CN102688817A - Device for discharging high-frequency pulse water - Google Patents

Abstract

The invention discloses a device for outputting high-frequency pulsed water, which is provided with a water inlet (100), a strengthening chamber (200) and two diversion waterways (300). The reinforcement cavity (200) is a structure with a small head and a large tail, and the head is connected to the water inlet (100), and a vortex cavity (210) is arranged on its left and right side walls. The inlet port of the two-divided waterway (300) is respectively connected to the left and right sides of the reinforcement chamber (200), and the outlet port of the two-divided waterway (300) is respectively connected to the junction of the water inlet (100) and the reinforced chamber (200), and the two-divided waterway (300) ) are provided with outlet holes (310). It has the following advantages: the water flow enters the reinforcement chamber from the water inlet, and the vortex can be formed in the vortex chamber, thus enhancing the water flow adsorption capacity of the reinforcement chamber, part of the water flow in the water distribution channel is directly ejected through the outlet hole, and the other part is flushed back to the water inlet At the junction with the reinforcement chamber, the water flow entering the reinforcement chamber by impacting the water inlet channel makes it rush into another branch water channel, and feedback is similarly performed, thereby forming a high-frequency impact effect in the water outlet hole.

Description

A device that emits high-frequency pulsed water

technical field

The invention relates to a device for producing high-frequency pulsed water.

Background technique

The traditional device for producing high-frequency pulsed water produces the effect of water flow frequency through moving parts, and produces a strong and sometimes weak water discharge effect. It has the disadvantages of complex structure, easy wear of moving parts, reduced service life, and unstable water discharge.

Contents of the invention

The invention provides a device for generating high-frequency pulsed water, which overcomes the shortcomings of the traditional device for generating high-frequency pulsed water in the background art.

The adopted technical scheme that the present invention solves its technical problem is:

A device for outputting high-frequency pulsed water, it is provided with a main waterway, and the said main waterway includes a water inlet (100), a strengthening cavity (200) and two symmetrically arranged water diversions (300) around the strengthening cavity (200); The reinforcing cavity (200) has a large structure with a small head and a large tail, and the head is connected to the water inlet (100). The left and right side walls of the reinforcing cavity (200) are provided with a vortex cavity (210) for forming a vortex to enhance fluid suction. Inlet capacity; the water distribution channel (300) has an inlet port and an outlet port, the inlet ports of the two water distribution channels (300) are respectively connected to the left and right sides of the reinforcement cavity (200), and the outlet ports of the two water distribution channels (300) are respectively connected to the Water outlet holes (310) are provided at the junction of the water inlet passage (100) and the reinforcement chamber (200), and the two water passages (300).

In a preferred embodiment: the angle between the left and right side walls of the reinforcement chamber (200) is 10°-35°.

In a preferred embodiment: the head width of the reinforcing cavity (200) is greater than the width of the water inlet channel (100).

In a preferred embodiment: the axis of the outlet hole (310) is perpendicular to the main waterway.

In a preferred embodiment: the water distribution channel (300) has an inlet section (320), an outlet section (330) and a The water dividing section (340), the inlet of the inlet end section (320) is an inlet port, the outlet of the outlet end section (330) is an outlet port, and the water outlet hole (310) is located in the water dividing section (340), And the width of the outlet section (330) is smaller than the width of the water diversion section (340).

In a preferred embodiment: the exit section (330) is perpendicular to the axis of the reinforcement cavity (200).

In a preferred embodiment: the inner wall of the entry end section (320) is smoothly transitioned to the side wall of the reinforcement cavity (200); the water separation section (340) is connected to the entry end section (320) in a smooth transition; the The inner wall of the outlet end section (330) and the inner wall of the water diversion section (340) are connected in a smooth transition.

In a preferred embodiment: an arc-shaped groove (220) is recessed in the middle of the tail of the reinforcing chamber (200) and located between the two water diversion channels (300).

In a preferred embodiment: the width of the inlet end section (320) increases continuously according to the water flow direction.

In a preferred embodiment: it is provided with a plurality of main waterways, and the plurality of main waterways are arranged in a circular arrangement.

