and mixing chamber are formed with the location structure of mutual cooperation, and the location structure includes some along one section of mixing chamber
The second positioning convex that diameter parallel line is set and the second locating slot for coordinating second positioning convex.Above-mentioned setting is used
It is spacing in the axial limiting and radial direction of point water still, to ensure the fixation of point water still;Wherein, shell and base engagement can be passed through
To ensure the fixation on point water still axial direction.
Preferably, the base is formed with two base delivery ports, two base delivery ports are arranged in annular protrusion
Opposite sides on the inside of wall, two base delivery ports are in bilateral symmetry using annular protrusion internal diameter as symmetry axis, and two
On the same line, described point of hydrodynamic(al) piece is in the Central Symmetry knot using diameter line as symmetry axis for the symmetry axis of individual base delivery port
Structure, described point of hydrodynamic(al) piece is provided with two the second delivery ports being oppositely arranged, and two the second delivery port interval settings, described point of water is quiet
First delivery port, first delivery port and the second delivery port shape size all same are formed with piece.Above-mentioned setting is used
In the switching of the mixing water supply of two water sides.
Preferably, the base, which is located on the inside of annular protrusion, is formed in part with an annular groove, the base goes out
The mouth of a river, which is arranged in the inner side of the annular groove, the annular groove, is provided with sealing ring, the sealing ring and a point hydrodynamic(al) piece phase
Support.The above-mentioned waterproof sealing being provided between mixing chamber and base, to ensure of the present utility model point of water function.And this practicality
New installation is very convenient, and carrying out the fixation of base and mixing chamber just can realize offseting for point hydrodynamic(al) piece and sealing ring.
Preferably, shape of the form and dimension of part or all of base delivery port with the second corresponding delivery port
And size is identical.
Preferably, partly or entirely the inwall of base delivery port is located relatively at the inwall with the second corresponding delivery port
Inner side.It is above-mentioned to be provided for avoiding the base delivery port caused by the second delivery port of point hydrodynamic(al) piece is too small from being blocked one
Point, it is to avoid the water yield of base delivery port diminishes.
The utility model has the mixing water that constant temperature can be supplied for multiple water sides, can reduce use cost and be easy to use
Advantage, the utility model also has the advantages that simple in construction, easy for installation, cost is relatively low.
Brief description of the drawings
Fig. 1 is a kind of explosive view of the present utility model;
Fig. 2 is a kind of assembling schematic diagram of the present utility model.
Fig. 3 is a kind of structural representation of mixing chamber of the present utility model;
Fig. 4 is a kind of structural representation of of the present utility model point of water still;
Fig. 5 is a kind of structural representation of base of the present utility model;
Fig. 6 is a kind of structural representation of of the present utility model point of hydrodynamic(al) piece.
Embodiment
The utility model is further described below according to the drawings and specific embodiments.
As shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, a kind of point of water termostat valve of the present utility model, including for mixing cold water
With the mixing chamber 1 of hot water, the one end of mixing chamber 1 is formed with outside the hybrid chamber delivery port 11 flowed out for mixing water, mixing chamber 1
Provided with base 2 and shell 3, be provided with base 2 two be used for for mixing water outflow base delivery port 21, hybrid chamber delivery port 21
Water side be fixed with a point water still 4, a point water still 4 is arranged between base delivery port 21 and hybrid chamber delivery port 11, point water
Still 4 includes the first delivery port 41 and isolation part 42, and the first delivery port 41 is communicated with hybrid chamber delivery port 11, and base 2 can be relative
Water still 4 is divided to circumferentially rotate so that the first delivery port 41 is communicated with base delivery port 21, and the lid of isolation part 42 is covered base water outlet
The part or all of opening of mouth 21, with the openings of sizes of the water inlet of adjusting base delivery port 21.
