CN215313204U - Shower nozzle and shower - Google Patents

Abstract

The embodiment of the utility model provides a shower nozzle which comprises a cover plate, a water outlet cover and a water inlet piston assembly. The cover plate is provided with a water inlet. The water outlet cover is covered with the cover plate and is provided with a water outlet and a plurality of water outlet through holes, and the water outlet through holes are respectively communicated with the isolation water channel. The water inlet piston assembly is arranged at the water inlet so as to selectively open or close the water outlet. According to the shower nozzle provided by the utility model, the isolation water channel is formed between the cover plate and the water outlet cover of the shower nozzle, and the water outlet cover is provided with the water outlet and the water outlet through holes which are communicated with the isolation water channel, so that residual water in the shower nozzle can be gathered in the isolation water channel after water is shut off and flows out through the water outlet and the water outlet through holes, and the shower nozzle is quickly drained. The embodiment of the utility model also provides a shower.

Description

Shower nozzle and shower

Technical Field

The utility model relates to the technical field of bathrooms, in particular to a shower nozzle and a shower.

Background

The shower head is a common product in a bathroom and can be divided into a handheld shower head and a top spraying shower head according to the using mode. After the shower head on the market is turned off, the condition of dripping water for a long time usually appears, and troubles are brought to users.

SUMMERY OF THE UTILITY MODEL

An object of an embodiment of the present invention is to provide a shower head and a shower to solve the above problems.

The embodiment of the utility model achieves the aim through the following technical scheme.

In a first aspect, embodiments of the present invention provide a shower head, which includes a cover plate, a water outlet cover, and a water inlet piston assembly. The cover plate is provided with a water inlet. The water outlet cover is covered with the cover plate and is provided with a water outlet and a plurality of water outlet through holes, and the water outlet through holes are respectively communicated with the isolation water channel. The water inlet piston assembly is arranged at the water inlet so as to selectively open or close the water outlet.

In one embodiment, the water inlet piston assembly includes a piston receiving portion disposed at the water inlet, and a piston provided with a receiving cavity communicating with the water inlet, the piston being movably mounted in the receiving cavity to selectively open or close the water outlet.

In one embodiment, the intake piston assembly further comprises a stopper disposed in a moving path of the piston.

In one embodiment, the piston housing portion is provided with a piston water inlet, the piston water inlet communicating with the housing chamber, the piston for selectively opening or closing the piston water inlet.

In one embodiment, the piston comprises a first piston and a second piston, the first piston and the second piston are connected, the first piston selectively opens or closes the piston water inlet, and the second piston selectively opens or closes the water outlet.

In one embodiment, the water inlet piston assembly further comprises an elastic member, the elastic member is arranged in the accommodating cavity, and the elastic member is used for providing a restoring force for the piston to open the water outlet.

In one embodiment, the separator waterway is disposed at the outlet cover.

In one embodiment, the outlet is disposed in the center of the outlet cover, and the isolated waterways are radially arranged around the axis of the outlet.

In one embodiment, the outlet cover comprises a first outlet surface and a second outlet surface which are opposite to each other, the water outlet penetrates through the first outlet surface and the second outlet surface, the plurality of water outlet through holes penetrate through the first outlet surface and the second outlet surface, the first outlet surface is provided with a separation wall, and the separation wall and the first outlet surface are enclosed to form a separation water channel.

In a second aspect, embodiments of the present invention further provide a shower, including a shower body, a water outlet pipe and any one of the above shower heads, wherein the water outlet pipe is connected between the shower body and the shower head.

Compared with the prior art, the shower nozzle and the shower provided by the utility model have the advantages that the isolation water channel is formed between the cover plate of the shower nozzle and the water outlet cover, and the water outlet cover is provided with the water outlet and the water outlet through holes which are communicated with the isolation water channel, so that residual water in the shower nozzle after water is shut down can be gathered in the isolation water channel and flows out through the water outlet and the water outlet through holes, and the shower nozzle is quickly drained.

