CN212418371U

CN212418371U - Hollow water outlet mechanism and water outlet device comprising same

Info

Publication number: CN212418371U
Application number: CN201922115560.2U
Authority: CN
Inventors: 魏志坚; 陈文兴; 晏小虎; 胡力宏
Original assignee: Xiamen Solex High Tech Industries Co Ltd
Current assignee: Xiamen Solex High Tech Industries Co Ltd
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2021-01-29
Anticipated expiration: 2029-11-29

Abstract

The utility model discloses a cavity goes out water mechanism and contains this cavity goes out water outlet means of water mechanism. The hollow water outlet mechanism is arranged in a hollow mode to be provided with a hollow hole, and comprises a water inlet channel, a first annular cavity, a middle annular cavity and a last annular cavity; the first annular cavity is communicated with a water inlet channel; a plurality of first water-blocking strips which are circumferentially arranged at intervals are arranged between the first annular cavity and the middle ring cavity, and water in the first annular cavity flows through the first intervals of every two adjacent first water-blocking strips and enters the middle ring cavity; an annular water passing channel is arranged between the middle annular cavity and the last annular cavity, water in the middle annular cavity flows into the last annular cavity through the annular water passing channel after overflowing, the water flows out along the last annular cavity and sucks air from the hollow hole in the outflow process to form hollow water, and the hollow water is not distorted, attractive and water-saving.

Description

Hollow water outlet mechanism and water outlet device comprising same

Technical Field

The utility model relates to a bathroom technical field especially relates to a cavity goes out water mechanism and contains play water installation of this cavity play water mechanism.

Background

The hollow water outlet mechanism, such as CN105983490B, includes a hollow housing and a flow guiding column inserted in the housing, an annular flow channel is formed between the housing and the flow guiding column, the housing is further provided with a plurality of arc water inlet grooves, the plurality of arc water inlet grooves are arranged in an annular array with the annular flow channel as a center, inner ends of the arc water inlet grooves are communicated with the annular flow channel, and water flows into the annular flow channel along the arc water inlet grooves to form a hollow annular water curtain with centrifugal force. When the tangential centrifugal force of the water flow guided along the lower flow section is greater than the surface tension of the water flow, the water flow is broken into particles to be scattered after a certain water curtain length is kept, continuous spray in a certain range is formed after the water flow is scattered, the bathing range is wide, and the single particle spray is good in particle sense. The water flow of the hollow water outlet mechanism is distorted, so that there is a need for further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cavity goes out water mechanism and contains the play water installation of this cavity goes out water mechanism, and it has overcome the not enough that cavity goes out water mechanism exists among the background art.

The utility model provides one of the technical scheme who adopts of its technical problem is:

the utility model provides a cavity goes out water mechanism, its cavity sets up in order to be equipped with cavity hole, its characterized in that: the device comprises a water inlet channel, a first annular cavity, a middle annular cavity and a last annular cavity; the first annular cavity is communicated with a water inlet channel; a plurality of first water-blocking strips which are circumferentially arranged at intervals are arranged between the first annular cavity and the middle ring cavity, and water in the first annular cavity flows through the first intervals of every two adjacent first water-blocking strips and enters the middle ring cavity; an annular water passage is arranged between the middle annular cavity and the last annular cavity, water flow in the middle annular cavity flows into the last annular cavity through the annular water passage after overflowing, and the water flow flows out along the last annular cavity and sucks air from the hollow hole in the outflow process.

The utility model provides a second of the technical scheme of its technical problem's adoption:

the water outlet device is a water outlet faucet which is provided with the hollow water outlet mechanism.

The third technical scheme of the utility model for solving the technical problem is:

the water outlet device is a shower head, and the shower head is provided with the hollow water outlet mechanism.

