WO2012126325A1

WO2012126325A1 - Device for outputting water with high frequency pulse

Info

Publication number: WO2012126325A1
Application number: PCT/CN2012/072345
Authority: WO
Inventors: 周华松; 江力; 庄祖强; 熊洪煌
Original assignee: 厦门松霖科技有限公司
Priority date: 2011-03-22
Filing date: 2012-03-15
Publication date: 2012-09-27

Abstract

Disclosed is a device for outputting water with high frequency pulse, which is provided with a main water route, comprising a water inlet route (100), an enhancement cavity (200) and two water sub-routes (300) symmetrically arranged at the left and right sides of the enhancement cavity (200) respectively, the enhancement cavity (200) presenting a structure of small at the beginning and large at the end and with the beginning portion thereof being connected to the water inlet route (100), with the left and right side walls of the enhancement cavity (200) both being provided with a vortex cavity (210) for the formation of a vortex in order to enhance the sucking-in capability of a fluid; and the water sub-routes (300) having respectively an inlet port and an outlet port, with the inlet ports of the two water sub-routes (300) being in communication with the enhancement cavity (200) at the left and right sides respectively of the ending portion thereof and with the outlet ports of the two water sub-routes (300) being in communication with the two sides respectively of the joint portion of the water inlet route (100) and the enhancement cavity (200), and both of the two water sub-routes (300) being provided with water outlet apertures (310). The device for outputting water with high frequency pulse has the following advantages: the water flow entering the enhancement cavity from the water inlet route can enhance the suction capacity of the water flow in the enhancement cavity since it can form a vortex in the vortex cavities; a part of the water flow in a water sub-route will be ejected directly via the water outlet apertures and the other part thereof will be backflushed to the joint portion of the water inlet route and the enhancement cavity so as to impact on the water flow coming into the enhancement cavity from the water inlet route in order to flush it into the other water sub-route, with feedback made in the same manner, forming an impact effect of very high frequency at the water outlet apertures.

Description

High frequency pulse water device

Technical field

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

Background technique

A device that conventionally generates high-frequency pulse water, which generates a water flow frequency effect through a moving component, and produces a strong and weak water discharge effect. It has the disadvantages of complicated structure, easy wear life of moving parts and unstable water discharge.

Summary of the invention

SUMMARY OF THE INVENTION The present invention provides a device for high frequency pulsed water that overcomes the shortcomings of conventional high frequency pulsed water devices in the prior art.

The technical solution adopted by the present invention to solve the technical problems thereof is:

a device for outputting high-frequency pulse water, which is provided with a total water path, wherein the total water channel comprises a water inlet channel (100), a reinforcing chamber (200) and two water dividing channels (300) symmetrically disposed around the reinforcing chamber (200); The reinforcing chamber (200) has a small head and large structure and the head is connected to the water inlet (100). The left and right side walls of the reinforcing chamber (200) are provided with a vortex chamber (210) for forming a vortex to enhance fluid suction. The water dividing path (300) has an ingress port and an egress port, and the two water dividing channel (300) ingress ports respectively open to the left and right of the reinforcing cavity (200), and the two water dividing channels (300) out ports are respectively connected to The water inlet (100) and the reinforcing chamber (200) are connected to each other, and the water dividing hole (310) is provided on the two-way water channel (300).

In a preferred embodiment, the angle between the left and right side walls of the reinforcing cavity (200) is 10 degrees - 35 degrees.

In a preferred embodiment, the width of the head of the reinforcing chamber (200) is greater than the width of the water inlet (100).

In a preferred embodiment, the water outlet (310) axis is perpendicular to the total waterway.

In a preferred embodiment, the water dividing path (300) has an inlet section (320), an outlet section (330), and a passage between the inlet section (320) and the outlet section (330). a water dividing section (340), the inlet section (320) inlet is an inlet port, the outlet section (330) outlet is an outlet port, and the outlet hole (310) is disposed at a water dividing section (340). And the width of the outlet section (330) is smaller than the width of the watershed section (340).

In a preferred embodiment: the exit section (330) vertically stiffens the cavity (200) axis.

In a preferred embodiment, the inner wall of the inlet end section (320) and the side wall of the reinforcing cavity (200) are smoothly transitionally connected; the water dividing section (340) and the inlet end section (320) are smoothly transitioned; The inner wall of the outlet section (330) and the inner wall of the water dividing section (340) are smoothly transitionally connected.

In a preferred embodiment, an arcuate recess (220) between the two water dividing paths (300) is recessed in the middle of the reinforcing chamber (200).

In a preferred embodiment, the inlet section (320) is continuously increased in width according to the flow direction of the water.

In a preferred embodiment, it is provided with a plurality of total waterways, and the plurality of total waterways are arranged in a circular array.

