Summary of the invention
Technical problem to be solved by the invention is to provide one kind to turn to hot water side maximum angular from cold water side maximum angle
Water yield is to be gradually reduced, quick and precisely switch to the flushing of big yield cold water and high warm to meet user during degree
The electric heating faucet of water water outlet use demand.
The technical scheme of the invention to solve the technical problem is: a kind of electric heating faucet, including control valve,
The control valve includes that the dynamic porcelain piece, the valve casing for fixed porcelain piece and dynamic porcelain piece to be arranged, setting of fixed porcelain piece and fixed porcelain piece cooperation exist
For controlling the driving assembly of dynamic porcelain piece movement in valve casing, it is characterised in that: the fixed porcelain piece first end face is equipped with and water inlet bottom
The water inlet of seat connection, the first water outlet being connected to the first water inlet, the second water outlet being connected to the second water inlet, it is described
Fixed porcelain piece second end face is equipped with the inlet opening being connected to water inlet, the first apopore being connected to the first water outlet, goes out with second
The mouth of a river connection the second apopore, the dynamic porcelain piece be equipped with cooperate with inlet opening water inlet groove, and the first apopore and/or
The water outlet groove that second apopore cooperates, the second end face are additionally provided with for dynamic porcelain piece rotation and by water inlet groove and out
The first regulating tank that water groove is turned on or off,
When gradually rotating after inlet opening is connected the driving component with water inlet groove and from centre to cold water side, driving group
Dynamic porcelain piece is driven to rotate for part so that water inlet groove is connected and is discharged groove and the second water outlet with groove is discharged by the first regulating tank
The conducting area in hole is gradually increased;
When gradually rotating after inlet opening is connected the driving component with water inlet groove and from centre to hot water side, driving group
Dynamic porcelain piece is driven to rotate for part so that groove of intaking is connected and intake groove and inlet opening the first regulating tank with water outlet groove
Conducting area is gradually reduced.
As an improvement of the present invention, the second end face of the fixed porcelain piece is equipped with the second regulating tank, the dynamic porcelain piece
It is equipped with auxiliary flute, is rotated after inlet opening be connected the driving component with water inlet groove and from centre to cold water side including the
One stage and second stage,
First stage, water flow flow into the second water inlet by the first branch, the water flow route of the first branch be from into
The mouth of a river enters, and sequentially by inlet opening, water inlet groove, the first regulating tank, water outlet groove, the second apopore, finally goes out from second
The mouth of a river flows into the second water inlet, and in the first stage, the connection area of the second apopore and water outlet groove gradually subtracts increase, and
And the connection area of the inlet opening and water inlet groove is greater than the second apopore and is discharged the connection area of groove,
Second stage, water flow divide two-way, and all the way to flow into the second water inlet by the first branch, another way is logical
Second branch is crossed into the second water inlet, the water flow route of the second branch is to enter from the inlet, sequentially by inlet opening,
Auxiliary flute, the second regulating tank, water outlet groove, the second apopore finally flow into the second water inlet from the second water outlet, and described the
In two-stage, the connection area of the second apopore and water outlet groove continues to increase, also, the company of the inlet opening and water inlet groove
The sum of logical area and the inlet opening and the connection area of auxiliary flute are greater than the second apopore and are discharged the connection area of groove.
As of the invention, there are also a kind of improvement, after inlet opening is connected the driving component with water inlet groove and by centre
When phase hot water side rotates, water flow enters the first water outlet by third branch, and the water flow route of the third branch is from water inlet
Mouth enters, and sequentially by inlet opening, water inlet groove, the first regulating tank, water outlet groove, the first apopore, is finally discharged from first
Mouthful flow into the second water inlet, with dynamic porcelain piece to hot water side gradually rotate the inlet opening and intake groove connection area gradually
Reduce.
As of the invention there are also a kind of improvement, the maximum angle that the dynamic porcelain piece is rotated toward cold water side is 25 °~45 °.
It is 25 °~75 ° as the maximum angle of the invention that there are also a kind of improvement, the dynamic porcelain piece is rotated toward hot water side.