Compared with the background technology, the technical scheme has the following advantages:

the first annular cavity is used for converting the single-side water inlet of the water inlet channel into annular water flow so as to reduce the single-side water inlet flow rate and homogenize the whole-circle flow rate; the first water blocking strips arranged at intervals in the circumferential direction are used for converting the annular water flow into a plurality of radial water flows which are arranged at intervals in the circumferential direction and enter the annular cavity of the middle channel, so that the effect of rectifying and changing single-side inflow into multi-side inflow is achieved. After the water flow of the annular cavity of the middle channel overflows, the water flow enters the annular cavity of the last channel through the annular water channel, the effect of reducing the flow speed is achieved, the water flow is ensured to be in a complete ring structure, and the water flow is prevented from being broken. The water flow flows out along the last annular cavity and sucks air from the hollow hole in the outflow process, and the air flow falls from a high position to improve the flow rate and suck the air in the hollow hole to form hollow water.

The second ring-shaped cavity and the second water blocking strips are circumferentially arranged at intervals, the flow direction of the rotating flowing water is adjusted, the rotating flowing water is changed into the water flow which points to the center, the flow speed is uniform in a whole circle, and the effects of rectifying and changing the rotating water into irrotational water are achieved. And after the water flow of the third annular cavity is full, the water flow enters the fourth annular cavity through the annular water passage to play a role in reducing the flow speed, and the water flow is ensured to be in a complete ring structure to avoid breaking.

The light-emitting mechanism comprises an annular light-emitting part, the annular light-emitting part is arranged below the water passing seat and surrounds the fourth annular cavity, the fixed seat, the water absorbing seat and the water passing seat are made of light-transmitting materials, light is scattered through water flow, the air absorbing seat is lightened, people can intuitively enjoy beautiful hollow water flow, and the use experience is improved.

The light-emitting mechanism further comprises a hydroelectric generation mechanism, the hydroelectric generation mechanism is arranged in the water inlet channel and electrically connected with the light-emitting part, the hydroelectric generation technology is applied to a product water outlet, and the generator is driven to operate through water flow to achieve a light-on effect. When water flows through the water power generator, the lamp is turned on, no water flows through the lamp, and the lamp is turned off.

Drawings

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Fig. 1 is a schematic perspective exploded view of a hollow water outlet mechanism according to an embodiment.

Fig. 2 is a perspective view of a fixing base according to an embodiment.

Fig. 3 is a perspective view of a water absorption base according to an embodiment.

Fig. 4 is a perspective view of a water stand according to an embodiment.

FIG. 5 is one of the schematic cross-sectional views of a hollow water outlet mechanism according to embodiments.

Fig. 6 is a second sectional view of a hollow water outlet mechanism according to the second embodiment.

FIG. 7 is a perspective view of an embodiment of a hollow outlet mechanism applied to a first bowl faucet.

FIG. 8 is a cross-sectional schematic view of a first bowl faucet.

FIG. 9 is an exploded perspective view of the first bowl faucet.

FIG. 10 is a perspective view of an embodiment of a hollow water outlet mechanism applied to a kitchen faucet.

FIG. 11 is a perspective view of an embodiment of a hollow outlet mechanism for use with a second faucet.

Fig. 12 is a perspective view of a hollow water outlet mechanism applied to a handheld shower head according to an embodiment.

Fig. 13 is a perspective view of an embodiment of a hollow water outlet mechanism for use in a shower.