Compared with the background art, the technical solution has the following advantages:

1. The water flow enters the reinforcement chamber from the inlet water channel. Because it can form a vortex in the vortex chamber, the water absorption capacity of the enhanced chamber is enhanced. Part of the water flow in the water separation channel is directly injected through the water outlet hole, and the other part is flushed back to the water inlet channel and the reinforcement chamber. At the joint, the water flowing into the reinforcing chamber by the impinging water passage is flushed into another water dividing channel, and the feedback is performed in the same way, thereby forming an impact effect with a high frequency in the water outlet hole, which overcomes the shortcomings of the background art and generates The following technical effects: a, by designing the flow of water to generate high-frequency pulse water, low cost, long life, stable frequency; b, has a good cleaning and flushing effect, resulting in good social and economic benefits;

2. The angle between the left and right side walls of the reinforcing cavity is 10 degrees to 35 degrees, the vortex effect is good, and the frequency is stable;

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

4. The end section vertically strengthens the cavity axis, and the impact effect is good, and the high frequency effect can be achieved;

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

6. Strengthen the groove in the middle of the tail of the cavity to locate a groove between the two water channels, the vortex effect is good, and the frequency is stable;

7. The inlet section is continuously widened according to the flow direction of the water flow, and the high frequency effect can be achieved.

DRAWINGS

The invention will now be further described with reference to the accompanying drawings and embodiments.

Figure 1 is a perspective view of the apparatus of the first preferred embodiment.

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

Figure 3 is a schematic illustration of the waterway of the apparatus of the first preferred embodiment.

4 is a cross-sectional view of the A-A of FIG. 3.

Figure 5 is a perspective view of the apparatus of the second preferred embodiment.

Figure 6 is a perspective exploded view of the apparatus of the second preferred embodiment.

Figure 7 is a schematic illustration of the waterway of the apparatus of the second preferred embodiment.

detailed description

First preferred embodiment

Referring to FIGS. 1 through 4, a showerhead having a device for emitting high frequency pulsed water includes a body 400, a water dividing body 500, a core 600, a bubbler 700, and a bubbler jacket 800 together. The core 600, the water dividing body 500 and the body 400 are attached together; the core 600 defines a through hole 610, the bubbler 700 is installed in the through hole 610, and the bubbler casing 800 is attached to the core. 600 and cover the bubbler 700; the core 600 can emit high-frequency pulse water, and set the total water path; then, the water-dividing body 500 can be switched between the total waterway and the bubbler 700 to connect the body. The water inlet of the 400 is switched to switch on the total water source to switch between the high frequency pulse water and the bubbling water. In the present embodiment, the bubbler is taken as an example, but not limited thereto, and other water discharge functions such as shower water, spray water, and the like may be provided as needed.

In the present embodiment, the total water path provided in the core 600 constitutes the device for discharging the high-frequency pulse water of the present invention, and the total water path includes a water inlet path 100, a reinforcing chamber 200, and two points symmetrically disposed on the left and right sides of the reinforcing chamber 200. Waterway 300

The reinforcing chamber 200 has a small head and large structure 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 flow; the head width d2 of the reinforcing chamber 200 is greater than the width d1 of the water inlet 100. In the example, if the cross section is a rectangle, the lengths are equal, the width is not equal, or the cross section is a circle, the width is a diameter; and the angle a between the left and right side walls of the reinforcing cavity 200 is 10 degrees - 35 degrees. A vortex chamber 210 is disposed on the left and right side walls of the reinforcing chamber 200 for forming a vortex to enhance fluid suction capability. Moreover, preferably, an arcuate groove 220 located between the two water dividing channels 300 is recessed in the middle of the rear portion of the reinforcing chamber 200.

The water dividing path 300 has an inlet port, an outlet port, an inlet end section 320, an outlet end section 330, and a water dividing section 340 disposed between the inlet end section 320 and the outlet end section 330, the inlet end The segment 320 entry is an ingress port, and the egress segment segment egress is an egress port. The inlet ports of the two water dividing channels 300 are respectively connected to the left and right sides of the tail portion of the reinforcing chamber 200, and the outlet ports of the two water dividing channels 300 are respectively connected to the inlets of the water inlet path 100 and the reinforcing chamber 200. In the present embodiment, preferably, the outlet end section 330 vertically stiffens the axis of the chamber 200. And a plurality of water outlets 310 are defined in the water dividing section 340 of the two-way waterway 300. The water outlet hole 310 is perpendicular to the total waterway. In the embodiment, the water flow direction of the vertical waterway of the water outlet hole 310 is defined. Parallel plane. The width d3 of the outlet section 330 is smaller than the width d4 of the water distribution section 340. In the embodiment, if the section is rectangular, the lengths are equal, the width is not equal, or the section is circular. The width is the diameter.

In this embodiment, the inner wall of the inlet end section 320 and the side wall of the reinforcing chamber 200 are smoothly transitionally connected; the water dividing section 340 and the inlet end section 320 are smoothly transitionally connected; the inner end section 330 and the water dividing section 340 The inner wall is smoothly transitioned. In this embodiment, the inlet end section 320 is continuously increased in width according to the flow direction of the water.