As of the invention there are also a kind of improvement, the driving component is depression bar assembly, depression bar assembly control dynamic porcelain piece with
The connection of fixed porcelain piece, and the rotation of dynamic porcelain piece is controlled, depression bar assembly includes the compression bar seat being hinged with compression bar, dynamic porcelain piece and pressure
Dynamic porcelain piece pedestal is additionally provided between pole socket, dynamic porcelain piece pedestal side fastens with the dynamic porcelain piece, and the other side is provided with
The boss matched with compression bar seat.
Compared with the prior art, the advantages of the present invention are as follows: after inlet opening is connected with water inlet groove due to driving assembly
And when gradually rotating from centre to cold water side, the conducting area of water outlet groove and the second apopore is gradually increased, and driving assembly will
After inlet opening be connected with water inlet groove and when being gradually rotated from centre to hot water side, the conducting area of water inlet groove and inlet opening by
It is tapered small, from whole, during compression bar is turned to hot water side maximum angle from cold water side maximum angle by driving assembly, out
Water is gradually reduced, easy to adjust, and it is cold water water yield maximum at the maximum angle of cold water side that driving assembly, which turns to,
Driving assembly turns at the maximum angle of hot water side to be measured at minimum and the position leaving water temperature highest for hot water effluent, is more met
User's big yield cold water rinses and two main use habits of high-temperature hot water effluent, and water outlet logic is reasonable and practical.
Detailed description of the invention
Fig. 1 is electric heating faucet the schematic diagram of the section structure of the present invention.
Fig. 2 is electric heating faucet other direction the schematic diagram of the section structure of the present invention.
Fig. 3 is electric heating faucet control valve perspective view of the explosion of the present invention.
Fig. 4 is the schematic perspective view at fixed porcelain piece first end face of the present invention.
Fig. 5 is the schematic perspective view at fixed porcelain piece second end face of the present invention.
Fig. 6 is dynamic porcelain piece schematic perspective view of the present invention.
Fig. 7 is that dynamic porcelain piece and fixed porcelain piece cooperate schematic diagram when dynamic porcelain piece of the present invention is centrally located.
Fig. 8 be when dynamic porcelain piece of the present invention is moved to that the first stage terminates, second stage starts towards cold water side dynamic porcelain piece and
Fixed porcelain piece cooperates schematic diagram.
Fig. 9 is that dynamic porcelain piece of the present invention is mobile towards cold water side and dynamic porcelain piece and fixed porcelain piece cooperation signal when in second stage
Figure.
Figure 10 is that dynamic porcelain piece and fixed porcelain piece cooperate schematic diagram when dynamic porcelain piece of the present invention is moved to maximum angle towards cold water side.
Figure 11 is that dynamic porcelain piece and fixed porcelain piece cooperate schematic diagram when dynamic porcelain piece of the present invention is mobile towards hot water side.
Figure 12 is that dynamic porcelain piece and fixed porcelain piece cooperate schematic diagram when dynamic porcelain piece of the present invention is moved to maximum angle towards hot water side.
In attached drawing: 1- heating structure, the first water inlet of 1.1-, the second water inlet of 1.2-, 1.3- depotition cock, 1.4- hot water
Runner, 1.5- cold water runner, 1.6- mix water section, 1.7- hot-water line, 1.8- cold water pipe, 1.9- jet stream mouth, 1.10- jet hole,
1.11- cushion chamber, 1.12- hot-water mouth, 1.13- hot water hole, 2- shell, 3- heating element, 4- control valve, 4.1- fixed porcelain piece,
4.1.1- water inlet, the first water outlet of 4.1.2-, the second water outlet of 4.1.3-, the inlet opening 4.1.4-, the first apopore of 4.1.5-,
4.1.6- the second apopore, the first regulating tank of 4.1.7-, the second water entering section of 4.1.7.1-, the second regulating tank of 4.1.8-, 4.2- are dynamic
Tile, 4.2.1- water inlet groove, the first water entering section of 4.2.1.1-, 4.2.2- are discharged groove, 4.2.3- auxiliary flute, 4.3- valve
Shell, 4.4- driving assembly, 4.4.1- compression bar, 4.4.2- compression bar seat, 4.4.3- dynamic porcelain piece pedestal, 4.4.4- boss, 4.5- water inlet
Pipe.