These and other aspects of the utility model are apparent from and will be elucidated with reference to the embodiments described hereinafter.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of a showerhead provided in an embodiment of the present invention.

Fig. 2 is an exploded view of a showerhead provided in accordance with an embodiment of the present invention at one viewing angle.

Fig. 3 is an exploded view of a showerhead provided in accordance with an embodiment of the present invention at another viewing angle.

Fig. 4 is a schematic structural view of a water outlet cover of a shower head according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a piston housing of a shower head according to an embodiment of the present invention.

Fig. 6 is a cross-sectional view of fig. 5 taken along the direction a-a.

Fig. 7 is a schematic water flow diagram of the shower head provided by the embodiment of the utility model when showering.

Fig. 8 is a schematic view of the water flow of the showerhead provided in accordance with an embodiment of the present invention after the water is shut off.

Fig. 9 is a schematic structural view of a shower provided in an embodiment of the present invention.

Detailed Description

In order to facilitate an understanding of the embodiments of the present invention, the embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the examples of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1, an embodiment of the present invention provides a shower head 10, which includes a cover plate 11, a water outlet cover 13, and a water inlet piston assembly 15. The water outlet cover 13 is covered with the cover plate 11 for water outlet. The water inlet piston assembly 15 is installed at the cover plate 11 for water inlet.

Showerhead 10 may be designed to be either top-spraying or hand-held, and top-spraying showerhead 10 is described below as an example.

Referring to fig. 1, 2 and 3, in the present embodiment, the cover plate 11 is substantially a circular plate-shaped structure. The cover plate 11 includes first and second opposing water inlet faces 112 and 114.

The cover plate 11 is provided with a water inlet 116, the water inlet 116 penetrates through the first water inlet surface 112 and the second water inlet surface 114, and water can enter the water outlet surface cover 13 through the water inlet 116 and then flow out of the water outlet surface cover 13 for the user to take a shower. In this embodiment, the water inlet 116 is circular. In other embodiments, the water inlet 116 may have other shapes such as an oval shape if the condition of water inlet is satisfied.

The cover plate 11 further includes a mounting protrusion 118, and the mounting protrusion 118 is substantially circular and is disposed around the water inlet 116. Mounting bosses 118 may be used for mounting of the intake piston assembly 15. In this embodiment, the outer surface of the mounting protrusion 118 is provided with an external thread, and the water inlet piston assembly 15 may be provided with an internal thread matched with the external thread, so that the water inlet piston assembly 15 is detachably mounted on the cover plate 11. In one embodiment, the mounting protrusion 118 may be provided with a snap-fit, and the water inlet piston assembly 15 may be snap-fit with the mounting protrusion 118, so that the water inlet piston assembly 15 can be detachably mounted on the cover plate 11. In another embodiment, the cover plate 11 may also be welded to the intake piston assembly 15.

Referring to fig. 2, fig. 3 and fig. 4, in the present embodiment, the water outlet cover 13 is substantially a circular plate-shaped structure. The outlet cover 13 comprises a first outlet surface 131 and a second outlet surface 132 opposite to each other, wherein the first outlet surface 131 is opposite to the first inlet surface 112.

A separation water channel 133 is formed between the water outlet cover 13 and the cover plate 11. The water inlet 116 may be partitioned and collected into a plurality of water streams by the water isolating channel 133, so that the residual water collected in the water isolating channel 133 forms a water column having a certain height after the water is shut off, which may increase the water pressure in the water isolating channel 133, thereby facilitating the rapid drainage of the shower head 10. The height of the water column of the residual water collected in the sequestration watercourse 133 after water shut-off may be increased by varying the width of the sequestration watercourse 133. For example, under a certain water quantity condition, when the width of the separation waterway 133 is increased, the height of the water column of the residual water in the separation waterway 133 is decreased; as the width of the sequestration flume 133 decreases, the height of the column of residual water within the sequestration flume 133 may increase. In the present embodiment, the width of the separation waterway 133 may be set to about 5 mm.

