CN114160321A - Water outlet device and shower head - Google Patents

Abstract

The invention discloses a water outlet device and a shower head, wherein the water outlet device comprises a body part, and the body part comprises a water outlet unit, a water inlet channel, two branch water channels and a control mechanism; the water outlet unit is provided with a water outlet hole and two water inlets, the two water inlets are communicated with the water outlet hole, and the flow change of the two water inlets controls the water outlet of the water outlet hole to discharge water; the two water dividing paths are respectively communicated with the two water inlets; the control mechanism is arranged between the water inlet channel and the two branch channels so as to steplessly adjust the flow change of the two branch channels. It has the following advantages: different water flowers can be discharged from one water outlet hole, the water flowers are more full, the water flower coverage area is larger, and the water discharge is more uniform; the stepless regulation and change of the spray can be realized, and the stepless change from one spray to another spray can be realized.

Description

Water outlet device and shower head

Technical Field

The invention relates to the technical field of bathrooms, in particular to a water outlet device and a shower head.

Background

The existing water outlet device comprises a body part, wherein the body part comprises a water outlet unit, a water inlet channel, two branch water channels and a control mechanism; the water outlet unit is provided with a first water outlet nozzle and a second water outlet nozzle, the first water outlet nozzle and the second water outlet nozzle respectively discharge different water flowers, and the two water paths are respectively communicated with the first water outlet nozzle and the second water outlet nozzle; the control mechanism comprises a valve core and a driving mechanism, the driving mechanism is in transmission connection with the valve core so as to drive the valve core to move, and the valve core is arranged between the water inlet channel and the two water dividing channels so as to switch the two water dividing channels to be communicated with the water inlet channel. Each water outlet nozzle can only discharge single water bloom.

Disclosure of Invention

The invention provides a water outlet device and a shower head, which overcome the defects of the water outlet device in the background art.

One of the technical schemes adopted by the invention for solving the technical problems is as follows: the water outlet device comprises a body component, and the body component comprises a water outlet unit, a water inlet path, two branch water paths and a control mechanism; the water outlet unit is provided with a water outlet hole and two water inlets, the two water inlets are communicated with the water outlet hole, and the flow change of the two water inlets controls the water outlet of the water outlet hole to discharge water; the two water dividing paths are respectively communicated with the two water inlets; the control mechanism is arranged between the water inlet channel and the two branch channels so as to steplessly adjust the flow change of the two branch channels.

In one embodiment: the control mechanism comprises a valve core and a driving mechanism, the driving mechanism is in transmission connection with the valve core and drives the valve core to perform stepless regulation activity, and the valve core is arranged between the water inlet channel and the two branch water channels so as to be capable of steplessly regulating the flow change of the two branch water channels.

In one embodiment: the body component is provided with the control cavity, the control cavity is arranged between the water inlet channel and the two water dividing channels, and the two water dividing channels are provided with water dividing ports positioned on the cavity wall in the control cavity; the valve core is provided with a valve plate, and the valve plate is movably attached to the inner wall of the control cavity so as to control the sheltered area of the two water diversion ports in a stepless mode through the movement of the valve plate and adjust the flow change of the two water diversion channels in a stepless mode.

In one embodiment: the valve core is also provided with a driving shaft which can be fixed relative to the valve plate, and the driving mechanism comprises a rotating wheel which can be rotatably connected to the body part, and the rotating wheel and the driving shaft are coaxially connected together so as to be capable of synchronously rotating.

In one embodiment: the inner cavity wall of the control cavity is provided with a cambered surface, and the two water dividing ports are positioned on the cambered surface and are circumferentially arranged at intervals; the valve plate is cambered, and the valve plate is rotatably connected in the control cavity and is adapted to the cambered surface of the inner cavity wall.