As shown in Fig. 1, Fig. 2, Fig. 5, Fig. 6, a point hydrodynamic(al) piece 5 is fixed with base 2, is divided to hydrodynamic(al) piece 5 to go out provided with two second
The mouth of a river 51, the second delivery port 51 one base delivery port 21 of correspondence, the inwall of each base delivery port 21 is located relatively at phase
The inner wall of corresponding second delivery port 51.Encapsulation process between mixing chamber 1 and base 2, point hydrodynamic(al) piece 5 and a point water still
4 adjacent faces are smooth end face, wherein divide hydrodynamic(al) piece 5 to be with a point water still 4 in disc-shaped by potsherd, point hydrodynamic(al) piece
5 and point water still 4 adjacent face between scribble lubricating oil.Mixing chamber 1 includes mixing chamber one section 12, one section 12 of mixing chamber
For the rounded tubular construction of radial section outer rim, and mixing chamber 1 close to the one end open of base 2 to form the hybrid chamber
Delivery port 11, one section of 12 fixation of point water still 4 and mixing chamber.
As shown in Fig. 2, Fig. 5, base 2 is formed with the rounded annular protrusion 22 in inner edge, and base delivery port 21 is located at annular
The inner side of projection 22, annular protrusion 22 is set in one section of 12 radial outside of mixing chamber, and point water still 4 and a point hydrodynamic(al) piece 5 are respectively positioned on
The inner side of annular protrusion 22.
Base 2 is formed with four the first positioning convex 23, and a point hydrodynamic(al) piece 5 is positioned in annular protrusion 22 and makes each second
The inwall of delivery port 51 offsets with two the first positioning convex 23.
As shown in Fig. 1, Fig. 2, Fig. 3, shell 3 is set in the outside of mixing chamber 1 and fixed with the buckle of base 2, mixing chamber 1
The position limiting structure of mutual cooperation is formed with shell 3 to avoid shell 3 from departing from mixing chamber 1.The radial section inner edge of shell 3
With the rounded setting of the radial section outer rim of mixing chamber 1, base 2 and shell 3 can be rotated centered on mixing chamber axis.
The one end of shell 3 away from base forms the inner convex platform 31 of oriented radially inner side extension, and mixing chamber 1 forms oriented radial outside and prolonged
The outer lug boss 13 stretched, shell 3 is set in the radial outside of mixing chamber 1 and outer lug boss 13 is coordinated with inner convex platform 31, outer to avoid
Shell 3 is towards the direction movement of base 2 to depart from mixing chamber.
As shown in 1, Fig. 2, Fig. 3, Fig. 4, a point water still 4 is limited between one section 12 of point hydrodynamic(al) piece 5 and mixing chamber,
Water still 4 is divided to be formed with the location structure of mutual cooperation for one section 12 with mixing chamber, location structure includes some along mixing chamber
The second positioning convex 121 that one section of 12 diameter parallel line is set and the second locating slot 43 for coordinating the second positioning convex 121,
Second positioning convex 121 is integrally formed for one section 12 with mixing chamber, and the second locating slot 43 is arranged in point outer rim of water still 4.
As shown in Fig. 2, Fig. 4, Fig. 6, two base delivery ports 21 are arranged at the opposite sides of the inner wall of annular protrusion 22,
Two base delivery ports 21 are in bilateral symmetry using the internal diameter of annular protrusion 22 as symmetry axis, and two base delivery ports
21 symmetry axis are on the same line.Divide hydrodynamic(al) piece 5 in the centrosymmetric structure using diameter line as symmetry axis, be divided to the two of hydrodynamic(al) piece 5
Individual second delivery port 51 is oppositely arranged, and two interval settings of the second delivery port 51, two shapes of the second delivery port 51 are crescent or half moon
First delivery port 41 is formed with shape, point water still 4, the first delivery port 41 and the shape size of the second delivery port 51 are homogeneous
Together.
Base 2, which is located on the inside of annular protrusion 22, is formed in part with an annular groove 24, and base delivery port 21 is arranged at
Sealing ring 25 is provided with the inner side of annular groove 24, annular groove 24, a point hydrodynamic(al) piece 5 is fixed in the annular protrusion 22 and made
The end face of hydrodynamic(al) piece 5 is divided to be offseted with sealing ring 25.