Detailed Description

Referring to fig. 1 to 6, a hollow water outlet mechanism is hollow and provided with a hollow hole 41, and includes a water inlet passage 42, a first annular cavity 43, a second annular cavity 44, a third annular cavity 45 and a fourth annular cavity 46. The first annular chamber 43, the second annular chamber 44, the third annular chamber 45, the fourth annular chamber 46 and the hollow hole 41 are arranged from outside to inside. The first annular chamber 43 communicates with the water inlet passage 42. A plurality of first water-blocking strips 47 and 47 'which are circumferentially arranged at intervals are arranged between the first annular cavity 43 and the second annular cavity 44, and water in the first annular cavity 43 flows through the first interval of every two adjacent first water-blocking strips 47 and 47' and enters the second annular cavity 44; a plurality of second water-blocking strips 48 which are circumferentially arranged at intervals are arranged between the second annular cavity 44 and the third annular cavity 45, and water in the second annular cavity 44 flows through the second interval of every two adjacent second water-blocking strips 48 and enters the third annular cavity 45; an annular water passage 49 is arranged between the third annular cavity 45 and the fourth annular cavity 46, water flow in the third annular cavity 45 enters the fourth annular cavity 46 through the annular water passage 49 after overflowing, and the water flow flows out along the fourth annular cavity 46 and entrains air from the hollow hole 41 in the outflow process. In the present embodiment, the ring has a circular structure, but the invention is not limited thereto, and a rectangular, square, polygonal, or other structure may be adopted as required.

A hollow water outlet mechanism in this embodiment: the first annular chamber 43 is used to make the single-side inlet water flow of the inlet channel 42 into annular water flow to reduce the single-side inlet water flow rate and to make the whole flow rate uniform; the first water blocking strips 47 and 47' arranged at intervals in the circumferential direction are used for changing annular water flow into a plurality of radial water flows which are arranged at intervals in the circumferential direction and enter the second annular cavity 44, so that rectification is achieved, and single-side water inflow is changed into multi-side water inflow. The second annular chamber 44 and the plurality of second water blocking strips 48 arranged at intervals in the circumferential direction adjust the flow direction of the rotating flowing water, so that the rotating flowing water is changed into the water flow which points to the center, the flow speed is uniform in a whole circle, and the functions of rectifying and changing the rotating water into non-rotating water are achieved. After the water flow in the third annular cavity 45 is full, the water flow enters the fourth annular cavity 46 through the annular water passage 49, so as to reduce the flow velocity, ensure that the water flow is in a complete ring structure, and avoid breaking. The water flow flows out along the fourth annular chamber 46 and sucks air from the hollow hole 41 during the outflow process, and the water flow drops from the high position, so that the flow speed is increased, and the air in the hollow hole is sucked in to form hollow water.

At least two wide water-blocking strips 47 and the rest water-blocking strips 47 ' are arranged in the plurality of first water-blocking strips 47 and 47 ', the width of the wide water-blocking strips 47 is larger than that of the rest water-blocking strips 47 ', the two wide water-blocking strips 47 are radially and symmetrically arranged relative to the axis of the hollow hole 41, and the connection parts of the two wide water-blocking strips 47 and the water inlet path 42 and the first annular cavity 43 are arranged in an aligned mode. Moreover, the central angle of the wide water-blocking strip 47 is larger than that of the remaining water-blocking strips 47 ', for example, the central angle of the wide water-blocking strip 47 is 2-5 times larger than that of the remaining water-blocking strips 47', so as to prevent a large amount of water flow from entering the second annular chamber 44 from the first interval closest to the connection position (the connection position between the water inlet path 42 and the first annular chamber 43), thereby improving the uniformity of water flow rate of each first interval. Further, the plurality of first water bars 47, 47' cooperate to form a first spaced annular array arrangement.

The plurality of second water-blocking strips 48 are arranged in an annular array. The annular water passage 49 is higher than the first interval, which is higher than the second interval, which is higher than the lower annular port of the fourth annular chamber 46; the annular water passage 49 is connected between the top periphery of the third annular chamber 45 and the top periphery of the fourth annular chamber 46.

In this embodiment, the hollow water outlet mechanism includes a fixing base 1, a water absorbing base 2 and a water passing base 3.