In one embodiment: the valve core comprises a rotary disc and a driving shaft, the rotary disc is fixedly connected between the valve plate and the driving shaft, the rotary disc can be rotatably connected in the control cavity, and the positions of the two water dividing ports correspond to the valve plate; the driving mechanism is in transmission connection with the driving shaft.

In one embodiment: the valve core is also provided with a driving shaft, the driving mechanism comprises a rack which can be slidably connected with the body part, a gear is fixedly arranged on the driving shaft, and the rack is meshed with the gear and drives the valve core to rotate in a sliding manner through the rack.

In one embodiment: these two water inlet flow direction and apopore flow direction are all non-parallel arrangement, and these two water inlets are first water inlet and second water inlet respectively.

In one embodiment: the two water inlets are arranged in the same plane or in parallel.

In one embodiment: the flow direction of the water inlet is vertical to the axial direction of the water outlet.

In one embodiment: these two water inlets are first water inlet and second water inlet respectively, and the setting is followed the apopore tangential so that this first water inlet rivers get into the apopore internal energy and produce the vortex to first water inlet flow direction, and second water inlet flow direction and apopore intersect and set up.

In one embodiment: the two water inlets are respectively a first water inlet and a second water inlet, and the flow direction of the first water inlet is intersected with that of the second water inlet.

In one embodiment: this water outlet unit is including the face lid, and this body part is including dividing the water body, and this face lid is equipped with the faucet, and this faucet is equipped with above-mentioned apopore and water inlet, and this faucet has protruding the leg of covering the back and surrounding the interior port of faucet at the face, and this leg is equipped with the through hole that runs through inside and outside, and this through hole is above-mentioned first water inlet, and this leg dorsad terminal surface still is equipped with the above-mentioned second water inlet of switch-on faucet interior port in the concave, and this sealed lid that divides the water body connects the leg dorsad terminal surface.

In one embodiment: a water outlet cavity is formed between the surface cover and the water distributing body, the water distributing body is provided with a first through hole and a plurality of second through holes, the first through hole is communicated with the water outlet cavity, the water outlet cavity is communicated with the first water inlet, and the second through holes are respectively communicated with the second water inlets of the water outlet nozzles.

In one embodiment: the body part also comprises a fixed seat fixedly arranged on the water distributing body, the fixed seat is provided with the two water distributing paths, the back of the fixed seat is convexly provided with an inner arc wall and an outer arc wall surrounding the inner arc wall, the inner arc wall forms the part of one water distributing path, and the gap between the inner arc wall and the outer arc wall forms the part of the other water distributing path.

The second technical scheme adopted by the invention for solving the technical problems is as follows: the shower head comprises the water outlet device, the body component comprises a handheld part and a head, the water outlet unit is connected to the head, and the control mechanism is arranged on the handheld part.

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

the water outlet spray of the water outlet hole is controlled through the flow change of the two water inlets, and the stepless regulation flow change is combined together, so that on one hand, one water outlet hole can emit different sprays, all the water outlet holes can emit water simultaneously under the spray state of each function, the spray is fuller, the spray coverage area is larger, the water is more uniform, and on the other hand, the stepless regulation change of the spray can be realized, and the spray is changed from one spray to another spray in a stepless mode.

The water outlet unit is provided with a water outlet hole and two water inlets, and the two water inlets are communicated with the water outlet hole; the two water dividing paths are respectively communicated with the two water inlets; the control mechanism comprises a valve core and a driving mechanism, wherein the driving mechanism is in transmission connection with the valve core so as to drive the valve core to perform stepless regulation activity, and the valve core is arranged between the water inlet channel and the two branch channels so as to perform stepless regulation on flow change of the two branch channels.

Drawings

The invention is further described with reference to the following figures and detailed description.

Fig. 1 is a schematic view of a sprinkler according to an embodiment.

FIG. 2 is a schematic cross-sectional view of a showerhead according to an embodiment.

Fig. 3 is a schematic perspective exploded view of a shower head according to an embodiment.