Specific embodiment
The present invention will be described in further detail below with reference to the embodiments of the drawings.
As shown in Fig. 1~12,
A kind of electric heating faucet, it includes heating structure 1, and heating structure 1 enters equipped with the first water inlet 1.1, second
The mouth of a river 1.2, depotition cock 1.3 are equipped with hot water flux 1.4 for be connected to the first water inlet 1.1 and the in heating structure 1
The cold water runner 1.5 of two water inlets 1.2 connection, hot water flux 1.4 twist and are connected to depotition cock 1.3, cold water runner
1.5 are located at the middle part of spiral hot water flux 1.4 and are connected to depotition cock 1.3 in the axial direction;
Hot water flux 1.4 can also be the thin-walled shape runner being set in outside cold water runner 1.5;
Water flow is confessed again by longer runner, can generate pressure drop, especially spiral or thin-walled shape runner,
So that water outlet hydraulic pressure becomes smaller, feed rate is slack-off for meeting, since cold water is without heating, therefore cold water is arranged in the middle part of hot water flux 1.4
Runner 1.5, cold water directly passes through cold water runner 1.5 and enters depotition cock 1.3, rather than passes through the hot water stream of spiral shape or thin-walled shape
Road 1.4 is confessed by depotition cock 1.3 again, realizes the cold water water outlet of big yield, and cold water runner 1.5 and hot water flux 1.4 every
It opens, when only needing cold water without opening the heating of hot water flux 1.4, energy saving.
Thin-walled shape runner also can with thin-walled shunt, hot water runner 1.4 be along the circumferentially-spaced distribution of cold water runner 1.5 and
It is constituted along multiple subflow roads that cold water runner 1.5 is axially arranged, the water into thin-walled shunt hot water flux 1.4 passes through subflow road
It is heated, eventually enters into depotition cock 1.3.
Wherein, hot water flux 1.4 and cold water runner 1.5, which cross, constitutes mixed water section 1.6, mixes water section 1.6 and depotition cock 1.3
Connection;Mixed water section 1.6 is the region for that can mix for cold water and heat, and temperature sensing can be set in the water outlet of mixed water section 1.6
Device, to feed back to controller with temperature signal, in order to which controller analyzes water temperature or by display screen in electric heating faucet
Outside display.
Wherein, heating structure 1 includes hot-water line 1.7, cold water pipe 1.8, and hot-water line 1.7 is set in outside cold water pipe 1.8, cold water
The pipe wall hollow of the hollow composition cold water runner 1.5 of pipe 1.8, hot-water line 1.7 constitutes spiral hot water flux 1.4, hot-water line 1.7
Water intake end be connected to the first water inlet 1.1, the water intake end of cold water pipe 1.8 is connected to the second water inlet 1.2;Cold water runner 1.5
By the hollow setting of cold water pipe 1.8, hot water flux 1.4 is hollow by hot-water line 1.7 and the spiral partition of setting is constituted, structure letter
Water in single, cold water pipe 1.8 and hot-water line 1.7 is not directly contacted with, and does not generate mixed flow, and hot-water line 1.7 is set in cold water pipe
Outside 1.8, the heat of hot-water line 1.7 is not easy conduction to cold water pipe 1.8, and thermal loss is small.
