CN207145659U - One kind switch heat control valve - Google Patents

Abstract

The utility model discloses one kind to switch heat control valve, including switch module, litter, diaphragm unit and valve component, the switch module can drive the litter to move up and down；The diaphragm unit includes primary diaphragm unit and secondary diaphragm unit；The valve component includes the first water inlet, the second water inlet and delivery port, first water inlet is opened in the primary diaphragm unit closure, second water inlet is opened in the secondary diaphragm unit closure, the liquid pools that first water inlet and second water inlet flow out to the delivery port；The litter can control the primary diaphragm unit and the secondary diaphragm unit blocks or opened first water inlet and second water inlet, and adjust the uninterrupted of first water inlet and second water inlet.The function of switch and temperature adjustment can be realized simultaneously using the switch heat control valve in the utility model, simplify structure, and it is easy to operate.

Description

One kind switch heat control valve

Technical field

It the utility model is related to bathroom hot-water heating field, more particularly to a kind of switch heat control valve.

Background technology

In sanitary ware industry, the push-button switch valve of existing tap use, due to there was only switching function, it is impossible to adjust out Water temperature, its pause function is only used mostly, front end is additionally provided with controlling the valve of temperature, and complicated, use is very inconvenient.

Therefore, it is necessary to designing a kind of can realize switch and temperature adjustment and simple in construction, easy to operate simultaneously Switch heat control valve.

Utility model content

The purpose of this utility model is overcome the deficiencies in the prior art, there is provided one kind can realize switch and temperature simultaneously Regulation and simple in construction, easy to operate switch heat control valve.

The technical solution of the utility model provides a kind of switch heat control valve, including switch module, litter, diaphragm unit and valve Body component, the switch module are arranged on above the valve component, and the top of the litter is connected with the switch module, institute The bottom for stating litter is inserted into the diaphragm unit, and the diaphragm unit is arranged in the valve component,

The switch module can drive the litter to move up and down；

The diaphragm unit includes primary diaphragm unit and secondary diaphragm unit；

The valve component includes the first water inlet, the second water inlet and delivery port, the primary diaphragm unit closure or Open first water inlet, the secondary diaphragm unit closure or open second water inlet, first water inlet and The liquid pools of second water inlet outflow are to the delivery port；

The litter can control the primary diaphragm unit and the secondary diaphragm unit to block or open described first Water inlet and second water inlet, and adjust the uninterrupted of first water inlet and second water inlet.

Further, the switch module includes pressing unit and rotary unit；

The pressing unit controls the litter to be in first position and the second place；

During first position, the litter controls the primary diaphragm unit and secondary diaphragm unit closure described first Water inlet and second water inlet；

During the second place, litter controls the primary diaphragm unit and the secondary diaphragm unit at least to open described first Water inlet or second water inlet；

The rotary unit controls the litter to move up and down regulation first water inlet on the basis of the second place With the flow of second water inlet.

Further, the pressing unit includes button, sliding block and guide, and the rotary unit includes block of spiral, institute State sliding block to be flexibly connected with the block of spiral, the block of spiral is fixedly connected with the top of the litter；

The button is pressed up and down drives the sliding block to be in first position or the second place along the guide；

During the second place, the button, which rotates, drives the sliding block to rotate, and is moved down described in the slipper push on block of spiral It is dynamic.

Further, cold water is passed through in first water inlet, hot water is passed through in second water inlet；

Regulation, including full cold mode, mixed mode and full heat pattern are moved up and down on the basis of the second place,

Full cold mode, the first water inlet standard-sized sheet, second water inlet are closed；

Mixed mode, first water inlet and second water inlet are opened；

Full heat pattern, first water inlet are closed, the second water inlet standard-sized sheet.

Further, the center of the primary diaphragm unit offers first through hole, the center of the secondary diaphragm unit Offer the second through hole, the litter passes through the first through hole and second through hole, the litter include the first recess and Second recess；

When first recess is located in the first through hole, between having between first recess and the first through hole Gap, when first recess is not located in the first through hole, the litter blocks the first through hole；

When second recess is located in second through hole, between having between second recess and second through hole Gap, when second recess is not located in second through hole, the litter blocks second through hole.

Further, the valve component includes the first valve pocket, the second valve pocket and the 3rd valve pocket, in addition to the first water inlet is led to Road and the second intake tunnel；

First valve pocket is located at the top of the primary diaphragm unit,

First intake tunnel is located at the lower section of the primary diaphragm unit；

3rd valve pocket is located at the lower section of the secondary diaphragm unit；

Second intake tunnel is located at the top of the secondary diaphragm unit；

Between the primary diaphragm unit and the secondary diaphragm unit, the delivery port is located at second valve pocket In second valve pocket, first intake tunnel is located at the upper end periphery of second valve pocket, the second intake tunnel position In the lower end of second valve pocket periphery.