FIG. 4 is a perspective view of a cover according to an embodiment.

Fig. 5 is a schematic perspective view of a water outlet device according to an embodiment, in which water is sprayed.

FIG. 6 is a second schematic perspective view of a water outlet device according to the first embodiment, in which granular water is discharged.

FIG. 7 is a third schematic perspective view of a water outlet device according to the third embodiment, at this time, a column of water is discharged.

FIG. 8 is a fourth schematic perspective view of the water outlet device according to the first embodiment, in which water is stopped.

FIG. 9 is a partial perspective view of a body member of the embodiments.

FIG. 10 is a schematic perspective exploded view of a second embodiment of the water outlet device.

FIG. 11 is a perspective view of a second embodiment of the water outlet device.

Description of reference numerals: the body component 10, the water outlet unit 20, the water inlet path 30, the water diversion path 40, the control mechanism 50 and the control cavity 60; the water distribution device comprises a through opening 11, a water distribution body 12, a first through hole 121, a second through hole 122, a fixed seat 13, an inner arc wall 131, an outer arc wall 132, a fixed plate 133, a handheld part 14 and a head part 15; the water outlet hole 21, the first water inlet 22, the second water inlet 23, the surface cover 24, the water outlet nozzle 241, the surrounding wall 242, the through hole 243 and the water outlet cavity 244; a valve body 51 and a drive mechanism 52; a water diversion port 41; the valve plate 511, the rotary disc 512, the driving shaft 513 and the arc groove 514; a runner 521; cambered surface 61, connecting seat 62;

rack 522, toggle 523, and gear 524.

Detailed Description

Example one

Referring to fig. 1 to 9, the water outlet device includes a body 10, and the body 10 includes a water outlet unit 20, a water inlet passage 30, two water dividing passages 40 and a control mechanism 50. The water outlet unit 20 is provided with a water outlet hole 21 and two water inlet holes 22 and 23 (a first water inlet hole 22 and a second water inlet hole 23 respectively), the two water inlet holes 22 and 23 are communicated with the water outlet hole 21, the flow change of the first water inlet hole 22 and the second water inlet hole 23 controls the water outlet spray of the water outlet hole 21, and the two water dividing paths 40 are communicated with the two water inlet holes 22 and 23 respectively; the control mechanism 50 comprises a valve core 51 and a driving mechanism 52, the driving mechanism 52 is in transmission connection with the valve core 51 so as to drive the valve core 51 to perform stepless regulation, and the valve core 51 is arranged between the water inlet channel 30 and the two branch water channels 40 so as to perform stepless regulation on the flow change of the two branch water channels 40. The above flow rate variation includes: the flow ratio is changed and the switch (the switch is that the first water inlet is filled, the second water inlet is cut off, or the opposite is adopted), the flow change of the two water inlets 22 and 23 is used for controlling the water spray of the water outlet hole 21, on one hand, different water sprays can be discharged from one water outlet hole, on the other hand, the stepless regulation change of the water sprays can be realized, and the change can be formed by changing from one water spray to another water spray in a stepless way, and other water sprays can be generated in the change.

The body component 10 is provided with a control cavity 60, the control cavity 60 is arranged between the water inlet channel 30 and the two water dividing channels 40, the two water dividing channels 40 are both provided with water dividing ports 41 positioned on the inner cavity wall of the control cavity 60, the inner cavity wall of the control cavity 60 is provided with an arc surface 61, and the two water dividing ports 41 are positioned on the arc surface 61 and are circumferentially arranged at intervals; the valve core 51 has a valve plate 511, the valve plate 511 is a cambered surface, the valve core 51 can be rotatably connected in the control cavity 60 so that the valve plate 511 is rotatably connected in the control cavity 60 and rotatably and adaptively attached to the cambered surface 61 of the inner cavity wall, so that the shielded area of the two water dividing ports 41 can be controlled in a stepless manner through the movement of the valve plate 511 to adjust the flow proportion change of the two water dividing paths 40 and stop water in a stepless manner, as shown in fig. 5 to 8, by adopting the structure, the structure is compact and simple, and the adjustment is convenient and quick. In the present embodiment, the movement is described by taking a rotation as an example, but a sliding motion may be adopted as necessary.