Wherein, the water outlet of cold water pipe 1.8 is equipped with jet stream mouth 1.9, is equipped with jet hole 1.10, jet hole in jet stream mouth 1.9
1.10 diameter is gradually reduced by cold water runner 1.5 towards mixed water section 1.6;Ejector principle is, under impeller of pump high speed rotation,
Liquid is sprayed with high speed from nozzle, when swiftly flowing liquid passes through mixing chamber, vacuum can be formed in mixing chamber, by air guide
Pipe sucks large quantity of air, after air enters mixing chamber, is vigorously mixed at trunnion with liquid, gas liquid mixture is formed, by spreading
Pipe discharge, the effect of jet stream mouth 1.9 herein are to spray cold water high speed by diameter diminution the exit of cold water pipe 1.8
Out, so that hot water be driven to enter mixed water section 1.6, hot water on the one hand can be improved goes out water speed, makes up some hot water in spiral
On the other hand the hydraulic pressure of 1.4 internal loss of shape hot water flux is additionally provided with water in the intersection of the first water inlet 1.1 and hot-water line 1.7
It compresses switch, hydraulic pressure switch is film structure, and whether the water entry pressure that film structure is used to incude the first water inlet 1.1 is needed with incuding
It controls heating element 3 to be heated, by the way that jet stream mouth 1.9 is arranged, when using cold water, the cold water of high speed ejection drives hot water
It is confessed upwards from depotition cock 1.3, cold water, which is not easy to be redirected back into film structure by hot water flux from mixed water section, makes glue film
Structure senses that hydraulic pressure increases and opens the heating of heating element 3, can accidentally heat to avoid heating element when cold water is discharged.
Wherein, the water outlet of hot-water line 1.7 is equipped with hot-water mouth 1.12, is equipped in hot-water mouth 1.12 for by hot water flux
1.4 hot water holes 1.13 being connected to mixed water section 1.6, the side wall setting of the corresponding jet stream mouth 1.9 of hot water hole 1.13;Heat after heated
Water is flowed out by hot-water mouth 1.12, and the side wall setting of the corresponding jet stream mouth 1.9 of hot-water mouth 1.12, and the height of hot water hole 1.13 is low
It is arranged in the water outlet end face of jet stream mouth 1.9.Enter hot water stream from hot-water mouth 1.12 to avoid the cold water that 1.9 high speed of jet stream mouth is gone out
Road 1.4, to avoid the induction pressure of the film structure of 1.4 water intake end of influence of hydraulic pressure hot water flux of cold water.
The axis of hot water hole 1.13 intersects with the axis of cold water pipe 1.8, preferably vertically, so that hot water can be flowed cold
Near the jet stream mouth 1.9 of water pipe 1.8, to improve jet stream effect;
Electric heating faucet includes the shell 2 being set in outside heating structure 1, and heating is equipped between shell 2 and hot-water line 1.7
Element 3.
Heating element 3 can be thick-film heating piece, be also possible to resistive heater etc. can by electricity to hot-water line 1.7 into
The element of row heating, herein without limiting.
Wherein, electric heating faucet further includes control valve 4, and control valve 4 includes that fixed porcelain piece 4.1 and fixed porcelain piece 4.1 cooperate
Dynamic porcelain piece 4.2, is arranged in valve casing 4.3 for controlling dynamic porcelain piece the valve casing 4.3 for fixed porcelain piece 4.1 and dynamic porcelain piece 4.2 to be arranged
The driving assembly 4.4 of 4.2 movements, 4.1 first end face of fixed porcelain piece are equipped with the water inlet 4.1.1 being connected to water inlet pipe 4.5 and first
The first water outlet 4.1.2, the second water outlet 4.1.3 being connected to the second water inlet 1.2 that water inlet 1.1 is connected to, fixed porcelain piece 4.1
Second end face is equipped with the inlet opening 4.1.4 being connected to water inlet 4.1.1, the first apopore being connected to the first water outlet 4.1.2
4.1.5, the second apopore 4.1.6 being connected to the second water outlet 4.1.3, dynamic porcelain piece 4.2 is equipped with to be cooperated with inlet opening 4.1.4
Water inlet groove 4.2.1, the water outlet groove 4.2.2 that cooperates with the first apopore 4.1.5 and/or the second apopore 4.1.6, second
End face is additionally provided with for rotating with dynamic porcelain piece 4.2 and water inlet groove 4.2.1 and water outlet groove 4.2.2 is turned on or off
The first regulating tank 4.1.7,
It is gradually rotated after inlet opening 4.1.4 is connected driving assembly 4.4 with water inlet groove 4.2.1 and from centre to cold water side
When, driving assembly 4.4 drives dynamic porcelain piece 4.2 to rotate groove 4.2.1 and water outlet groove so that the first regulating tank 4.1.7 will intake
4.2.2 it is connected and is discharged groove 4.2.2 and the conducting area of the second apopore 4.1.6 is gradually increased;
It is gradually rotated after inlet opening 4.1.4 is connected driving assembly 4.4 with water inlet groove 4.2.1 and from centre to hot water side
When, driving assembly 4.4 drives dynamic porcelain piece 4.2 to rotate groove 4.2.1 and water outlet groove so that the first regulating tank 4.1.7 will intake
4.2.2 the conducting area of conducting and groove 4.2.1 and inlet opening 4.1.4 of intaking are gradually reduced.