Further, the first by-pass prot is further opened with the primary diaphragm unit, described in the first by-pass prot connection First intake tunnel and first valve pocket, the aperture of first by-pass prot are less than first recess and the first through hole Between gap；

The second by-pass prot is further opened with the secondary diaphragm unit, the second by-pass prot connection second water inlet is logical Road and the 3rd valve pocket, between the aperture of second by-pass prot is less than between second recess and second through hole Gap.

Further, the valve component includes upper lid, body and lower cover, the primary diaphragm unit successively from top to bottom Between the upper lid and the body, the secondary diaphragm unit is arranged between the body and the lower cover, institute The first valve pocket is stated between the upper lid and the primary diaphragm unit, second valve pocket is located in the body, described 3rd valve pocket is between the secondary diaphragm unit and the lower cover, first intake tunnel, second intake tunnel Opened up on the body with the delivery port.

Further, the center of the body is axially formed inner cylinder and outer cylinder, the inner cylinder with it is described cylindrical Radially it is spaced apart from top to bottom between cylinder and is provided with first intake tunnel, the delivery port and second intake tunnel；

The primary diaphragm unit is arranged on the upper end of the outer cylinder, and the secondary diaphragm unit is arranged on described cylindrical The lower end of cylinder；

First water inlet is between the primary diaphragm unit and the upper end of the inner cylinder, second water inlet Mouth is between the secondary diaphragm unit and the lower end of the inner cylinder.

Further, switch heat control valve also includes shell, and the valve component is installed in the housing, in the shell The first pipeline, second pipe and the 3rd pipeline are offered, first pipeline connects with first intake tunnel, and described second Pipeline connects with second intake tunnel, and the 3rd pipeline connects with the delivery port.

After adopting the above technical scheme, have the advantages that：

Litter can not only realize by the control to primary diaphragm unit and secondary diaphragm unit in the utility model One diaphragm block and secondary diaphragm unit open/close, the flow at primary diaphragm unit and secondary diaphragm unit can also be adjusted Section.When being passed through the water of different temperatures in the first water inlet and the second water inlet, the switch heat control valve in the utility model is utilized The function of switch and temperature adjustment can be realized simultaneously, simplify structure, and it is easy to operate.

Brief description of the drawings

Referring to accompanying drawing, disclosure of the present utility model will be easier to understand.It should be understood that：These accompanying drawings are used only for The purpose of explanation, and be not intended to and the scope of protection of the utility model is construed as limiting.In figure：

Fig. 1 is the stereogram that heat control valve is switched in the embodiment of the utility model one；

Fig. 2 is the explosive view for the switch module that heat control valve is switched in the embodiment of the utility model one；

Fig. 3 is the reverse side stereogram for the button that heat control valve is switched in the embodiment of the utility model one；

Fig. 4 is the lateral perspective view for the sliding block that heat control valve is switched in the embodiment of the utility model one；

Fig. 5 is the structural representation for the auxiliary guide pad that heat control valve is switched in the embodiment of the utility model one；

Fig. 6 is the stereogram for the litter that heat control valve is switched in the embodiment of the utility model one；

Fig. 7 is the explosive view for the diaphragm unit that heat control valve is switched in the embodiment of the utility model one；

Fig. 8 is the explosive view for the valve component that heat control valve is switched in the embodiment of the utility model one；

Fig. 9 is the stereogram for the shell that heat control valve is switched in the embodiment of the utility model one；

Figure 10 is the longitudinal sectional view in X-X directions in Fig. 1；

Figure 11 is the longitudinal sectional view in Y-Y directions in Fig. 1；

Figure 12 is that sectional view of the heat control valve under full cold mode is switched in the embodiment of the utility model one；

Figure 13 is that the sectional view of heat control valve in a hybrid mode is switched in the embodiment of the utility model one；

Figure 14 is that sectional view of the heat control valve under full heat pattern is switched in the embodiment of the utility model one.