The valve core 51 comprises two rotating discs 512 arranged at intervals and a driving shaft 513, the valve plate 511 is fixedly connected between the two rotating discs 512, the two rotating discs 512 can be rotatably connected in the control cavity 60, the positions of the two water dividing ports 41 are spaced corresponding to the two rotating discs 512, and the driving shaft 513 is fixedly connected on one rotating disc 512 positioned at the outer side; the circumferential wall of the rotary disc 512 is concavely provided with an arc groove 514, the inner cavity wall of the control cavity 60 is convexly provided with a limiting bulge 603, and the limiting bulge is positioned in the arc groove to limit the rotating track of the valve core through the matching of the arc groove and the limiting bulge so as to control the water splash change and water stop for the user to control. The connecting seat 62 is fixedly connected to the cavity opening of the control cavity 60, and the driving shaft 513 can pass through the connecting seat 62 in a rotating and sealing manner, so that the layout is reasonable and the structure is compact. The driving mechanism 52 includes a rotating wheel 521 rotatably connected to the body member 10, the rotating wheel 521 and the driving shaft 513 are coaxially connected together to be capable of rotating synchronously, the driving shaft is driven to rotate by the rotation of the rotating wheel, and the valve plate is driven to rotate to realize stepless adjustment. If necessary, the body part 10 is provided with a through opening 11, and the rotary wheel 521 is provided in the through opening 11 and protrudes from both sides of the through opening 11 for the user to operate.

This first water inlet 22, 23 flow directions of second water inlet and 21 flow directions of apopore are all non-parallel arrangement, and this first water inlet 22, 23 flow directions of second water inlet are located the coplanar, but also can not be located the coplanar as required, and this second water inlet 23 flow direction is located plane and 21 axial verticals of apopore, and first water inlet 22 and apopore flow direction antarafacial are perpendicular. The two water inlets are respectively a first water inlet 22 and a second water inlet 23, the flow direction of the first water inlet 22 is arranged along the tangential direction of the water outlet 21, so that the water flow of the first water inlet 22 can enter the water outlet 21 to generate vortex, and vortex atomized water can be generated when water is discharged independently, as shown in fig. 5; the second water inlet 23 is arranged to intersect with the water outlet hole 21 to generate columnar water when water is discharged separately, as shown in fig. 7; when the flow rates of the two water inlets 22 and 23 are equal, the water outlet discharges particle water, as shown in fig. 6. As shown in fig. 8, the water inlet passages 30 are closed by rotating the runner 521, and at this time, water is stopped. Through rotating runner 521, drive valve block 511 makes a round trip to rotate in step to the mixed area change of intaking of first water inlet 22, the second water inlet 23 of control same apopore 21 realizes the same apopore 21 play water and infinitely variable according to following mode: spray water-lantern water-granule water-shower water (column water) -stop water.