In this embodiment, the isolation water channels 133 are radially arranged around the axis of the water outlet 134, so that when the shower head 10 is installed at any angle, after water is shut off, residual water collected in the isolation water channels 133 can form a water column with a certain height, and quick water drainage can be realized when the shower head is installed at any angle, which is beneficial to multi-angle installation of the shower head 10. As shown in fig. 4, the number of the water separation passages 133 is five, five water separation passages 133 are radially arranged around the axis of the water discharge port 134, and the angle between two adjacent water separation passages 133 is 72 °. Each set of the separation water passage 133 includes a main water passage 1331 and a plurality of sub water passages 1332, and the plurality of sub water passages 1332 may be respectively disposed at opposite sides of the main water passage 1331 and are communicated with the main water passage 1331. In other embodiments, the number of the water separation channels 133 may be three, four or six, which can separate the water entering from the water inlet 116 and gather the water into a plurality of water streams.

In the present embodiment, the separation waterway 133 is provided in the outlet cover 13. For example, the first water outlet surface 131 is provided with a partition wall 136, and the partition wall 136 radially protrudes from the first water outlet surface 131 and encloses with the first water outlet surface 131 to form a separation waterway 133. In other embodiments, the first water outlet surface 131 may further include grooves (not shown), and the grooves may also form the separation waterway 133. In one embodiment, the separator watercourse 133 may also be disposed on the first water inlet surface 112 of the cover plate 11, for example, the first water inlet surface 112 may be provided with protrusions or grooves to form the separator watercourse 133. In another embodiment, the isolation waterway 133 may be disposed on both the first water inlet surface 112 of the cover plate 11 and the first water outlet surface 131 of the water outlet surface cover 13.

In this embodiment, the separation wall 136 is connected between the first water inlet surface 112 and the first water outlet surface 131, and the first water inlet surface 112 can contact with the separation wall 136 to realize the closed effect on the separation water channel 133, so as to reduce the residual water volume overflowing from the separation water channel 133 after water is shut off, and facilitate the formation of a higher water column height in the separation water channel 133, thereby facilitating the rapid water drainage.

Referring to fig. 2, fig. 3 and fig. 4, the outlet cover 13 is provided with a water outlet 134 and a plurality of water outlet holes 135, the water outlet 134 and the plurality of water outlet holes 135 are respectively communicated with the isolation water channel 133, wherein the plurality of water outlet holes 135 are all disposed in the water blocking channel 133. When taking a shower, the drain port 134 is closed, so that water introduced into the shower head 10 can flow out of the plurality of outlet holes 135 through the separation water passage 133. After the water is shut off, the water outlet 134 is opened, which facilitates the rapid discharge of the residual water in the separation channel 133. The drain port 134 and the plurality of water outlet holes 135 are respectively communicated with the isolation water channel 133, so that when the shower nozzle 10 is installed at any angle, water can be drained through the drain port 134 and the plurality of water outlet holes 135 at the same time, rapid water outlet is realized, and rapid water drainage of the shower nozzle 10 under installation at any angle is realized. For example, when the shower head 10 is installed at 45 °, when water is shut off, the remaining water in the water blocking passage 133 is collected into a water column having a certain height, and the water can be rapidly discharged through the water discharge port 134 and the water discharge holes 135. Rapid drainage is also achieved when showerhead 10 is mounted at other angles.

The drain 134 penetrates the first water outlet surface 131 and the second water outlet surface 132. The drain port 134 communicates with the separation waterway 133, and may rapidly drain the remaining water in the separation waterway 133. For example, when the shower head 10 is installed obliquely and water is shut off, the residual water in the separation water channel 133 can be discharged quickly through the drain port 134. In the present embodiment, the drain port 134 has a circular shape and is provided at the center of the circular outlet cover 13.