When carrying out assembling of the present utility model, first hybrid chamber will be set in for the fixed valve plate 7 for adjusting hot and cold water inflow
On one section 12 of body, fixed valve plate 7 is positioned with the outer rim of mixing chamber 1, and point outer rim of water still 4 positioning then is fixed on into mixing chamber one
In section 12, then coordinate the annular protrusion that point hydrodynamic(al) piece 5 is fixed on to base 2 by the first positioning convex and the second delivery port inwall
In 22, base will be fixed on for the moving valve plate 6 for adjusting hot and cold water inflow by outer rim positioning, finally in mixing chamber 1
Outside is arranged shell 3, and shell 3 is fixed with the buckle of base 2, now, moving valve plate 6 is limited between base 2 and moving valve plate,
Hydrodynamic(al) piece 5 is divided to be limited between base 2 and point water still 4.This practicality is carried out again after the fixation for completing base and mixing chamber
The connection of new point of water termostat valve and water inlet pipe and outlet pipe, and a base delivery port 21 is connected with a water side.
In use, by rotating base and shell, making point hydrodynamic(al) piece 5 be rotated relative to a point water still 4, on point hydrodynamic(al) piece 5
Second delivery port 51 is communicated with the first delivery port 41 of point water still 4, with the water supply for the constant temperature mixing water for realizing water side;Pass through
The difference of rotating base and housing angles, so as to divide blocking completely for 42 pairs of isolation part the second delivery port of difference 51 of water still,
With the switching for the water supply for realizing two water sides;By the difference of rotating base and housing angles, so that the isolation of point water still
Portion 42 is blocked to a different openings size of the second delivery port 51, with the control for the flow for realizing the mixing water to a water side
System.
Only need to that just multiple water sides can be carried out the water supply of constant temperature mixing water using a thermostatic valve of the present utility model,
Need not be using a thermostatic valve with unification water side, to reduce the usage quantity of thermostatic valve, to reduce the cost of user;
Meanwhile, the setting of a temperature need to be only carried out to the utility model thermostatic valve, it is not necessary to which each water side carries out a temperature
Setting, it is of the present utility model using more convenient.And the utility model also has simple in construction, easy for installation, cost relatively low
Advantage.
Claims (10)
1. one kind point water termostat valve, including for mixing the mixing chamber of cold water and hot water, described mixing chamber one end is formed with
The hybrid chamber delivery port flowed out for mixing water, the mixing chamber is externally provided with base, it is characterised in that if being provided with the base
The dry base delivery port flowed out for mixing water, the water side of the hybrid chamber delivery port is fixed with a point water still, and described point of water is quiet
Piece is arranged between the base delivery port and hybrid chamber delivery port, and described point of water still includes the first delivery port and isolation part,
First delivery port is communicated with the hybrid chamber delivery port, and the base can be rotated so that described first goes out relative to point water still
The mouth of a river is communicated with base delivery port, and the isolation part lid is covered the part or all of opening of base delivery port, with adjusting base
The openings of sizes of the water inlet of delivery port.
2. according to claim 1 point of water termostat valve, it is characterised in that a point hydrodynamic(al) piece, described point are fixed with the base
Hydrodynamic(al) piece be provided with some second delivery ports, second delivery port at least correspond to a base delivery port, the mixing chamber with
Encapsulation process between base, described point of hydrodynamic(al) piece is smooth end face with described point of water still adjacent face.
3. according to claim 2 point of water termostat valve, it is characterised in that the mixing chamber includes one section of mixing chamber, institute
It is the rounded tubular construction of radial section outer rim to state one section of mixing chamber, and the mixing chamber is close to the one end open of base
To form the hybrid chamber delivery port, described point of water still and described one section of fixation of mixing chamber, the base is formed with inner edge
Rounded annular protrusion, the base delivery port is located on the inside of the annular protrusion, and the annular protrusion is set in described mixed
One section of radial outside of cavity is closed, described point of water still and a point hydrodynamic(al) piece are respectively positioned on the inside of the annular protrusion.