The water outlet unit 20 comprises a surface cover 24, and the body member 10 comprises a water distributing body 12 and a fixed seat 13 fixed on the water distributing body. The face cover 24 is provided with a water outlet nozzle 241, the water outlet nozzle 241 is provided with the water outlet hole 21, the first water inlet 22 and the second water inlet 23, the water outlet nozzle 241 is provided with a surrounding wall 242 which is convexly arranged on the back face of the face cover 24 and surrounds the inner port of the water outlet nozzle 241, the surrounding wall 242 is provided with a through hole 243 which penetrates through the inside and the outside, the through hole 243 is the first water inlet 22, and the back end face of the surrounding wall 242 is also concavely provided with the second water inlet 23 which is communicated with the inner port of the water outlet nozzle 241; the water-dividing body 12 seals the end face of the sealing wall 242, so that a water outlet chamber 244 is formed between the face cover 24 and the water-dividing body 12. The water diversion body 12 is provided with a first through hole 121 and a plurality of second through holes 122; the first through hole 121 connects to the water outlet chamber 244, and the water outlet chamber 244 connects to the first water inlet 22; the second through holes 122 communicate with the second water inlets 23 of the water nozzles 241, respectively. The fixed seat 13 is provided with the two water dividing paths 40, the back of the fixed seat 13 is convexly provided with an inner arc wall 131 and an outer arc wall 132 surrounding the inner arc wall, the inner arc wall forms a part of one water dividing path, and a gap between the inner arc wall 131 and the outer arc wall 132 forms a part of the other water dividing path; the fixed seat 13 is fixed on the fixed plate 133 in a sealing way, and the fixed plate 133 is connected with the water dividing passage 40 in a sealing way. By rotating the rotor 521, as shown in fig. 5-7, spray water-lantern water-granule water-shower water (column water) -stop water is controlled.

In the shower head including the above-mentioned water outlet device, the body member 10 includes a hand-held portion 14 and a head portion 15, the water outlet unit 20 is connected to the head portion 15, and the control mechanism 50 is provided in the hand-held portion 14.

In the water outlet device of the embodiment, one water outlet hole can discharge different water flowers, and in each functional water flower state, all the water outlet holes discharge water simultaneously, so that the water flowers are fuller, the water flower coverage area is larger, and the water discharge is more uniform; secondly, stepless regulation and change of the spray can be realized, and stepless change from one spray to another spray can be realized; thirdly, the spray particles, the impact force and the spray form are adjusted in a stepless manner, and the shower requirements of different people are met.

Example two

Referring to fig. 10 and fig. 11, it is different from the first embodiment in that: this actuating mechanism 52 includes rack 522 and group button 523 that can the sliding connection at body part, and this group button 523 rigid coupling is on rack 522, has set firmly gear 524 on this drive shaft 513, and this rack 522 and gear 524 mesh to can slide through group button 523 and drive rack 522 and slide, slide through rack 522 and drive gear 524 and rotate, drive valve block circular motion and realize adjusting. The inner cavity wall of the control cavity 60 is concavely provided with a matching groove 601, a sealing gasket 602 is attached in the matching groove 601, the sealing gasket is provided with water through ports respectively communicated with the two water dividing ports, and the valve plate 511 is matched with the sealing gasket to realize control.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the invention, which is defined by the appended claims and their equivalents.

Claims (16)

1. The water outlet device comprises a body component, and the body component comprises a water outlet unit, a water inlet path, two branch water paths and a control mechanism; the method is characterized in that: the water outlet unit is provided with a water outlet hole and two water inlets, the two water inlets are communicated with the water outlet hole, and the flow change of the two water inlets controls the water outlet of the water outlet hole to discharge water; the two water dividing paths are respectively communicated with the two water inlets; the control mechanism is arranged between the water inlet channel and the two branch channels so as to steplessly adjust the flow change of the two branch channels.

2. The water outlet device of claim 1, wherein: the control mechanism comprises a valve core and a driving mechanism, the driving mechanism is in transmission connection with the valve core and drives the valve core to perform stepless regulation activity, and the valve core is arranged between the water inlet channel and the two branch water channels so as to be capable of steplessly regulating the flow change of the two branch water channels.

3. The water outlet device of claim 2, wherein: the body component is provided with the control cavity, the control cavity is arranged between the water inlet channel and the two water dividing channels, and the two water dividing channels are provided with water dividing ports positioned on the cavity wall in the control cavity; the valve core is provided with a valve plate, and the valve plate is movably attached to the inner wall of the control cavity so as to control the sheltered area of the two water diversion ports in a stepless mode through the movement of the valve plate and adjust the flow change of the two water diversion channels in a stepless mode.