The outlet holes 135 may be used for water outlet during showering or after water is shut off. The plurality of water outlet holes 135 penetrate the first water outlet surface 131 and the second water outlet surface 132, and are communicated with the isolation waterway 133, so that residual water in the isolation waterway 133 can be rapidly discharged. For example, the shower head 10 is installed obliquely, and after water is shut off, the residual water in the isolation water channel 133 can be discharged rapidly through the plurality of water outlet holes 135, and the larger the height of the water column is, the larger the water pressure at the water outlet hole 135 at a lower position is, which is beneficial to discharging water through the water outlet hole 135. The drain port 134 and the plurality of water outlet through holes 135 are respectively communicated with the separation water channel 133, so that residual water in the showerhead 10 can be collected in the separation water channel 133 after water is shut off, and the residual water in the separation water channel 133 can be rapidly discharged through the drain port 134 and the plurality of water outlet through holes 135, thereby achieving rapid water discharge of the showerhead 10. The plurality of water outlet holes 135 are directly formed in the first water outlet surface 131, and no water outlet step is formed in the water outlet holes 135, so that water can be discharged more smoothly. Wherein the water outlet step can refer to the water outlet structure of the existing shower head. The inventor finds that after water is turned off, the drainage time is less than 10s through practical operation, and compared with other similar products on the market, the drainage time is obviously shortened.

In this embodiment, the plurality of outlet holes 135 may be further uniformly disposed on the first outlet surface 131. For example, the plurality of outlet holes 135 are arranged in the first outlet surface 131 in an array, which facilitates uniform water outlet of the shower head 10.

Referring to fig. 2, the outlet cover 13 further includes a water outlet protrusion 137 and a flow guiding protrusion 138, both the water outlet protrusion 137 and the flow guiding protrusion 138 protrude from the second outlet surface 132, wherein the water outlet protrusion 137 surrounds the water outlet 134, and can guide the residual water discharged from the water outlet 134, so as to realize rapid water discharge and prevent the water from flowing along the second outlet surface 132 after flowing out of the water outlet 134. The guide protrusion 138 surrounds the water outlet hole 135, and can guide the residual water discharged from the water outlet hole 135, so as to realize rapid water discharge and prevent the water from flowing along the second water outlet surface 132 after flowing out from the water outlet hole 135.

With continued reference to fig. 2, the inlet piston assembly 15 is disposed at the inlet 116 to selectively open or close the outlet 134. The intake piston assembly 15 may be used for intake of water. During showering, the intake piston assembly 15 blocks the drain 134 so that water can only drain through the plurality of outlet through holes 135 for showering. After the water is shut off, the inlet piston assembly 15 opens the drain port 134 so that the residual water remaining in the showerhead 10 can be discharged through the plurality of outlet through holes 135 as well as through the drain port 134, thereby achieving rapid water discharge of the showerhead 10.

The inlet piston assembly 15 includes a piston receiving portion 150 and a piston 152, the piston 152 being movably mounted within the piston receiving portion 150 to selectively open or close the water outlet 134. The piston 152 may move in a direction away from the piston inlet 1514 under the pressure of the water flow.

Referring to fig. 2, 5 and 6, the piston receiving portion 150 is disposed at the water inlet 116, for example, the piston receiving portion 150 is connected to the mounting protrusion 118 (fig. 3) by a screw thread. The piston receiving portion 150 has a piston water inlet 1514 and a receiving cavity 1512, the receiving cavity 1512 is in communication with the water inlet 116, and the piston water inlet 1514 is in communication with the receiving cavity 1512. During showering, water may enter the housing 1512 through the piston inlet 1514, enter the inlet 116 through the housing 1512, and exit the plurality of water exit holes 135 through the separator waterway 133 (FIG. 3).

