A kind of bubbler and bubble water method for yielding water thereof
Technical field
The present invention relates to the bathroom field, especially a kind of water side of water pipe of being located at is to produce the bubbler of bubble water.
Background technology
Therefore bubbler can be located at the water side of tap, and it can make current and air fully mix, and forms perfectly round soft bubble water, makes that not only water outlet is attractive in appearance, can also the conserve water flow, guaranteed clean result preferably simultaneously, and be subjected to extensively liking of user.Along with the idea of conserve water resource is rooted in the hearts of the people day by day, engineers and technicians are devoted to improve constantly the bubbler structure, so that bubbler has better water-saving result, as Chinese patent application CN200610168578.3, name is called the invention of " sanitary build-in piece ", it has disclosed a kind of insert that sprays in the adjusting device of being located at, and its structure is Box junction formula or grating type, yet this structure is unsatisfactory to the castering action of water-saving result.
Summary of the invention
The invention provides a kind of bubbler and bubble water method for yielding water thereof, it has solved the deficiency in the background technology, has better water-saving result.
One of the technical solution adopted for the present invention to solve the technical problems is:
A kind of bubbler, it comprises a body, described body is provided with a plurality of air admission holes, it in it intake tunnel at a connection water source, described intake tunnel has a water inlet end and a sudden change chamber, described air admission hole is inside and outside described sudden change chamber, the area of section of the described relatively water inlet end of area of section in described sudden change chamber is uprushed to form negative pressure in described sudden change chamber, one helical form insert is located in the described sudden change chamber, current enter described sudden change chamber to be mixed with the air that enters described air admission hole, is subjected to suction function to form bubble water and is also broken up by it through described helical form insert.
In one preferred embodiment, it comprises that also a filter screen and one fen water body are covered on described water inlet end successively, and described minute water body has the intake chamber of the described water inlet end of a connection, and a plurality of tapping holes are located at the groove face of described intake chamber.
In one preferred embodiment, described helical form insert is a biconial, is provided with a reference column that protrudes in the described body, and inner circumferential surface also is provided with one first positioning step, and described helical form insert passes described reference column and is positioned described first positioning step.
In one preferred embodiment, described helical form insert is taper.
In one preferred embodiment, described helical form insert is a double layered cone, is provided with a reference column in the described body, and described reference column is provided with the positioning step adaptive with the top of described helical form insert.
In one preferred embodiment, described helical form insert is the shape of similar hourglass, and it comprises first and second portion, and described first is a taper, described second portion be one with described first be the back taper of one, the awl point of described first and second portion joins.
In one preferred embodiment, described helical form insert is a spheroidal.
In one preferred embodiment, described helical form insert is an elastic component.
Two of the technical solution adopted for the present invention to solve the technical problems is:
A kind of bubble water method for yielding water of bubbler, it comprises the steps:
Step 1. is opened the water source, and current enter intake chamber from filter screen, forms the wire current behind the tapping hole of undue water body;
Step 2. wire current then enter the sudden change chamber, and air also enters the sudden change chamber from air admission hole, and the wire current are become by suction function and penetrate the shape current, mix back formation then with air and penetrate shape bubble water;
Step 3. is penetrated shape bubble water through the helical form insert, is subjected to its effect of breaing up and more even.