The reference table of comparisons：

1- switch module 2- litter 3- diaphragm units

4- valve component 5- shell 11- buttons

12- sliding block 13- guide 14- block of spiral

15- cover 16- fixed blocks the first springs of 17-

The face nuts of six face groove 121- of 18- shell fragments 111- six

122- mounting groove 123- helicla flute 130- rectangular through-holes

131- aids in guide pad 131a- the first anchor point the second anchor points of 131b-

131c- arching trajectory 131d- straight path 132- thimbles

133- second spring 134- embedded groove 141- spires

142- guide parts 21- the first recess the second recesses of 22-

23- tops 31- primary diaphragm unit 32- secondary diaphragm units

311- first through hole 312- the first by-pass prot the second through holes of 321-

322- the second by-pass prot 41- the first water inlet the second water inlets of 42-

43- delivery ports 44- the first valve pocket the second valve pockets of 45-

Valve pocket 47- the first intake tunnel the second intake tunnels of 48- of 46- the 3rd

4b- body 4c- lower covers are covered on 4a-

4a1- guide groove 4b1- inner cylinder 4b2- outer cylinders

The pipelines of 51- the first pipeline 52- second pipes 53- the 3rd

Embodiment

Further illustrate specific embodiment of the present utility model below in conjunction with the accompanying drawings.

It is readily appreciated that, according to the technical solution of the utility model, in the case where not changing the utility model in essence spirit, this area Those skilled in the art the various structures mode and implementation that can mutually replace.Therefore, detailed description below and Accompanying drawing is only the exemplary illustration to the technical solution of the utility model, and is not to be construed as whole of the present utility model or is considered as Utility model technical scheme is defined or limited.

Mention in this manual or may mention up, down, left, right, before and after, front, the back side, top, bottom etc. Orientation term is defined relative to the construction shown in each accompanying drawing, and they are relative concepts, and it is therefore possible to can root Correspondingly changed according to its residing diverse location, different use states.So also should not be by these or others side Position term is construed to restricted term.

As Figure 1-10 shows, heat control valve, including switch module 1, litter 2, diaphragm unit 3 and valve component 4, switch are switched Component 1 is arranged on the top of valve component 4, and the top of litter 2 is connected with switch module 1, and the bottom of litter 2 is inserted into diaphragm unit In 3, diaphragm unit 3 is arranged in valve component 4,

Switch module 1 can drive litter 2 to move up and down；

Diaphragm unit 3 includes primary diaphragm unit 31 and secondary diaphragm unit 32；

Valve component 4 includes the first water inlet 41 (referring to Figure 12), the second water inlet 42 (referring to Figure 13) and delivery port 43, Primary diaphragm unit 31 blocks or opened the first water inlet 41, and secondary diaphragm unit 32 blocks or opened the second water inlet 42, the One water inlet 41 and the liquid pools of the second water inlet 42 outflow are to delivery port 43；

Litter 2 can control primary diaphragm unit 31 and secondary diaphragm unit 32 blocks or opened the first water inlet 41 and Two water inlets 42, and the uninterrupted of the first water inlet 41 of regulation and the second water inlet 42.

During work, switch module 1 can drive litter 2 to move up and down, and can be realized to the first film when litter 2 moves up and down The control of blade unit 31 and secondary diaphragm unit 32.

Specifically, when litter 2 moves down, primary diaphragm unit 31 blocks the first water inlet 41, secondary diaphragm unit 32 Block the second water inlet 42.Now, the not water outlet of delivery port 43.

When litter 2 moves up, the first water inlet 41 or the second water inlet 42 are at least opened.Now, switch module 1 is again Drive litter 2 to do moving up and down by a small margin, realize the regulation of the openings of sizes to the first water inlet 41 and the second water inlet 42. Such as：It can close the first water inlet 41, the second water inlet 42 is opened；First water inlet 41 and the second water inlet 42 are beaten Open；First water inlet 41 is opened, and the second water inlet 42 is closed.The flow of the first water inlet 41 can also be made to be more than or less than second The flow of water inlet 42.When two water inlets are passed through the water of different temperatures, it is possible to achieve the regulation to leaving water temperature.

Litter in the present embodiment can not only realize by the control to primary diaphragm unit and secondary diaphragm unit One diaphragm block and secondary diaphragm unit open/close, the flow at primary diaphragm unit and secondary diaphragm unit can also be adjusted Section.The function of switch and temperature adjustment can be realized simultaneously using the switch heat control valve in the present embodiment, simplify structure, and operate It is convenient.

As shown in figure 1, from the point of view of the outward appearance of switch heat control valve, switch heat control valve includes switch module 1 and shell 5, switchs Component 1 is arranged on the top of shell 5.Litter 2, diaphragm unit 3 and valve component 4 are arranged on the inside of shell 5.In the present embodiment Switch heat control valve include switch module 1, litter 2, diaphragm unit 3, valve component 4 and shell 5, each group is described separately below The structure of part.