Piston receiving portion 150 includes a piston outer housing 1510 and a piston inner housing 1530, wherein piston outer housing 1510 is threadably connected to mounting protrusion 118 having external threads through internal threads, piston outer housing 1510 is provided with a piston water inlet 1514 and a receiving cavity 1512, and piston inner housing 1530 is connected to piston outer housing 1510 and is located in receiving cavity 1512.

Inner piston housing 1530 includes an inner wall 1532 and a bottom plate 1534 coupled together, inner wall 1532 and bottom plate 1534 defining an interior chamber 1536, interior chamber 1536 communicating with piston inlet 1514. The piston inner housing 1530 is provided with a water passage 1538, and the inner chamber 1536 can communicate with the water inlet 116 through the water passage 1538. In this embodiment, the water passage 1538 is disposed between the inner wall 1532 and the bottom plate 1534. In other embodiments, the water passage 1538 may be disposed only on the inner wall 1532 or only on the bottom plate 1534.

Referring to fig. 5 and 6, inlet piston assembly 15 further includes a stopping portion 155, and stopping portion 155 is disposed in the moving path of piston 152, for example, stopping portion 155 is connected to inner piston housing 1530. The stopper 155 can be used to limit the moving distance of the piston 152, so that the water outlet 134 (fig. 2) can be blocked when the piston 152 is at the movement stop position, thereby preventing water from leaking from the water outlet 134 due to excessive movement of the piston 152.

In this embodiment, stopper 155 is located in the middle of inner cavity 1536. The stopping portion 155 includes a first stopping portion 1551 and a second stopping portion 1557 connected to each other, the first stopping portion 1551 and the second stopping portion 1557 are respectively connected to two opposite sides of the bottom plate 1534 and are both in a hollow cylindrical shape, wherein the first stopping portion 1551 is located in the inner cavity 1536, and the first stopping portion 1551 may be used for limiting a moving distance of the piston 152 in a direction away from the piston water inlet 1514; a second stop 1557 may be used to limit the distance that the piston 152 moves in a direction closer to the piston water inlet 1514. The first stopper 1551 is provided with a first through hole 1553, the second stopper 1557 is provided with a second through hole 1559, the first through hole 1553 is communicated with the second through hole 1559, and the first through hole 1553 and the second through hole 1559 can be used for the penetration of the piston 152. In this embodiment, the first through hole 1553 and the second through hole 1559 are coaxially disposed, and the aperture of the second through hole 1559 is larger than the aperture of the first through hole 1553.

In other embodiments, the stopper portion 155 may be disposed on the inner wall 1532 of the piston inner housing 1530 under the condition that the piston 152 in the movement stop position can close the water outlet 134.

Referring to FIGS. 2, 3 and 6, the piston 152 is movably mounted within the housing 1512 to selectively open or close the piston inlet 1514. In this embodiment, the piston 152 includes a first piston 1520 and a second piston 1540, and the first piston 1520 and the second piston 1540 are connected, wherein the connection may be a threaded connection. In other embodiments, the first piston 1520 and the second piston 1540 may be connected by a snap fit or an adhesive.

First piston 1520 can selectively open or close off piston water inlet 1514. The first piston 1520 includes a first piston body 1521 and a first connecting portion 1523 connected. The outer diameter of the first piston body 1521 is larger than the outer diameter of the first stopper 1551, and may be slightly smaller (for example, smaller by about 0.5 mm) than the inner diameter of the piston water inlet 1514, so that the first piston 1520 may be stopped by the first stopper 1551, and may also block the piston water inlet 1514, preventing water in the water shut-off and water inlet pipe from continuing to flow into the shower head 10 through the piston water inlet 1514, and may also increase the water flow pressure during the next water intake, and may more easily push the piston 152 to move in a direction away from the piston water inlet 1514. The outer peripheral surface of the first piston main body 1521 may be provided with a first sealing ring 1525 to prevent water from entering the accommodating cavity 1512 from a gap between the piston accommodating portion 150 and the first piston main body 1521, so as to improve the sealing effect on the piston water inlet 1514. The first connecting portion 1523 is substantially rod-shaped, is disposed through the first through hole 1553, and is connected between the first piston main body 1521 and the second piston 1540.