4. A water outlet device according to claim 3, wherein: the valve core is also provided with a driving shaft which can be fixed relative to the valve plate, and the driving mechanism comprises a rotating wheel which can be rotatably connected to the body part, and the rotating wheel and the driving shaft are coaxially connected together so as to be capable of synchronously rotating.

5. A water outlet device according to claim 3 or 4, wherein: the inner cavity wall of the control cavity is provided with a cambered surface, and the two water dividing ports are positioned on the cambered surface and are circumferentially arranged at intervals; the valve plate is cambered, and the valve plate is rotatably connected in the control cavity and is adapted to the cambered surface of the inner cavity wall.

6. The water outlet device of claim 5, wherein: the valve core comprises a rotary disc and a driving shaft, the rotary disc is fixedly connected between the valve plate and the driving shaft, the rotary disc can be rotatably connected in the control cavity, and the positions of the two water dividing ports correspond to the valve plate; the driving mechanism is in transmission connection with the driving shaft.

7. A water outlet device according to claim 2 or 3, wherein: the valve core is also provided with a driving shaft, the driving mechanism comprises a rack which can be slidably connected with the body part, a gear is fixedly arranged on the driving shaft, and the rack is meshed with the gear and drives the valve core to rotate in a sliding manner through the rack.

8. A water outlet device according to claim 1 or 2 or 3 or 4, wherein: these two water inlet flow direction and apopore flow direction are all non-parallel arrangement, and these two water inlets are first water inlet and second water inlet respectively.

9. The water output device of claim 8, wherein: the two water inlets are arranged in the same plane or in parallel.

10. The water output device of claim 8, wherein: the flow direction of the water inlet is vertical to the axial direction of the water outlet.

11. A water outlet device according to claim 1 or 2 or 3 or 4, wherein: these two water inlets are first water inlet and second water inlet respectively, and the setting is followed the apopore tangential so that this first water inlet rivers get into the apopore internal energy and produce the vortex to first water inlet flow direction, and second water inlet flow direction and apopore intersect and set up.

12. A water outlet device according to claim 1 or 2 or 3 or 4, wherein: the two water inlets are respectively a first water inlet and a second water inlet, and the flow direction of the first water inlet is intersected with that of the second water inlet.

13. The water output device of claim 8, wherein: this water outlet unit is including the face lid, and this body part is including dividing the water body, and this face lid is equipped with the faucet, and this faucet is equipped with above-mentioned apopore and water inlet, and this faucet has protruding the leg of covering the back and surrounding the interior port of faucet at the face, and this leg is equipped with the through hole that runs through inside and outside, and this through hole is above-mentioned first water inlet, and this leg dorsad terminal surface still is equipped with the above-mentioned second water inlet of switch-on faucet interior port in the concave, and this sealed lid that divides the water body connects the leg dorsad terminal surface.

14. The water output device of claim 13, wherein: a water outlet cavity is formed between the surface cover and the water distributing body, the water distributing body is provided with a first through hole and a plurality of second through holes, the first through hole is communicated with the water outlet cavity, the water outlet cavity is communicated with the first water inlet, and the second through holes are respectively communicated with the second water inlets of the water outlet nozzles.

15. The water output device of claim 13, wherein: the body part also comprises a fixed seat fixedly arranged on the water distributing body, the fixed seat is provided with the two water distributing paths, the back of the fixed seat is convexly provided with an inner arc wall and an outer arc wall surrounding the inner arc wall, the inner arc wall forms the part of one water distributing path, and the gap between the inner arc wall and the outer arc wall forms the part of the other water distributing path.

16. Gondola water faucet, its characterized in that: it comprises a water outlet device according to claim 1 or 2 or 3 or 4, the body part comprising a hand-held portion and a head portion, the water outlet unit being attached to the head portion, the control means being provided on the hand-held portion.

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