Second preferred embodiment

Referring to FIG. 5 to FIG. 7, a showerhead provided with a device for discharging high-frequency pulsed water is different from the first preferred embodiment in that it includes a body 400, a water-dividing body 500, and a side cover 900. A cover 910, a water outlet plate 410 and a plug 420 attached to the body 400. The body 400, the water dividing body 500, the face cover 900, the cover plate 910 and the water outlet plate 410 are fixed together. The cover 900 and the cover 910 are fixed together and can discharge shower water and high-frequency pulse water to form the device for discharging high-frequency pulse water of the present invention, and form a plurality of total water channels and one secondary water channel, The water channel can generate shower water, and the total water channel can emit high-frequency pulse water; then, the water-dividing body 500 can be switched between the total water channel and the secondary water channel to switch on the water inlet path of the body 400 to switch The total water source is used to switch between high-frequency pulse water and shower water. In this embodiment, the plurality of total water channels are arranged in a circular array.

The above is only the preferred embodiment of the present invention, and thus the scope of the present invention is not limited thereto, that is, equivalent changes and modifications made in accordance with the scope of the invention and the contents of the specification should still be covered by the present invention. Within the scope.

Industrial applicability

The invention provides a device for generating high-frequency pulse water, wherein the water flow enters the reinforcement chamber from the water inlet path, and the vortex is formed in the vortex chamber, thereby enhancing the adsorption capacity of the enhanced chamber water flow, and a part of the water flow in the water separation path is directly emitted through the water outlet hole. The other part is flushed back to the water inlet and the reinforcement chamber connection, so as to impinge on the water flow entering the reinforcement chamber and rushing into another water separation channel, and the same feedback is made to form a high frequency impact effect in the water outlet hole. The design is reasonable, the structure is simple, and it has good industrial applicability.

Claims

A device for outputting high-frequency pulse water, which is provided with a total water channel, characterized in that: the total water channel comprises a water inlet channel (100), a reinforcement chamber (200) and two water distribution channels symmetrically arranged around the reinforcement chamber (200) ( 300); the reinforcing chamber (200) has a small tail and large structure and the head is connected to the water inlet (100), and the left and right side walls of the reinforcing chamber (200) are provided with a vortex chamber (210) for forming a vortex To enhance the fluid intake capability; the water dividing channel (300) has an inlet port and an outlet port, the two-way waterway (300) inlet port is respectively connected to the left and right ends of the reinforcing chamber (200), and the two-divided water channel (300) is out of the port. The two sides of the water inlet (100) and the reinforcement chamber (200) are respectively connected to the junction, and the water outlet (310) is provided on the two water passages (300).
The device for discharging high-frequency pulse water according to claim 1, characterized in that the angle between the left and right side walls of the reinforcing chamber (200) is 10 degrees - 35 degrees.
The apparatus for discharging high frequency pulsed water according to claim 1, characterized in that the width of the head of the reinforcing chamber (200) is larger than the width of the water inlet path (100).
The apparatus for discharging high frequency pulsed water according to claim 1, wherein said water outlet hole (310) is perpendicular to the total water path.
The device for discharging high-frequency pulse water according to claim 1 or 4, wherein the water dividing path (300) has an inlet end section (320), an outlet end section (330), and an inlet end section (330). a water dividing section (340) between the section (320) and the outlet section (330), the inlet section (320) inlet is an inlet port, and the outlet section (330) outlet is an outlet port, the outlet water The hole (310) is disposed in the water dividing section (340), and the width of the outlet end section (330) is smaller than the width of the water dividing section (340).
The apparatus for discharging high frequency pulsed water according to claim 5, wherein said outlet end section (330) vertically stiffens the cavity (200) axis.
The device for discharging high-frequency pulse water according to claim 6, characterized in that the inner wall of the inlet end section (320) and the side wall of the reinforcing chamber (200) are smoothly transitionally connected; the water dividing section (340) and the inlet The end section (320) is smoothly transitioned; the inner wall of the outlet section (330) and the inner wall of the water distribution section (340) are smoothly transitionally connected.
The device for discharging high-frequency pulse water according to claim 7, characterized in that: an arcuate groove (220) between the two water dividing paths (300) is recessed in the middle of the reinforcing chamber (200).
The apparatus for discharging high-frequency pulse water according to claim 6, wherein the inlet end section (320) is continuously increased in width according to the flow direction of the water.
The apparatus for discharging high-frequency pulse water according to claim 5, characterized in that it is provided with a plurality of total water passages, and the plurality of total water passages are arranged in a circular arrangement.
A shower provided with the device for discharging high frequency pulsed water according to claim 1, comprising: a body (400), a water dividing body (500), a core (600), a bubbler (700) and together a bubbler jacket (800); characterized in that: the total waterway is disposed in a shower core (600), the core (600), the water-dividing body (500) and the body (400) are attached together; the core 600 Can output high frequency pulse water.
A showerhead provided with the device for discharging high frequency pulsed water according to claim 1, comprising: a body (400), a water dividing body (500), a side cover (900), a cover plate (910), and a cover a water outlet plate (410) and a plug (420); wherein the cover (900) and the cover plate (910) are fixed together to form a device for high-frequency pulsed water, comprising a plurality of total water paths, A plurality of total waterway annular displays are disposed within the face cover (900).