After inlet opening 4.1.4 is connected with water inlet groove 4.2.1 due to driving assembly 4.4 and from centre to cold water side gradually
It when rotation, is discharged groove 4.2.2 and the conducting area of the second apopore 4.1.6 and is gradually increased, driving assembly 4.4 is by inlet opening
When gradually rotating after being 4.1.4 connected with water inlet groove 4.2.1 and from centre to hot water side, intake groove 4.2.1 and inlet opening
4.1.4 conducting area is gradually reduced, and from entirety, compression bar is turned to hot water from cold water side maximum angle by driving assembly 4.4
During the maximum angle of side, water yield is gradually reduced, easy to adjust, and driving assembly 4.4 turns to the maximum of cold water side
It is cold water water yield maximum at angle, driving assembly 4.4 turns at the maximum angle of hot water side and measures minimum for hot water effluent
Place and the position leaving water temperature highest more meet two masters that user's big yield cold water rinses and highest temperature hot water effluent uses
The use habit wanted, water outlet logic are reasonable and practical.
Fig. 7~Figure 12 is that fixed porcelain piece 4.1 and dynamic porcelain piece 4.2 cooperate schematic diagram, wherein is facilitated to distinguish by dynamic porcelain piece
4.2, which are set as dotted line, shows.
Wherein, the second end face of fixed porcelain piece 4.1 is equipped with the second regulating tank 4.1.8, and dynamic porcelain piece 4.2 is equipped with auxiliary flute
4.2.3, include the after inlet opening 4.1.4 be connected driving assembly 4.4 with water inlet groove 4.2.1 and from centre to cold water side rotation
One stage and second stage,
First stage, water flow flow into the second water inlet 1.2 by the first branch, and the water flow route of the first branch is from water inlet
Mouthful 4.1.1 enters, sequentially by inlet opening 4.1.4, water inlet groove 4.2.1, the first regulating tank 4.1.7, water outlet groove 4.2.2,
Second apopore 4.1.6 finally flows into the second water inlet 1.2, in the first stage, the second apopore from the second water outlet 4.1.3
4.1.6 gradually subtract increase, also, the company of inlet opening 4.1.4 and water inlet groove 4.2.1 with the connection area of water outlet groove 4.2.2
Logical area is greater than the second apopore 4.1.6 and is discharged the connection area of groove 4.2.2,
Second stage, water flow divide two-way, all the way for by the first branch flow into the second water inlet 1.2, another way is logical
Second branch is crossed into the second water inlet 1.2, the water flow route of second branch is to enter from water inlet 4.1.1, sequentially by into
Water hole 4.1.4, auxiliary flute 4.2.3, the second regulating tank 4.1.8, water outlet groove 4.2.2, the second apopore 4.1.6, finally from
Second water outlet 4.1.3 flows into the second water inlet 1.2, in second stage, the second apopore 4.1.6 and water outlet groove 4.2.2's
Connection area continues to increase, also, the connection area and inlet opening 4.1.4 and auxiliary of inlet opening 4.1.4 and water inlet groove 4.2.1
The sum of connection area of groove 4.2.3 is greater than the second apopore 4.1.6 and is discharged the connection area of groove 4.2.2.