The second piston 1540 can selectively open or close the water discharge port 134. Second piston 1540 includes a second piston body 1541 and a second connecting portion 1543 that are connected. The outer diameter of the second piston body 1541 is larger than the outer diameter of the second stopper 1557 and may be slightly smaller (e.g., about 0.5mm smaller) than the inner diameter of the drain 134, so that the second piston 1540 may be stopped by the second stopper 1557 and may also close the drain 134. The outer peripheral surface of the second piston main body 1541 may be provided with a second sealing ring 1545 to prevent water from entering the accommodating cavity 1512 from a gap between the water outlet cover 13 and the second piston main body 1541, so as to improve the sealing effect on the water outlet 134. The outer diameter of the second connecting portion 1543 is smaller than the outer diameter of the second piston body 1541, and the second connecting portion 1543 is connected to the first connecting portion 1523 and can pass through the second through hole 1559.

Referring to fig. 7, the inlet piston assembly 15 further includes a resilient member 156, the resilient member 156 is disposed in the accommodating cavity 1512, and the resilient member 156 can provide a restoring force for the piston 152 to open the water outlet 134 and also provide a restoring force for the piston 152 to close the piston water inlet 1514. In this embodiment, the elastic member 156 is a compression spring, which is wound around the outside of the first stopping portion 1551 and located between the first piston main body 1521 and the bottom plate 1534. Before the shower head 10 is used, the first piston 1520 blocks the piston inlet 1514 and the second piston 1540 opens the outlet 134 due to the restoring force of the elastic member 156. When the water pressure is not sufficient to overcome the restoring force of the elastic member 156, the first piston 1520 keeps blocking the piston inlet 1514, so that the elastic member 156 prevents water from being discharged through the water outlet 134 or the plurality of water outlet holes 135 when the water pressure is too low, thereby avoiding the problem of water outflow when the shower 1 is started.

Referring to fig. 2, in the present embodiment, the shower head 1 further includes a water outlet 17, and the water outlet 17 is mounted on the water outlet protrusion 137. Wherein the mounting mode can be clamping, bonding or threaded connection. The water outlet nozzle 17 can be used for water outlet and also has a decorative effect.

Referring to fig. 7 and 8, the principles of the showerhead 10 of the present invention are described,

during a shower, water enters from piston inlet 1514, the pressure of the water overcomes the return force of resilient member 156 and pushes first piston 1520 in a direction away from piston inlet 1514, first piston 1520 opens piston inlet 1514, and second piston 1540 closes off drain 134. Water enters the interior cavity 1536 through the piston inlet 1514 and enters the inlet 116 through the water passage 1538 and exits the plurality of outlet throughbores 135 through the sequestration water channel 133 (FIG. 3) for flushing by the user.

After the water is shut off, the water flow pressure to which the first piston 1520 is subjected gradually decreases, and when the water flow pressure decreases to be less than the restoring force of the elastic member 156, the elastic member 156 pushes the first piston 1520 to move in a direction to approach the piston inlet 1514, the first piston 1520 blocks the piston inlet 1514, and the second piston opens the blocked outlet 134. The residual water remaining in the showerhead 10 is collected in the separation water passage 133 and flows out from the plurality of water outlet holes 135 through the separation water passage 133, for example, when the showerhead 10 is installed obliquely, the residual water in the separation water passage 133 can be discharged through the water outlet 134 and quickly discharged from the water outlet nozzle 137, and the residual water in the separation water passage 133 can also be discharged quickly through the plurality of water outlet holes 135, thereby realizing the quick water discharge of the showerhead 10.