The fixed seat 1 comprises a first surrounding wall 11, the fixed seat 1 is provided with the water inlet path 42, the first surrounding wall 11 is provided with a first water through hole 111 which penetrates through the inside and the outside and is communicated with the water inlet path 42, and the first water through hole 111 forms a communication part between the water inlet path 42 and the first annular cavity 43; the water absorption seat 2 is provided with a fifth surrounding wall 21 and an upper surrounding wall 22 fixedly connected outside the fifth surrounding wall 21, a third surrounding wall 23 is fixedly arranged below the upper surrounding wall 22, and the third surrounding wall 23 and the fifth surrounding wall 21 are arranged at intervals; the water absorption seat 2 is arranged in the first surrounding wall 11 of the fixed seat 1, and a sealing structure 24 is arranged between the outer peripheral wall of the upper ring wall 22 and the first surrounding wall 11; the water passing seat 3 comprises a fourth surrounding wall 31 and a lower surrounding wall 32 fixedly connected outside the fourth surrounding wall 31, a second surrounding wall 33 is fixedly arranged on the lower surrounding wall 32, and the second surrounding wall 33 and the fourth surrounding wall 31 are arranged at intervals; the water passing seat 3 is arranged in the first surrounding wall 11 of the fixed seat 1, a sealing structure is arranged between the outer peripheral wall of the lower surrounding wall 32 and the first surrounding wall 11, and the second surrounding wall 33 and the first surrounding wall 11 are arranged at intervals; the water absorbing seat 2 and the water passing seat 3 are arranged up and down, the upper ring wall 22 and the lower ring wall 32 are arranged up and down, the fourth surrounding wall 31 is inserted between the fifth surrounding wall 21 and the third surrounding wall 23 of the water absorbing seat 2, and the third surrounding wall 23 is inserted between the second surrounding wall 33 and the fourth surrounding wall 31 of the water passing seat 3; the first wall 11 and the second wall 33 define therebetween the aforementioned first annular cavity 43, the second wall 33 and the third wall 23 define therebetween the aforementioned second annular cavity 44, the third wall 23 and the fourth wall 31 define therebetween the aforementioned third annular cavity 45, and the fourth wall 31 and the fifth wall 21 define therebetween the aforementioned fourth annular cavity 46.

The second wall 33 is provided at its upper end with the above-mentioned first water-stop strips 47, 47', and the third wall 23 is provided at its lower end with the above-mentioned second water-stop strip 48. The upper end surface of the second surrounding wall 33 is abutted against the lower annular surface of the upper annular wall 22, and the upper end surface of the fourth surrounding wall 31 is spaced from the upper annular wall 22 and forms the annular water passage 49. The lower end surface of the third wall 23 is spaced from the upper end surface of the lower wall 32.

The hollow water outlet mechanism in the embodiment further comprises a light emitting mechanism 5, wherein the light emitting mechanism 5 comprises an annular light emitting part 51 and a hydraulic power generating mechanism 52, the annular light emitting part 51 is arranged below the water passing seat 3 and surrounds the fourth annular cavity 46; the hydraulic power generating mechanism 52 is provided in the water intake passage 42 and the electric light emitting unit 51 supplies electric power to the light emitting unit when the water flow is turned on. In the specific structure, the bottom surface of the lower wall 32 is concavely provided with an annular groove 34, and the annular light emitting part 51 is fixedly arranged in the annular groove 34 and emits upward light. Moreover, the fixed seat, the water absorption seat and the water passing seat are made of light-transmitting materials, such as transparent PE materials.

Please refer to fig. 7, 8 and 9, which are schematic structural views illustrating a hollow water outlet mechanism applied to a first basin tap. The first bowl tap includes a tap module 61, a hose module 62, a mounting fixture module 63, a connection module 64, a hollow outlet mechanism 65 of the kind described above, and a hydro-power generation module 52 of the kind described above. The hose module 62 includes two hoses that are connected to cold water and hot water, respectively; the faucet module 61 comprises a faucet main body 611, a valve seat 614, a valve core 612, a handle 613 and the like, wherein a second water inlet channel is arranged in the faucet main body, the valve core and the valve seat 614 are connected with two hoses and the second water inlet channel, namely, the second water inlet channel is communicated with the first water inlet channel, and the handle is connected with the valve core so as to drive the valve core to move relatively and realize water channel control; the mounting and fixing module 63 includes a locking cap 631, a fixing sleeve 632 and the like to fix the faucet body on the table top; the hydroelectric generation module comprises a hydroelectric generation base 521 and a hydroelectric generator 522, wherein the hydroelectric generator 522 comprises an inclined water body and a power generation module, and the impeller is driven by water power to rotate and is driven by the rotation of the impeller to realize power generation. The connection module connects the faucet body to a hollow water outlet mechanism 65, etc., and includes a component module 641, a plastic tube 642, an adaptor cap 643, and a face cap 644. The faucet body 611 is of an L-shaped configuration.