It is gradually increased due to meet toward water yield when cold water side rotation, and intake when toward hot water side large rotation angle
Hole 4.1.4 avoids directly being connected to the second apopore 4.1.6 and making cold water enter the second apopore 4.1.6 and influence going out for hot water
Water, therefore auxiliary flute 4.2.3 is set in the water inlet side groove 4.2.1, in the driving of driving assembly 4.4 by dynamic porcelain piece 4.2 toward cold water
When side rotates, water inlet groove 4.2.1 will not be connected to the second apopore 4.1.6, and be driven in driving assembly 4.4 by dynamic porcelain piece
4.2, toward when cold water side rotation, are discharged groove 4.2.2 and the connection area of the second apopore 4.1.6 are gradually increased, and in the first rank
The connection area of inlet opening 4.1.4 and water inlet groove 4.2.1 are always but inlet opening 4.1.4 and water inlet in reduction in section
The connection area of groove 4.2.1 is greater than the second apopore 4.1.6 and is discharged the connection area of groove 4.2.2, to guarantee to be discharged
Amount becomes larger, when the connection area of inlet opening 4.1.4 and water inlet groove 4.2.1 are recessed close to the second apopore 4.1.6 and water outlet
When the connection area of slot 4.2.2, continue dynamic porcelain piece 4.2 will lead to inlet opening 4.1.4 and water inlet groove toward cold water side rotation
4.2.1 connection area enters second-order less than the connection area of the second apopore 4.1.6 and water outlet groove 4.2.2 at this moment
Section is that auxiliary flute 4.2.3 and inlet opening 4.1.4 cooperates, and water flow enters the second apopore 4.1.6, inlet opening from second branch
4.1.4 it is greater than with the connection area of water inlet groove 4.2.1 and the sum of the connection area of inlet opening 4.1.4 and auxiliary flute 4.2.3
The connection area of second apopore 4.1.6 and water outlet groove 4.2.2 meet water yield and continue the needs increased.
When being rotated after inlet opening 4.1.4 is connected driving assembly 4.4 with water inlet groove 4.2.1 and by interphase hot water side,
Water flow enters the first water outlet 4.1.2 by third branch, and the water flow route of third branch is to enter from water inlet 4.1.1, according to
Sequence passes through inlet opening 4.1.4, water inlet groove 4.2.1, the first regulating tank 4.1.7, water outlet groove 4.2.2, the first apopore
4.1.5, finally from the first water outlet 4.1.2 flow into the second water inlet 1.2, with dynamic porcelain piece 4.2 to hot water side gradually rotate into
Water hole 4.1.4 and the connection area of water inlet groove 4.2.1 are gradually reduced.
When the heating power of heating structure 1 is constant, the smaller temperature of the water of heating is higher, therefore when hot water water is with dynamic porcelain
When piece 4.2 is gradually rotated to hot water side and is gradually reduced, leaving water temperature is gradually increased, by third branch realize hot water effluent by
It is decrescence small, consequently facilitating adjusting temperature, meet use habit.
The right side of 1.3 axis of depotition cock is arranged in cold water side, and the left side of 1.3 axis of depotition cock is arranged in hot water side.
Realize that left heat is right cold, it is consistent with the water outlet logic of general hot water tap in the market.
The maximum angle that dynamic porcelain piece 4.2 is rotated toward cold water side is 25 °~45 °, it is preferable that is 35 °.
The adjusting of cold water is only the difference of water size, therefore sets 25 °~45 ° for maximum angle, it is preferable that and it is 35 °,
It can satisfy the adjusting needs of cold water water yield under normal circumstances.
The maximum angle that dynamic porcelain piece 4.2 is rotated toward hot water side is 25 °~75 °, it is preferable that is 65 °.