Compared with the background technology, this technical solution has the following advantages:

1. The water flow enters the reinforcement chamber from the water inlet, and the vortex can be formed in the vortex chamber, so the water adsorption capacity of the reinforcement chamber is enhanced. Part of the water flow in the water distribution channel is directly injected through the outlet hole, and the other part is flushed back to the water inlet and the reinforcement chamber. At the connection, the water flow that hits the water inlet and enters the reinforcing chamber makes it rush into another water diversion, and the feedback is similar, so that a high-frequency impact effect is formed in the water outlet. It overcomes the shortcomings of the background technology and produces The technical effects are as follows: a. High-frequency pulsed water is generated by designing the flow direction, which has low cost, long life and stable frequency; b. It has a good effect of cleaning and flushing, and produces good social and economic benefits;

2. The angle between the left and right side walls of the reinforced cavity is 10°-35°, the vortex effect is good and the frequency is stable;

3. The width of the head of the reinforcement cavity is larger than that of the water inlet, so the vortex effect is good and the frequency is stable;

4. The outlet section is perpendicular to the axis of the reinforced cavity, which has a good impact effect and can achieve high-frequency effects;

5. The width of the outlet section is smaller than the width of the water diversion section, the impact force is large, the impact effect is good, and the high frequency effect can be realized;

6. In the middle of the tail of the reinforcement cavity, a groove is located between the two water channels, which has a good vortex effect and stable frequency;

7. The width of the inlet section increases continuously according to the flow direction of the water flow, which can achieve high-frequency effects.

Description of drawings

The present invention will be further described below in conjunction with drawings and embodiments.

FIG. 1 is a schematic perspective view of the device of the first preferred embodiment.

FIG. 2 is a perspective exploded view of the device of the first preferred embodiment.

Fig. 3 is a schematic diagram of the water circuit of the device of the first preferred embodiment.

FIG. 4 shows a schematic cross-sectional view along line A-A of FIG. 3 .

FIG. 5 is a schematic perspective view of the device of the second preferred embodiment.

FIG. 6 is a perspective exploded view of the device of the second preferred embodiment.

Fig. 7 is a schematic diagram of the water circuit of the device of the second preferred embodiment.

Detailed ways

first preferred embodiment

Please refer to FIG. 1 to FIG. 4 , the shower head includes a body 400 , a water separator 500 , an inner core 600 , a bubbler 700 and a bubbler jacket 800 . The inner core 600, the water separator 500 and the main body 400 are assembled together; the inner core 600 has a through hole 610, the bubbler 700 is installed in the through hole 610, and the outer shell 800 of the bubbler is attached to the inner core 600 and cover the bubbler 700; the inner core 600 can output high-frequency pulsed water, and set the main waterway; then it can make it possible to switch between the main waterway and the bubbler 700 at least through the water diversion body 500 to connect the body 400 water inlet, to switch on the main water source, to switch between high-frequency pulse water and sparkling water. In this embodiment, the bubbler is taken as an example, but it is not limited thereto, and other water outlet functions, such as shower water, spray water, etc., can also be provided as required.

The main waterway includes a water inlet 100 , a reinforced cavity 200 and two water diversion channels 300 arranged symmetrically around the reinforced cavity 200 .

The reinforced cavity 200 has a large structure with a small head and a large tail, and the head is connected to the water inlet 100. The definition of the head and the tail corresponds to the flow direction of the water; the width d2 of the head of the reinforced cavity 200 is greater than the width d1 of the water inlet 100. In this implementation For example, if the cross-section is rectangular, the lengths are equal and the widths are unequal; or, if the cross-section is circular, the width is the diameter; the angle a between the left and right side walls of the reinforcing cavity 200 is 10 degrees -35 degrees. Vortex chambers 210 are provided on the left and right side walls of the reinforcing chamber 200 to form a vortex to enhance the fluid suction capacity. Moreover, preferably, an arc-shaped groove 220 is recessed in the middle of the tail of the reinforcing chamber 200 and is located between the two branch waterways 300 .

The water distribution channel 300 has an inlet port, an outlet port, an inlet end section 320, an outlet end section 330 and a water diversion section 340 arranged between the inlet end section 320 and the outlet end section 330, the inlet end section The entrance of the section 320 is an inport, and the exit of the exit section 330 is an outport. The inlet ports of the two-divided waterway 300 are respectively connected to the left and right sides of the reinforcement chamber 200 , and the outlet ports of the two-divided waterway 300 are respectively connected to the junction of the water inlet 100 and the reinforcement chamber 200 . In this embodiment, preferably, the exit section 330 is perpendicular to the axis of the reinforcement cavity 200 . And the water diversion sections 340 of the two water diversion channels 300 are provided with water outlet holes 310, and the axes of the water outlet holes 310 are perpendicular to the main water channel. flat. And the width d3 of the outlet section 330 is smaller than the width d4 of the water diversion section 340. In this embodiment, if the cross section is rectangular, then the lengths are equal and the widths are not equal, or if the cross section is circular, then The width is a diameter.