Referring to fig. 10, the water outlet device is a kitchen faucet, the kitchen faucet includes a faucet body 71, a valve core disposed in the faucet body 71, a handle 72 connected to the valve core in a driving manner, and a pull-out faucet 73 capable of sliding relative to the faucet body 71, wherein the pull-out faucet 73 is provided with the above-mentioned hollow water outlet mechanism.

Referring to fig. 11, the water outlet device is a second basin tap, which is different from the first basin tap in that: the faucet body 611 is provided with a Bu-shaped structure.

Referring to fig. 12, the water outlet device is a hand-held shower head, which includes a hand-held portion 81 and a head portion 82, and the head portion is provided with a hollow water outlet mechanism as described above.

Referring to fig. 13, the water outlet device is a shower, and includes a handheld shower head 91 and a shower head 92, and both the handheld shower head 91 and the shower head 92 are provided with the above-mentioned hollow water outlet mechanism.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims

1. The utility model provides a cavity goes out water mechanism, its cavity sets up in order to be equipped with cavity hole, its characterized in that: the device comprises a water inlet channel, a first annular cavity, a middle annular cavity and a last annular cavity; the first annular cavity is communicated with a water inlet channel; a plurality of first water-blocking strips which are circumferentially arranged at intervals are arranged between the first annular cavity and the middle ring cavity, and water in the first annular cavity flows through the first intervals of every two adjacent first water-blocking strips and enters the middle ring cavity; an annular water passage is arranged between the middle annular cavity and the last annular cavity, water flow in the middle annular cavity flows into the last annular cavity through the annular water passage after overflowing, and the water flow flows out along the last annular cavity and sucks air from the hollow hole in the outflow process.

2. A hollow water outlet mechanism according to claim 1, wherein: the middle annular cavity comprises a second annular cavity and a third annular cavity, and the last annular cavity comprises a fourth annular cavity; the first water-blocking strip is arranged between the first annular cavity and the second annular cavity; the second annular cavity is communicated with the third annular cavity, the annular water passage is arranged between the third annular cavity and the fourth annular cavity, and water flow of the third annular cavity flows into the fourth annular cavity through the annular water passage after overflowing.

3. A hollow water outlet mechanism according to claim 2, wherein: a plurality of second water blocking strips which are circumferentially arranged at intervals are arranged between the second annular cavity and the third annular cavity, and water in the second annular cavity flows through the second intervals of every two adjacent second water blocking strips and enters the third annular cavity.

4. A hollow water outlet mechanism according to claim 3, wherein: the first water-blocking strips are at least provided with a wide water-blocking strip and the rest water-blocking strips, the width of the wide water-blocking strip is larger than the width of the rest water-blocking strips, the wide water-blocking strips are radially and symmetrically arranged relative to the central line of the hollow hole, and the wide water-blocking strips and the connection part of the water inlet path and the first annular cavity are arranged in an aligned mode.

5. A hollow water outlet mechanism according to claim 1, wherein: the first plurality of water-blocking strips are matched to form a first spaced annular array arrangement.

6. A hollow water outlet mechanism according to claim 2, wherein: the annular water passing channel is connected between the top periphery of the third annular cavity and the top periphery of the fourth annular cavity.

7. A hollow water outlet mechanism according to claim 2, wherein: the first annular cavity, the second annular cavity, the third annular cavity, the fourth annular cavity and the hollow hole are arranged from outside to inside.