Switch module:

In the present embodiment, switch module 1 includes pressing unit and rotary unit；

Pressing unit control litter 2 is in first position and the second place；

During first position, litter 2 controls primary diaphragm unit 31 and secondary diaphragm unit 32 to block the He of the first water inlet 41 Second water inlet 42；

During the second place, litter 2 controls primary diaphragm unit 31 and secondary diaphragm unit 32 at least to open the first water inlet 41 or second water inlet 42；

Rotary unit control litter 2 moves up and down the water inlet of the first water inlet of regulation 41 and second on the basis of the second place The flow of mouth 42.

Wherein, as shown in Fig. 2 pressing unit includes button 11, sliding block 12 and guide 13, rotary unit includes block of spiral 14, sliding block 12 is flexibly connected with block of spiral 14, and block of spiral 14 is fixedly connected with the top of litter 2；

Button presses band movable slider 12 and is in first position or the second place along guide 13 about 11；

During the second place, the rotational band movable slider 12 of button 11 rotates, and sliding block 12 promotes block of spiral 14 to move up and down.

Specifically, as Figure 2-3, button 11 is cylinder, and the bottom surface of button 11 offers six face grooves 111.

As shown in Figure 2 and Figure 4, the top of sliding block 12 is provided with six face nuts 121, and six face nuts 121 are inserted into six face grooves In 111, being fixedly connected between sliding block 12 and button 11 is realized.

As shown in figs. 2 and 10, the first spring 17 is arranged with outside sliding block 12, the part of the first spring 17 is set in button 11 Medial surface, it is and longitudinally upper between button 11 and cover 15.First spring 17 plays a part of returning spring.Work as button 11 downwards when pressing, and button 11 compresses the first spring 17, and when button 11 is pressed downwards again, the first spring 17 is returned to initially State, button 11 is pushed up, help button 11 is returned to downwards initial position.

As shown in Figure 10, cover 15 is set in the outside of guide 13, and guide 13 is cylindrical, the appearance of guide 13 A plane is formed on face, the plane is just bonded with the plane on the inwall of cover 15, and when button 11 rotates, button 11 drives Sliding block 12 rotates, and sliding block 12 rotates with lower moving guide 13, and guide 13 can drive cover 15 to rotate together.

As shown in Fig. 2 the center of guide 13 offers rectangular through-hole 130, the side of rectangular through-hole 130 offers insertion Groove 134.Sliding block 12 is inserted into rectangular through-hole 130.

As shown in Figure 2 and Figure 5, switch module 1 also includes auxiliary guide pad 131, thimble 132 and second spring 133；

Auxiliary guide pad 131 is embedded into the embedded groove 134 of guide 13, and guide 13 and auxiliary guide pad 131 are together It is set in outside sliding block 12, thimble 132 is inserted between auxiliary guide pad 131 and sliding block 12.

Specifically, offering mounting groove 122 on the rectangular cylinder of sliding block 12, second spring 133 is set in outside thimble 132, One end of second spring 133 is inserted into mounting groove 122, and the heart-shaped thimble that the other end is inserted into auxiliary guide pad 131 is oriented to Track.

As shown in figure 5, being provided with the first anchor point 131a and the second anchor point 131b in auxiliary guide pad 131, thimble is oriented to Track is inverted heart, includes two sections of symmetrical arching trajectory 131c and two sections of symmetrical straight path 131d, and first is fixed Site 131a is located at the peak of thimble guide track.

Specifically, arching trajectory 131c length is more than straight path 131d length, the first anchor point 131a is positioned at top The peak of pin guide track, and two arching trajectory 131c peak, the second anchor point 131b are located at two straight line rails Mark 131d peak, but it is lower than the first anchor point 131a height.When button 11 is pressed, sliding block 12 drives the edge of thimble 132 Thimble guide track moves, and presses once, thimble 132 is rested on the first anchor point 131a, then is pressed once, and thimble 132 stops Stay on the second anchor point 131b.

As shown in figs. 10-11, litter 2 is in first position in figure, and now thimble 132 rests on the second anchor point 131b On.As shown in figs. 12-14, litter 2 is in the second place, and now thimble 132 is rested on the first anchor point 131a.