In summary, according to the shower head 10 of the present invention, the isolation water channel 133 is formed between the cover plate 11 and the outlet cover 13, and the outlet cover 13 is provided with the water outlet 134 and the plurality of water outlet holes 135 communicated with the isolation water channel 133, so that the residual water in the shower head 10 after water is shut off can be collected in the isolation water channel 133, and the residual water in the isolation water channel 133 can be rapidly discharged through the water outlet 134 and the plurality of water outlet holes 135, thereby achieving rapid water discharge of the shower head 10. When shower nozzle 10 is the installation of arbitrary angle, close the water back, the residual water of gathering in keeping apart water course 133 all can form the water column that has a take the altitude, can realize going out residual water fast through outlet 134 and a plurality of outlet opening 135 drainage simultaneously, has realized the quick drainage of shower nozzle 10 under the installation of arbitrary angle.

Referring to fig. 9, a shower 1 according to an embodiment of the present invention includes a shower body 20, a water outlet pipe 30 and a shower head 10, wherein the water outlet pipe 30 is connected between the shower body 20 and the shower head 10.

The shower body 20 may be mounted to a wall surface and may be connected to the shower head 10 via the outlet pipe 30. A shower switch may be provided, by which the on/off of the water flow of the shower head 10 and the magnitude of the water flow are controlled.

In summary, according to the shower 1 of the present invention, the isolation water channel 133 is formed between the cover plate 11 and the outlet cover 13 of the shower head 10, and the outlet cover 13 is provided with the water outlet 134 and the plurality of water outlet holes 135 which are communicated with the isolation water channel 133, so that the residual water in the shower head 10 after water is shut off can be collected in the isolation water channel 133 and flow out through the water outlet 134 and the plurality of water outlet holes 135, thereby achieving rapid water drainage of the shower head 10.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A showerhead, comprising:

the cover plate is provided with a water inlet;

the water outlet surface cover is covered with the cover plate, an isolation water channel is formed between the water outlet surface cover and the cover plate, a water outlet and a plurality of water outlet through holes are formed in the water outlet surface cover, and the water outlet through holes are respectively communicated with the isolation water channel; and

the water inlet piston assembly is arranged at the water inlet so as to selectively open or close the water outlet.

2. The showerhead of claim 1, wherein the inlet piston assembly includes a piston receiving portion disposed at the water inlet and a piston provided with a receiving cavity in communication with the water inlet, the piston being movably mounted in the receiving cavity to selectively open or close the water outlet.

3. The showerhead of claim 2, wherein the feed piston assembly further comprises a stop disposed in a path of movement of the piston.

4. The showerhead of claim 2 wherein the piston receiving portion has a piston water inlet communicating with the receiving cavity, the piston for selectively opening or closing the piston water inlet.

5. The showerhead of claim 4, wherein the piston comprises a first piston and a second piston, the first piston and the second piston being connected, the first piston selectively opening or closing the piston water inlet, the second piston selectively opening or closing the water outlet.

6. The showerhead of claim 2, wherein the intake piston assembly further comprises a resilient member disposed within the receiving cavity for providing a restoring force to the piston to open the drain opening.

7. The showerhead of claim 1, wherein the separator flume is disposed in the outlet cover.

8. The showerhead of claim 1 wherein the drain opening is centrally disposed in the outlet cover and the segregated water channels are radially arranged about an axis of the drain opening.

9. The showerhead of claim 1, wherein the outlet cover comprises a first outlet surface and a second outlet surface opposite to each other, the outlet port penetrates the first outlet surface and the second outlet surface, the plurality of outlet through holes penetrate the first outlet surface and the second outlet surface, the first outlet surface is provided with a separation wall, and the separation wall and the first outlet surface enclose to form the separation water channel.

10. A shower including a shower body, an outlet pipe and a showerhead according to any of claims 1 to 9, the outlet pipe being connected between the shower body and the showerhead.

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