This bubbler is compared with background technology, has the following advantages:
1. a helical form insert is set in the bubbler, can breaks up current and make it more even, inhaled air is more, so water-saving result is better;
2. body is provided with a plurality of air admission holes, intrinsic sudden change chamber area of section is made as the area of section of relative water inlet end and uprushes, so can produce negative pressure in the chamber that suddenlys change, after entering the sudden change chamber, mix in current with the air that enters air admission hole, under suction function, form and penetrate shape bubble water, bubble water water outlet principle is simple, and inspiratory effects is obvious;
3. filter screen and divide water body to be covered on successively on the body water inlet end, so current before entering the sudden change chamber, be subjected to filter screen filtration and by elimination impurity, then through the tapping hole of undue water body, make original tubular water stream become the wire current;
4. the helical form insert is designed to biconial, correspondingly, is provided with the reference column and first positioning step that are used for setting screw shape insert in the body, and member cooperates compact, and structure is firm;
5. the helical form insert also can be designed to taper, when two helical form inserts are superimposed together and are installed in the bubbler, be double layered cone this moment, correspondingly, body is provided with a reference column, described reference column is provided with two positioning steps, and when the top of two helical layer inserts was resisted against two positioning steps respectively, two-layer helical form insert can be not overlapping in the time of can guaranteeing high hydraulic pressure;
6. the helical form insert also can be designed to the shape or the spheroidal of similar hourglass, also can realize preferable water-saving result;
7. the helical form insert is an elastic component, can be arranged at neatly in the intake tunnel, and ductility is good;
8. the bubbler processing procedure is simple, installs fast between each member, has reduced manufacturing cost, helps suitability for industrialized production.
Description of drawings
The invention will be further described below in conjunction with drawings and Examples.
Fig. 1 is the explosive view of the bubbler of first embodiment, and this moment, the helical form insert was a biconial.
Fig. 2 is the cutaway view of the bubbler of first embodiment, and this moment, the helical form insert was a biconial.
Fig. 3 is the explosive view of the bubbler of second embodiment, and this moment, the helical form insert was a biconial.
Fig. 4 is the cutaway view of the bubbler of second embodiment, and this moment, the helical form insert was a biconial.
Fig. 5 is the explosive view of the bubbler of the 3rd embodiment, and this moment, the helical form insert was a double layered cone.
Fig. 6 is the cutaway view of the bubbler of second embodiment, and this moment, the helical form insert was a double layered cone.
Schematic perspective view when Fig. 7 is designed to other shape for the helical form insert, this moment, the helical form insert was taper.
Schematic perspective view when Fig. 8 is designed to other shape for the helical form insert, this moment, the helical form insert was similar hourglass shape.
Schematic perspective view when Fig. 9 is designed to other shape for the helical form insert, this moment, the helical form insert was a spheroidal.
Description of reference numerals:
Body-100; Air admission hole-110; Intake tunnel-120; Water inlet end-121; Sudden change chamber-122; Water side-123; Reference column-130; First positioning step-140; Second and third positioning step-131,132; Commutator segment-150; Filter screen-200; Filtering holes-210; Divide water body-300; Intake chamber-310; Tapping hole-320; Helical form insert-410,420,430,440; First-431; Second portion-432; Filter-510,520; Flange-521.
The specific embodiment
See also Fig. 1 to Fig. 2, be the bubbler that the first embodiment of the present invention provided.
This bubbler comprises a body 100, a filter screen 200, one minute water body 300, a helical form insert 410 and a filter 510, and wherein said body 100, described filter screen 200 and described minute water body 300 are connected by buckle, install quicker.
It in the described body 100 intake tunnel 120 at a connection water source, its side face is provided with a plurality of air admission holes 110 that run through, described intake tunnel 120 has a water inlet end 121, a sudden change chamber 122 and a water side 123, described air admission hole 110 penetratingly is located at inside and outside the described sudden change chamber 122, and the area of section in described sudden change chamber 122 is designed to the area of section of described relatively water inlet end 121 and uprushes; The end face central protuberance of described body 100 forms a reference column 130; The inner peripheral surface of described body 100 is provided with first positioning step 140 of an annular; One commutator segment 150 is fixed in the water side 123 of described body 100 and is one with described body 100, and described commutator segment 150 is made up of a plurality of S shape ribs;
Described filter screen 200 is a conical screen, its end face is provided with a plurality of filtration through holes 210, described filter screen 200 is covered on described minute water body 300, described minute water body 300 is covered on the water inlet end 121 of described body 100, described minute water body 300 has the intake chamber 310 of the described water inlet end 121 of a connection, and its groove face is provided with a plurality of tapping holes that run through 320;
This bubbler also comprises a filter 510, and its material is a stainless steel, and its end face is abutted against the end face of described commutator segment 150;
Described helical form insert 410 is located in the described intake tunnel 120, in the present embodiment, it is the elastic component of a biconial, the center is hollow, and two ends are awl point, the area of section maximum at middle part, the area of section at two ends narrows gradually along its awl point, the awl point at described helical form insert 410 two ends is resisted against the bottom surface of described minute water body 300 and the end face of described filter 510 respectively, and the reference column 130 of described body 100 is passed at its center, outer peripheral face against and be positioned described first positioning step 140.