In this embodiment, the inner wall of the inlet section 320 is smoothly connected to the side wall of the reinforcement chamber 200; the water diversion section 340 is connected to the inlet section 320 in a smooth transition; The inner wall is smoothly transitioned and connected. In this embodiment, the width of the entry section 320 increases continuously according to the water flow direction. Second preferred embodiment

Please refer to Fig. 5 to Fig. 7, it differs from the first preferred embodiment in that it includes a body 400, a water divider 500, a side cover 900, a cover plate 910, a water outlet plate 410 and an attachment body 400 for the stopper 420. The main body 400, the water diversion body 500, the surface cover 900, the cover plate 910 and the outlet plate 410 are fixed together. The surface cover 900 and the cover plate 910 are fixed together and can emit shower water and high-frequency pulse water, and form a plurality of main water channels and a water distribution channel, the water distribution channels can produce shower water, and the main water channel can High-frequency pulsed water; it can make: at least switch between the main waterway and the waterway through the water-distributing body 500 to connect the water inlet of the body 400, to switch and connect the main water source, to output high-frequency pulsed water and Switch between shower water. In this embodiment, the plurality of total waterways are arranged in a circular arrangement.

The above is only a preferred embodiment of the present invention, so the scope of the present invention cannot be limited accordingly, that is, the equivalent changes and modifications made according to the patent scope of the present invention and the content of the specification should still be covered by the present invention within range.

Claims (10)

1. go out the device of high-frequency impulse water, it establishes total water route, it is characterized in that: said total water route comprises that a water inlet road (100), a reinforcement chamber (200) and two symmetries are located at the branch water route of strengthening about chamber (200) (300); Said reinforcement chamber (200) is a little tail macrostructure and head is connected water inlet road (100), all establishes swirl chamber (210) on the sidewall of the left and right sides, said reinforcement chamber (200) and is used to form vortex to strengthen fluid inspiration ability; Said minute the water route (300) have inbound port and outbound port; Said two minutes water route (300) inbound ports are connected respectively and are strengthened about the afterbody of chamber (200); Said two minutes water route (300) outbound ports turn on Shui Lu (100) into respectively and strengthen connection place in chamber (200), and said two minutes all are provided with apopore (310) on water route (300).

2. the device that goes out high-frequency impulse water according to claim 1 is characterized in that: angle is 10 degree-35 degree between the sidewall of the left and right sides, said reinforcement chamber (200).

3. the device that goes out high-frequency impulse water according to claim 1 is characterized in that: said reinforcement chamber (200) head width is greater than water inlet road (100) width.

4. the device that goes out high-frequency impulse water according to claim 1 is characterized in that: the total water route of said apopore (310) axis normal.

5. according to claim 1 or 2 or the 3 or 4 described devices that go out high-frequency impulse water; It is characterized in that: said minute the water route (300) have end section (320), and go out end section (330) and and be located at end section (320) and go out to hold the branch water section (340) between section (330); Saidly go into end section (320) inlet and be inbound port; Saidly go out end section (330) outlet and be outbound port, said apopore (310) is located at branch water section (340), and saidly goes out end section (330) width less than minute water section (a 340) width.

6. the device that goes out high-frequency impulse water according to claim 5 is characterized in that: saidly go out end section (330) and vertically strengthen chamber (200) axis.

7. the device that goes out high-frequency impulse water according to claim 6 is characterized in that: saidly go into end section (320) inwall and be connected with reinforcement chamber (200) sidewall rounding off; Said minute the water section (340) with go into end section (a 320) rounding off and be connected; Saidly go out end section (330) inwall and be connected with branch water section (340) inwall rounding off.

8. the device that goes out high-frequency impulse water according to claim 7 is characterized in that: be arranged with the arc groove (220) that is positioned between two minutes water route (300) in the middle of the afterbody of said reinforcement chamber (200).

9. the device that goes out high-frequency impulse water according to claim 6 is characterized in that: saidly go into end section (320) and constantly become big according to the flow direction width.

10. the device that goes out high-frequency impulse water according to claim 5, it is characterized in that: it establishes a plurality of total water routes, and said a plurality of total water routes annular display is provided with.

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