As shown in figs. 2 and 10, switch module 1 also includes shell fragment 18 and fixed block 16.There is sawtooth on the top of fixed block 16 Portion, shell fragment 18 contact with sawtooth portion.Because shell fragment 18 is fixed on the bottom of cover 15, fixed block 16 is fixed with valve component 4 to be connected Connect, fixed block 16 is motionless.When button 11 rotates, band spring plate 18 rotates together.When shell fragment 18 rotates, fixed block 16 Motionless, shell fragment 16 sends sound with the collision of sawtooth portion, and lower water temperature state is now in for reminding, and adds rotation and adjust The feel of section.

As shown in figs. 2 and 10, the block of spiral 14 of rotary unit includes spire 141 and guide part 142.Spire 141 For spiral projection, guide part 142 is semicircular raised line.

As shown in figure 4, the bottom of sliding block 12 offers helicla flute 123, spire 141 is screwed in helicla flute 123.Guide part 142 coordinate with the upper lid 4a of valve component 4 guide groove 4a1, and guide part 142 can slide up and down along guide groove 4a1.

When litter 2 is in the second place, button 11 is rotated with movable slider 12, and now the height and position of sliding block 12 is kept not Become, block of spiral 14 is pushed when sliding block 12 rotates and is moved up and down, guide part 142 moves up and down along guide groove 4a1.Block of spiral 14, which drives, to be slided Pole 2 moves up and down.

Alternatively, switch module 1 can also realize first position and the second place to litter 2 using other modes Switching.Such as：The moving up and down to first position and the second place of litter 2 is controlled similar to the pressing structure of ball pen.

Litter：

As shown in fig. 6, litter 2 includes the first recess 21 and the second recess 22, in addition to top 23.Top 23 and block of spiral 14 are fixedly connected.First recess 21 coordinates with primary diaphragm unit 31, and the second recess 22 coordinates with secondary diaphragm unit 32.First Recess 21 is located at the top of the second recess 22.

Diaphragm unit：

As illustrated in fig. 7 and fig. 10, the center of primary diaphragm unit 31 offers first through hole 311, secondary diaphragm unit 32 Center offer the second through hole 321, litter 2 passes through the through hole 321 of first through hole 311 and second, and litter 2 includes the first recess 21 With the second recess 22；

When first recess 21 is located in first through hole 311, there is gap between the first recess 21 and first through hole 311, first When recess 21 is not located in first through hole 311, litter 2 blocks first through hole 311；

When second recess 22 is located in the second through hole 321, there is gap between the second recess 22 and the second through hole 321, second When recess 22 is not located in the second through hole 321, litter 2 blocks the second through hole 321.

Further, as illustrated in fig. 7 and fig. 10, the first by-pass prot 312 is further opened with primary diaphragm unit 31, by the of first Through hole 312 connects the first intake tunnel 47 and the first valve pocket 44, the aperture of the first by-pass prot 312 are less than the first recess 21 and first Gap between through hole 311；

The second by-pass prot 322 is further opened with secondary diaphragm unit 32, the second by-pass prot 322 connects the second intake tunnel 48 With the 3rd valve pocket 46, the aperture of the second by-pass prot 322 is less than the gap between the second recess 22 and the second through hole 321.

Valve component：

As shown in figs, valve component 4 includes upper lid 4a, body 4b and lower cover 4c, the first film successively from top to bottom Blade unit 31 is arranged between upper lid 4a and body 4b, and secondary diaphragm unit 32 is arranged between body 4b and lower cover 4c, and first Between upper lid 4a and primary diaphragm unit 31, the second valve pocket 45 is located in body 4b valve pocket 44, and the 3rd valve pocket 46 is positioned at the Between two diaphragm blocks 32 and lower cover 4c, the first intake tunnel 47, the second intake tunnel 48 and delivery port 43 are opened in body 4b On.

As shown in Figure 10, valve component 4 includes the first valve pocket 44, the second valve pocket 45 and the 3rd valve pocket 46, in addition to first The intake tunnel 48 of intake tunnel 47 and second；

First valve pocket 44 is located at the top of primary diaphragm unit 31,

First intake tunnel 47 is located at the lower section of primary diaphragm unit 31；

3rd valve pocket 46 is located at the lower section of secondary diaphragm unit 32；

Second intake tunnel 48 is located at the top of secondary diaphragm unit 32；

For second valve pocket 45 between primary diaphragm unit 31 and secondary diaphragm unit 32, delivery port 43 is located at the second valve pocket In 45, the first intake tunnel 47 is located at the upper end periphery of the second valve pocket 45, and the second intake tunnel 48 is located under the second valve pocket 45 End periphery.