Bubbler structure with first embodiment is an example below, and the bubble water method for yielding water of bubbler of the present invention is described:
Open the water source, current are along the filtering holes 210 of water pipe by filter screen 200, be subjected to the filtration of filtering holes 210 and removed most of impurity, then enter the intake chamber 310 of branch water body 300, pass the water inlet end 121 of tapping hole 320 to enter body 100 of intake chamber 310 groove faces then, make its current shape become wire by tubulose, because being designed to the area of section of relative water inlet end 121, the area of section in sudden change chamber 122 uprushes, therefore after current enter sudden change chamber 122 from described water inlet end 121, to in sudden change chamber 122, produce negative pressure, water velocity is uprushed, the wire current become penetrates the shape current, and this moment, air also entered sudden change chamber 122 from the air admission hole 110 of body 100, penetrated the shape current and fully mixed with air, shape bubble water is penetrated in generation, then pass helical form insert 410, broken up by it and more evenly soft, penetrate of the rectified action of shape bubble water then through filter 510 and commutator segment 150, finally flow out, be perfectly round soft bubble water from the water side 123 of described body 100.
Through experiment measuring, at identical time (10s), uniform pressure (0.3MPa), under the same terms such as identical delivery port, the flow that bubbler of the present invention shows is 1600m1, and the Chinese application number CN200610168578.3 of background technology, name is called the invention of " sanitary build-in piece ", the flow of its demonstration is 1750ml, and the two is compared, and the water-saving result of bubbler of having used the helical form insert is better.
Fig. 3 to Fig. 4 has illustrated the second embodiment of the present invention, and the structure of itself and first embodiment is roughly the same, and the structure of its helical form insert 410 also is the biconial among first embodiment, and difference is that its filter 520 has a flange 521; Reference column and positioning step are not set in the body 100, and during installation, helical form insert 410 is directly to be located within the described intake tunnel 120, need not to rely on reference column and positioning step and locatees.
Fig. 5 to Fig. 6 has illustrated the third embodiment of the present invention, and the difference of itself and first embodiment is: its filter 520 has a flange 521; One reference column 130 is set in the body 100, described reference column 130 has two positioning steps 131,132, helical form insert 420 is taper, as shown in Figure 7, during installation, two helical form inserts 420 with different center bore sizes are superimposed together, form the pair of lamina taper, when guaranteeing high hydraulic pressure, two helical form inserts 420 can not overlap, the tip designs of the helical form insert 420 of top layer is for being resisted against described second positioning step 131, and the tip designs of the helical form insert 420 of bottom is for being resisted against described the 3rd positioning step 132, and the bottom of two-layer helical form insert 420 all is resisted against described flange 521.
Second, third embodiment of the present invention, its bubble water method for yielding water is basically the same as those in the first embodiment, and does not give unnecessary details at this.
The shape of helical form insert also can be designed to other form, as the helical form insert 430 of similar hourglass shape among Fig. 8, and spheroidal helical form insert 440 shown in Figure 9.
Among Fig. 8, described helical form insert 430 comprises first 431 and the second portion 432 that is taper, and its upper and lower settings is an one also, and the awl point of described second portion 432 is supported and connects on the awl pinnacle of wherein said first 431.
The above, only for preferred embodiment of the present invention, so can not limit scope of the invention process according to this, i.e. the equivalence of doing according to claim of the present invention and description changes and modification, all should still belong in the scope that the present invention contains.