The adjusting of the hot water only difference of water size, the even more adjusting of leaving water temperature, therefore set maximum angle to
25 °~75 °, it is preferable that be 65 °, biggish hot water, which adjusts stroke, can make hot water temperature range of temperature is more when adjusting
It is small, suitable leaving water temperature is adjusted to convenient for user.
Inlet opening 4.1.4 is the circumferentially extending groove along fixed porcelain piece 4.1.
Water inlet 4.1.1 is consistent in radial open height.
Inlet opening 4.1.4 relative axis X is symmetrical arranged.
The included angle α of the two sides ratio of inlet opening 4.1.4 is 90 °.
The intermediate intersection for referring to hot water and cold water switching herein, compression bar direction is upward herein, and corresponding in fixed porcelain piece 4.1
Upper is the axis X that the positive to be up, and the axis of dynamic porcelain piece 4.2 is Y and is overlapped in middle position with axis X that compression bar drives dynamic porcelain piece
4.2 towards when cold water side rotation, and the angle of axis Y and axis X is become larger by 0 °~35 °, and compression bar drives 4.2 direction of dynamic porcelain piece
When hot water side rotates, the angle of axis Y and axis X is become larger by 0 °~65 °.
Groove 4.2.1 of intaking is equipped with the first water entering section 4.2.1.1, the first regulating tank 4.1.7 and is equipped with the second water entering section
4.1.7.1, cooperate company always in driving assembly 4.4 rotation process the first water entering section 4.2.1.1 and the second water entering section 4.1.7.1
Logical, when driving assembly 4.4 drives dynamic porcelain piece 4.2 to turn at hot water side maximum angle, water outlet water is minimum, and leaving water temperature is most
It is high.
First regulating tank 4.1.7 is divided into two parts, first part be folded in inlet opening 4.1.4 and the first apopore 4.1.5 it
Between, second part is erected between the first apopore 4.1.5 and the second apopore 4.1.6.
Cooperate always in 4.4 rotation process second part of driving assembly with water outlet groove 4.2.2 and is connected to.
Second regulating tank 4.1.8 is arranged between inlet opening 4.1.4 and the second apopore 4.1.6.
When driving assembly 4.4 drives dynamic porcelain piece 4.2 to rotate towards hot water side, although water inlet groove 4.2.1 is adjusted with second
Slot 4.1.8 connection is saved, but the second regulating tank 4.1.8 and auxiliary flute 4.2.3 are disconnected with water outlet groove 4.2.2, therefore water will not
Enter the first apopore 4.1.5 by second branch, hot water effluent is caused to increase extremely.
Dynamic porcelain piece 4.2 when middle position, that is, X-axis is overlapped with Y-axis, be discharged groove 4.2.2 and the first inlet opening 4.1.4 and
Second inlet opening 4.1.4 has part connection, i.e. the heating structure 1 at middle position of dynamic porcelain piece 4.2 has just been run to portion
Water is separated to be heated.
Critical handoff angle, that is, water flow of hot water, which has from water outlet groove 4.2.2, enters the first apopore 4.1.5, is in Y-axis
It is biased to 7 ° of cold water side or so of position.
Electric heating faucet herein is pressure lever type water outlet, therefore driving assembly 4.4 is depression bar assembly, and depression bar assembly control is dynamic
The connection of tile 4.2 and fixed porcelain piece 4.1, and the rotation of dynamic porcelain piece 4.2 is controlled, depression bar assembly includes cutting with scissors with compression bar 4.4.1 phase
The compression bar seat 4.4.2 connect, is additionally provided with dynamic porcelain piece pedestal 4.4.3, dynamic porcelain piece pedestal between dynamic porcelain piece 4.2 and compression bar seat 4.4.2
4.4.3 side fastens with dynamic porcelain piece 4.2, and the other side is provided with the boss 4.4.4 matched with compression bar seat 4.4.2, compression bar group
Structure is improved in the non-the application of part, therefore details are not described herein.
Although the preferred embodiment of the present invention has been described in detail above, it is to be clearly understood that for this field
Technical staff for, the invention may be variously modified and varied.Done within the spirit and principles of the present invention
What modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.