As shown in Figure 10, body 4b center is axially formed inner cylinder 4b1 and outer cylinder 4b2, inner cylinder 4b1 with it is cylindrical Radially it is spaced apart from top to bottom provided with the first intake tunnel 47, the intake tunnel 48 of delivery port 43 and second between cylinder 4b2；

Primary diaphragm unit 31 is arranged on outer cylinder 4b2 upper end, and secondary diaphragm unit 32 is arranged under outer cylinder 4b2 End；

Between primary diaphragm unit 31 and inner cylinder 4b1 upper end, second enters first water inlet 41 (referring to Figure 12) The mouth of a river 42 (referring to Figure 13) is located between secondary diaphragm unit 32 and inner cylinder 4b1 lower end.

Shell：

As shown in figures 9 and 11, switch heat control valve also includes shell 5, and valve component 4 is arranged in shell 5, in shell 5 The first pipeline 51, the pipeline 53 of second pipe 52 and the 3rd are offered, the first pipeline 51 connects with the first intake tunnel 47, the second pipe Road 52 connects with the second intake tunnel 48, and the 3rd pipeline 53 connects with delivery port 43.

The course of work of switch heat control valve in the present embodiment is as follows：

Cold water is passed through in first water inlet 41, hot water is passed through in the second water inlet 42；

During first position, the first water inlet 41 and the second water inlet 42 are closed, and are close pattern.

When moving up and down regulation on the basis of the second place, including full cold mode, mixed mode and full heat pattern,

Full cold mode, the standard-sized sheet of the first water inlet 41, the second water inlet 42 are closed；

Mixed mode, the first water inlet 41 and the second water inlet 42 are opened；

Full heat pattern, the first water inlet 41 are closed, the standard-sized sheet of the second water inlet 42.

Close pattern：

As shown in figs. 10-11, button press 11 pushes, and button 11 pushes with movable slider 12, and it is fixed that thimble 132 enters second In the 131b of site, sliding block 12 drives litter 2 to move down by block of spiral 14.Now litter 2 is in first position, and the first recess 21 is not In first through hole 311, the epimere closure first through hole 311 of the first recess 21；Now, the second recess 22 is not also located at second In through hole 321, the epimere of the second recess 22 blocks the second through hole 321.

Because the top of primary diaphragm unit 31 is the first valve pocket 44, the periphery of lower section is the first intake tunnel 47, center For the second valve pocket 45.Second valve pocket 45 due to being connected with delivery port 43, what the water of the second valve pocket 45 flowed towards delivery port 43.Cause This pressure acted on primary diaphragm unit 31 only has the hydraulic pressure of the first valve pocket 44 and the first intake tunnel 47.Again due to first The first intake tunnel 47 of connection of bypass 312 and the first valve pocket 44, the first intake tunnel 47 is identical with the pressure of the first valve pocket 44, but It is due to that the lifting surface area of the lower surface of primary diaphragm unit 31 is less than the lifting surface area of upper surface, therefore the pressure of upper surface is more than The pressure of lower surface, primary diaphragm unit 31 and inner cylinder 4b1 upper end are compressed, so as to block the first water inlet 41.Due to The pressure of the upper and lower surface of primary diaphragm unit 31 is identical, and the control to primary diaphragm unit 31 is not by the shadow of hydraulic pressure size Ring, 11, button needs less power can control primary diaphragm unit 31.

Similarly, because litter 2 blocks the second through hole 321 of secondary diaphragm unit 32, the following table of secondary diaphragm unit 32 The pressure in face is more than the pressure of upper surface, and secondary diaphragm unit 32 and inner cylinder 4b1 lower end are compressed, entered so as to block second The mouth of a river 42.

Therefore, during first position, the first water inlet 41 and the second water inlet 42 are turned off, and do not have current in delivery port 43 Go out.In the present embodiment, when button 11 is pushed, it is possible to achieve the closing of water outlet.

Full cold mode：

As shown in figure 12, button press 11, thimble 132 are navigated on the first anchor point 131a again, and sliding block 12 rises, the One spring 17 resets, and button 11 also rises.Sliding block 12 drives block of spiral 14 to rise, and block of spiral 14 drives litter 2 to rise.Now slide Pole 2 is in the second place.

After litter 2 rises, the first recess 21 is located in first through hole 311, has between the first recess 21 and first through hole 311 Gap, water can be flowed through from gap, and the water in the first valve pocket 44 is flowed into the second valve pocket 45 by gap.Release primary diaphragm list The pressure of first 31 upper surfaces, the hydraulic pressure of the first intake tunnel 47 wash primary diaphragm unit 31 open upwards, open the first delivery port 41。

Now, the part of the second recess 22 is located in the second through hole 321, but the epimere of the second recess 22 still blocks the second through hole 321, secondary diaphragm unit 32 still closes the second water inlet 42.