8. A hollow water outlet mechanism according to claim 7, wherein: the annular water passing channel is higher than the first interval, the first interval is higher than the second interval, and the second interval is higher than the lower annular port of the fourth annular cavity.

9. A hollow water outlet mechanism according to claim 3, wherein: comprises a fixed seat, a water absorbing seat and a water passing seat;

the fixed seat comprises a first surrounding wall, the fixed seat is provided with the water inlet path, and the first surrounding wall is provided with a first water through hole which penetrates through the inside and the outside and is communicated with the water inlet path;

the water absorption seat is provided with a fifth surrounding wall and an upper surrounding wall fixedly connected outside the fifth surrounding wall, a third surrounding wall is fixedly arranged below the upper surrounding wall, and the third surrounding wall and the fifth surrounding wall are arranged at intervals; the water absorbing seat is arranged in the first surrounding wall of the fixing seat, and a sealing structure is arranged between the outer surrounding wall of the upper surrounding wall and the first surrounding wall;

the water passing seat comprises a fourth surrounding wall and a lower surrounding wall fixedly connected outside the fourth surrounding wall, a second surrounding wall is fixedly arranged on the lower surrounding wall, and the second surrounding wall and the fourth surrounding wall are arranged at intervals; the water passing seat is arranged in a first surrounding wall of the fixed seat, a sealing structure is arranged between the outer surrounding wall of the lower surrounding wall and the first surrounding wall, and the second surrounding wall and the first surrounding wall are arranged at intervals;

the water absorbing seat and the water passing seat are arranged up and down, the fourth surrounding wall is inserted between the fifth surrounding wall and the third surrounding wall of the water absorbing seat, and the third surrounding wall is inserted between the second surrounding wall and the fourth surrounding wall of the water passing seat;

the first annular cavity is formed between the first surrounding wall and the second surrounding wall, the second annular cavity is formed between the second surrounding wall and the third surrounding wall, the third annular cavity is formed between the third surrounding wall and the fourth surrounding wall, and the fourth annular cavity is formed between the fourth surrounding wall and the fifth surrounding wall.

10. A hollow water outlet mechanism according to claim 9, wherein: the upper end part of the second enclosing wall is provided with the first water-blocking strip, and the lower end part of the third enclosing wall is provided with the second water-blocking strip.

11. A hollow water outlet mechanism according to claim 9, wherein: the upper end surface of the second surrounding wall is connected with the lower ring surface of the upper ring wall in a leaning way, and the upper end surface of the fourth surrounding wall is separated from the upper ring wall and forms the annular water channel.

12. A hollow water outlet mechanism according to claim 9, wherein: the lower end surface of the third surrounding wall and the upper ring surface of the lower ring wall are arranged at intervals.

13. A hollow outlet mechanism according to any of claims 1 to 12, wherein: the light-emitting mechanism comprises an annular light-emitting part which surrounds the fourth annular cavity.

14. A hollow outlet mechanism according to claim 11 or 12, wherein: the water passing seat is arranged below the water inlet, and the water passing seat is arranged below the water inlet; the fixed seat, the water absorbing seat and the water passing seat are made of light-transmitting materials.

15. A hollow water outlet mechanism according to claim 14, wherein: the bottom surface of the lower ring wall is concavely provided with an annular groove, and the annular luminous part is arranged in the annular groove.

16. A hollow water outlet mechanism according to claim 14, wherein: the light-emitting mechanism also comprises a hydraulic power generation mechanism which is arranged on the water inlet channel and electrically connected with the light-emitting part.

17. A water outlet device is a water outlet faucet and is characterized in that: the water outlet tap is provided with a hollow water outlet mechanism according to any one of claims 1 to 12.

18. The utility model provides a water outlet device, it is gondola water faucet, its characterized in that: the shower head is provided with a hollow water outlet mechanism according to any one of claims 1 to 12.