4. point water termostat valve according to Claims 2 or 3, it is characterised in that the base is formed with some first convexes
Rise, described point of hydrodynamic(al) piece be positioned in annular protrusion and make each second delivery port inwall with least one the first positioning convex
Offset.
5. point water termostat valve according to Claims 2 or 3, it is characterised in that shell, institute are provided with the outside of the mixing chamber
State shell to be set on the outside of the mixing chamber and fix with the base buckle, the mixing chamber is formed with mutually with shell
The position limiting structure of cooperation is for avoiding shell from departing from mixing chamber, and the base and shell can be using mixing chamber axis in
The heart is rotated, the base and the shell being set on the outside of mixing chamber fix so that point water still be located at mixing chamber and base it
Between.
6. according to claim 3 point of water termostat valve, it is characterised in that described point of water still is limited in described point of hydrodynamic(al)
Between one section of piece and mixing chamber, described point of water still is formed with the location structure of mutual cooperation with one section of mixing chamber, described
Location structure includes some the second positioning convex set along one section of diameter parallel line of mixing chamber and for coordinating described second
Second locating slot of positioning convex.
7. according to claim 3 point of water termostat valve, it is characterised in that the base is formed with two base delivery ports, two
Individual base delivery port is arranged at the opposite sides of annular protrusion inner wall, and two base delivery ports are in annular protrusion internal diameter
For the bilateral symmetry of symmetry axis, and two base delivery ports symmetry axis on the same line, described point of hydrodynamic(al) piece be in
Diameter line is the centrosymmetric structure of symmetry axis, and described point of hydrodynamic(al) piece is provided with two the second delivery ports being oppositely arranged, two the
First delivery port, first delivery port and the second water outlet are formed with two delivery port interval settings, described point of water still
Mouth-shaped size all same.
8. according to claim 3 point of water termostat valve, it is characterised in that the base is located at the part on the inside of annular protrusion
An annular groove is formed with, the base delivery port is arranged in the inner side of the annular groove, the annular groove and is provided with
Sealing ring, the sealing ring offsets with a point hydrodynamic(al) piece.
9. point water termostat valve according to Claims 2 or 3, it is characterised in that the shape of part or all of base delivery port and
Size is identical with the form and dimension of the second corresponding delivery port.
10. point water termostat valve according to Claims 2 or 3, it is characterised in that the inwall of part or all of base delivery port
It is located relatively at the inner wall of the second corresponding delivery port.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621433811.1U CN206329804U (en) | 2016-12-26 | 2016-12-26 | Divide water termostat valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621433811.1U CN206329804U (en) | 2016-12-26 | 2016-12-26 | Divide water termostat valve |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206329804U true CN206329804U (en) | 2017-07-14 |
Family
ID=59292219
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621433811.1U Withdrawn - After Issue CN206329804U (en) | 2016-12-26 | 2016-12-26 | Divide water termostat valve |
Country Status (1)
Country | Link |
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CN (1) | CN206329804U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106499868A (en) * | 2016-12-26 | 2017-03-15 | 蔚来水控科技(宁波)有限公司 | Divide water termostat valve |
WO2022057166A1 (en) * | 2020-09-15 | 2022-03-24 | 台州市国人温控卫浴科技有限公司 | Novel coaxial constant-temperature water distribution valve core |
-
2016
- 2016-12-26 CN CN201621433811.1U patent/CN206329804U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106499868A (en) * | 2016-12-26 | 2017-03-15 | 蔚来水控科技(宁波)有限公司 | Divide water termostat valve |
WO2022057166A1 (en) * | 2020-09-15 | 2022-03-24 | 台州市国人温控卫浴科技有限公司 | Novel coaxial constant-temperature water distribution valve core |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170714 Effective date of abandoning: 20180731 |
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AV01 | Patent right actively abandoned |