During full cold mode, only the first water inlet 41 is passed through cold water, and the signified direction of the arrow in Figure 12 is the flowing of water Direction.Cold water enters the first intake tunnel 47 from the first pipeline 51, then intakes again to the first water inlet 41, finally from water outlet Mouth 43 flows out.Therefore, the water that delivery port 43 flows out only has cold water, is full cold mode.

Mixed mode：

As shown in figure 13, on the basis of Figure 12 full cold mode, turn knob 11, button 11 rotates with movable slider 12, Sliding block 12 drives block of spiral 14 to move down, and block of spiral 14 drives litter 2 also to move down.

During litter 2 moves down, primary diaphragm unit 31 is driven to move down together so that the flow of the first water inlet 41 becomes It is small.

Now, the second recess 22 of litter 2 is located in the second through hole 321, has between the second recess 22 and the second through hole 321 Gap, water can be flowed through from gap, and the water in the 3rd valve pocket 46 is flowed into the second valve pocket 45 by gap.Release secondary diaphragm list The pressure of first 32 lower surfaces, the hydraulic pressure of the second intake tunnel 48 wash downwards secondary diaphragm unit 32 open, open the second delivery port 42.Therefore, the water imported in delivery port 43 includes the cold water of the first water inlet 41 and the hot water of the second water inlet 42.Belong to mixing Water, can be with trim button 11 in order to adjust the water temperature of mixing water.Such as：When litter 2 slightly moves down, the first water inlet 41 Flow is reduced, the flow increase of the second water inlet 42, the water temperature increase that delivery port 43 flows out.When litter 2 slightly moves up, The flow increase of first water inlet 41, the flow of the second water inlet 42 are reduced, and the water temperature that delivery port 43 flows out reduces.

Full heat pattern：

As shown in figure 14, button 11 is rotated further on the basis of Figure 13, litter 2 continues to move down.Until the closure of litter 2 the The first through hole 311 of one diaphragm block 31.Now primary diaphragm unit 31 is again switched off the first water inlet 41.

Meanwhile litter 2, when moving down, secondary diaphragm unit 32 moves down with litter 2, the standard-sized sheet of the second water inlet 42.Only The hot water of second pipe 52 flows into the second water inlet 42, then is flowed out from delivery port 43.It is now full heat pattern.

In any pattern of full cold mode, mixed mode and full heat pattern, as long as button 11 is pressed downwards again, Litter 2 will block the first through hole 311 of primary diaphragm unit 31 and the second through hole 321 of secondary diaphragm unit 32, the first film Blade unit 31 and secondary diaphragm unit 32 can then close the first water inlet 41 and the second water inlet 42, return to first position, that is, close Close pattern.Not in the case of turn knob 11, button press 11 again, the pattern returned to before closing.

The utility model realizes the switching to litter first position and the second place by button press, during first position, Switch heat control valve is close pattern.During the second place, switch heat control valve can be out of the water, and can adjust water temperature.By to button Rotate, be divided into full cold mode, mixed mode and full heat pattern again during water outlet.Switch heat control valve in the utility model can be simultaneously The function of switch and temperature adjustment is realized, simplifies structure, and it is easy to operate.

The above is only principle and preferred embodiment of the present utility model.It should be pointed out that the common skill for this area For art personnel, on the basis of the utility model principle, some other modifications can also be made, also should be regarded as the utility model Protection domain.

Claims (10)

1. one kind switch heat control valve, including switch module, litter, diaphragm unit and valve component, the switch module are arranged on Above the valve component, the top of the litter is connected with the switch module, and the bottom of the litter is inserted into the film In piece component, the diaphragm unit is arranged in the valve component, it is characterised in that

The switch module can drive the litter to move up and down；

The diaphragm unit includes primary diaphragm unit and secondary diaphragm unit；

The valve component includes the first water inlet, the second water inlet and delivery port, the primary diaphragm unit closure or opening First water inlet, secondary diaphragm unit closure or opens second water inlet, first water inlet and described The liquid pools of second water inlet outflow are to the delivery port；

The litter can control the primary diaphragm unit and the secondary diaphragm unit to block or open first water inlet Mouth and second water inlet, and adjust the uninterrupted of first water inlet and second water inlet.

2. switch heat control valve according to claim 1, it is characterised in that the switch module includes pressing unit and rotation Unit；

The pressing unit controls the litter to be in first position and the second place；

During first position, the litter controls the primary diaphragm unit and secondary diaphragm unit closure first water inlet Mouth and second water inlet；

During the second place, litter controls the primary diaphragm unit and the secondary diaphragm unit at least to open first water inlet Mouth or second water inlet；

The rotary unit controls the litter to move up and down regulation first water inlet and institute on the basis of the second place State the flow of the second water inlet.

3. switch heat control valve according to claim 2, it is characterised in that the pressing unit includes button, sliding block and led To part, the rotary unit includes block of spiral, and the sliding block is flexibly connected with the block of spiral, the block of spiral and the litter Top be fixedly connected；

The button is pressed up and down drives the sliding block to be in first position or the second place along the guide；

During the second place, the button, which rotates, drives the sliding block to rotate, and block of spiral described in the slipper push moves up and down.

4. switch heat control valve according to claim 2, it is characterised in that cold water is passed through in first water inlet, it is described Hot water is passed through in second water inlet；

Regulation, including full cold mode, mixed mode and full heat pattern are moved up and down on the basis of the second place,

Full cold mode, the first water inlet standard-sized sheet, second water inlet are closed；

Mixed mode, first water inlet and second water inlet are opened；

Full heat pattern, first water inlet are closed, the second water inlet standard-sized sheet.

5. switch heat control valve according to claim 1, it is characterised in that the center of the primary diaphragm unit offers One through hole, the center of the secondary diaphragm unit offer the second through hole, and the litter is through the first through hole and described the Two through holes, the litter include the first recess and the second recess；

When first recess is located in the first through hole, there is gap between first recess and the first through hole, institute When stating the first recess not in the first through hole, the litter blocks the first through hole；

When second recess is located in second through hole, there is gap between second recess and second through hole, institute When stating the second recess not in second through hole, the litter blocks second through hole.

6. switch heat control valve according to claim 5, it is characterised in that the valve component includes the first valve pocket, second Valve pocket and the 3rd valve pocket, in addition to the first intake tunnel and the second intake tunnel；

First valve pocket is located at the top of the primary diaphragm unit,

First intake tunnel is located at the lower section of the primary diaphragm unit；

3rd valve pocket is located at the lower section of the secondary diaphragm unit；

Second intake tunnel is located at the top of the secondary diaphragm unit；

Second valve pocket is between the primary diaphragm unit and the secondary diaphragm unit, and the delivery port is positioned at described In second valve pocket, first intake tunnel is located at the upper end periphery of second valve pocket, and second intake tunnel is located at institute State the lower end periphery of the second valve pocket.

7. switch heat control valve according to claim 6, it is characterised in that be further opened with first on the primary diaphragm unit By-pass prot, first by-pass prot connect first intake tunnel and first valve pocket, the aperture of first by-pass prot Less than the gap between first recess and the first through hole；

Be further opened with the second by-pass prot on the secondary diaphragm unit, second by-pass prot connect second intake tunnel and 3rd valve pocket, the aperture of second by-pass prot are less than the gap between second recess and second through hole.

8. switch heat control valve according to claim 6, it is characterised in that the valve component includes upper successively from top to bottom Lid, body and lower cover, the primary diaphragm unit are arranged between the upper lid and the body, the secondary diaphragm unit peace Between the body and the lower cover, first valve pocket is between the upper lid and the primary diaphragm unit, institute State the second valve pocket to be located in the body, the 3rd valve pocket is described between the secondary diaphragm unit and the lower cover First intake tunnel, second intake tunnel and the delivery port open up on the body.

9. switch heat control valve according to claim 8, it is characterised in that the center of the body is axially formed inner cylinder And outer cylinder, between the inner cylinder and the outer cylinder radially from top to bottom be spaced apart provided with first intake tunnel, The delivery port and second intake tunnel；

The primary diaphragm unit is arranged on the upper end of the outer cylinder, and the secondary diaphragm unit is arranged on the outer cylinder Lower end；

First water inlet is between the primary diaphragm unit and the upper end of the inner cylinder, the second water inlet position Between the secondary diaphragm unit and the lower end of the inner cylinder.

10. according to the switch heat control valve described in claim any one of 6-9, it is characterised in that switch heat control valve also includes shell, The valve component installation in the housing, offers the first pipeline, second pipe and the 3rd pipeline in the shell, described First pipeline connects with first intake tunnel, and the second pipe connects with second intake tunnel, the 3rd pipe Road connects with the delivery port.