CN216823159U - Shower bath - Google Patents

Abstract

A shower is arranged on an external wall and comprises a shower body and a first water outlet assembly; a water inlet channel, a first water outlet channel, a second water outlet channel and a water pipe are arranged in the shower body; the water inlet channel is externally connected with water inlet; one end of the water passing pipe is suitable for being communicated with the water inlet channel, and the other end of the water passing pipe extends into the first end of the first water outlet channel and forms a water passing gap with the inner wall of the first water outlet channel in an enclosing manner; the second water outlet channel is communicated with the first water outlet channel through the water passing gap; the first water outlet assembly is connected with the shower body and is provided with a first water outlet channel and a communicating and stopping piece, and the first water outlet channel is communicated with the first water outlet channel; the stopping piece is suitable for receiving the action of external force to open and close the first water outlet channel; when the first water outlet channel is closed by the stop piece, the second water outlet channel discharges water. Two water outlet channels of the shower of the embodiment correspond to one water distribution gear of the water distribution valve, and the opening and closing states of the two water outlet channels can be switched with each other.

Description

Shower bath

Technical Field

The utility model relates to a bathroom accessory field, concretely relates to shower.

Background

In the existing shower with the shunt valve arranged in the water outlet component, for the convenience of operation, the rotation range of the shunt valve is generally limited to the range which can be directly observed by a user; if the water diversion valve part faces the wall body, the water diversion handle is limited by the wall body when rotating; thus, the rotation range of the shunt valve is limited. The existing shower is generally provided with only three water outlet channels, and the water outlet mode corresponds to one water outlet mode when the water dividing valve rotates 90 degrees. Therefore, if the water path needs to be increased, the requirement for the shunt valve is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect or the problem that exist among the background art, provide a two water channels and correspond a diversion gear of shunt valve, and two go out the shower that the state of opening and closing can switch over each other between the water channel.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the first scheme is as follows: a shower is arranged on an external wall and comprises a shower body and a first water outlet assembly; a water inlet channel, a first water outlet channel, a second water outlet channel and a water pipe are arranged in the shower body; the water inlet channel is externally connected with water inlet; one end of the water passing pipe is suitable for being communicated with the water inlet channel, and the other end of the water passing pipe extends into the first end of the first water outlet channel and is enclosed with the inner wall of the first water outlet channel to form a water passing gap; the second water outlet channel is communicated with the first water outlet channel through the water passing gap; the first water outlet assembly is connected with the shower body and is provided with a first water outlet channel and a communicating and stopping piece, and the first water outlet channel is communicated with the first water outlet channel; the stop piece is suitable for receiving the action of external force to open and close the first water outlet channel.

Scheme II: based on the first scheme, a first cavity suitable for being communicated with the water inlet channel is further formed in the shower body; the first cavity, the second water outlet channel and the first water outlet channel are sequentially arranged in the shower body from top to bottom along the vertical direction; the first end of the first water outlet channel is opened at the bottom wall of the second water outlet channel; the water passing pipe penetrates through the second water outlet channel, one end of the water passing pipe is in sealing fit with the cavity wall of the first cavity, and the other end of the water passing pipe extends into the first end of the first water outlet channel.

The third scheme is as follows: based on the second scheme, the water-saving valve further comprises a water-dividing valve core; the shower body is also internally provided with a first accommodating cavity, a third water outlet channel and a fourth water outlet channel; the water diversion valve core is arranged in the first accommodating cavity; the water diversion valve core comprises a movable part and a static part; the static part is provided with a water receiving channel, a first water dividing channel, a second water dividing channel and a third water dividing channel; the water receiving channel is communicated with the water inlet channel; the first water distribution channel, the second water distribution channel and the third water distribution channel are respectively communicated with the first cavity, the third water outlet channel and the fourth water outlet channel; the movable portion is provided with a water passing channel communicated with the water receiving channel, and the water passing channel is suitable for being communicated with one of the first water dividing channel, the second water dividing channel and the third water dividing channel by rotating around a first axis relative to the static portion.

And the scheme is as follows: based on the third scheme, the water distribution device further comprises a water distribution handle; the shower body is provided with a first extension part extending along the vertical direction; the first extension part is internally provided with the first accommodating cavity; the water diversion handle comprises a first body, an operation part and a rotation stopping part, wherein the first body is sleeved outside the first extension part and is suitable for rotating around the first axis relative to the first extension part; the operating part is fixedly connected with the outer wall of the first body; one end of the rotation stopping part is matched with the operation part in a rotation stopping way, and the other end of the rotation stopping part extends into the first accommodating cavity to be matched with the movable part in a rotation stopping way.

And a fifth scheme: based on the fourth scheme, the water distribution label sleeve is further included; the water distribution mark sleeve is sleeved outside the first extension part and is in rotation stopping fit with the first extension part; a first water diversion icon, a second water diversion icon and a third water diversion icon which deviate from the wall body are sequentially arranged on the outer peripheral wall of the water diversion identification sleeve along the circumferential direction; the operating part extends along the horizontal direction; when the water dividing handle rotates to the position that the operation part corresponds to the first water dividing icon, the water passing channel is communicated with the first water dividing channel; when the water diversion handle rotates to the position that the operation part corresponds to the second water diversion icon, the water passing channel is communicated with the third water diversion channel; when the water diversion handle rotates to the position where the operation portion corresponds to the third water diversion icon, the water passing channel is communicated with the second water diversion channel.

Scheme six: based on the fifth scheme, the method further comprises the steps of switching a temperature adjusting valve; the water inlet channel comprises a hot water inlet channel externally connected with hot water and a cold water inlet channel externally connected with cold water; a second accommodating cavity is also arranged in the shower body; the switch is arranged in the second accommodating cavity for adjusting the temperature; the switch temperature regulating valve comprises a fixed part and a movable part; the fixed piece is provided with a cold water inlet communicated with the cold water inlet channel, a hot water inlet communicated with the hot water inlet channel and a mixed water outlet communicated with the water receiving channel; the movable piece is provided with a water mixing channel which is suitable for being communicated with the hot water inlet, the cold water inlet and the mixed water outlet; the movable piece is suitable for opening or closing the communication between the mixed water outlet and the mixed water channel by sliding relative to the fixed piece; the movable piece is suitable for rotating around a second axis relative to the fixed piece so as to adjust the hot water in the hot water inlet channel and the cold water in the cold water inlet channel to enter the mixing channel

And a seventh scheme is that based on the sixth scheme, a second extending part which extends along the horizontal direction and deviates from the wall body is arranged on the shower body, and a second accommodating cavity is arranged in the second extending part.

And the eighth scheme is as follows: based on the seventh scheme, the water purifier further comprises a second water outlet assembly, a third water outlet assembly and a fourth water outlet assembly; the second water outlet assembly is connected with the shower body and is provided with a second water outlet channel communicated with the second water outlet channel; the third water outlet assembly is connected with the shower body and is provided with a third water outlet channel communicated with the third water outlet channel; the fourth water outlet assembly is connected with the shower body and is provided with a fourth water outlet channel communicated with the fourth water outlet channel.

The scheme is nine: based on the eighth scheme, the device further comprises a shell; the shower body is arranged in the shell, the first extension part extends out of the top wall of the shell, and the water diversion handle and the water diversion identification sleeve are both positioned outside

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

1. one end of the water passing pipe is communicated with the water inlet channel, and the other end of the water passing pipe extends into the first end of the first water outlet channel; and the first water outlet channel of the first water outlet assembly is communicated with the first water outlet channel. Therefore, when the first water outlet channel is opened by the through-stop member of the first water outlet assembly, water can move in the pressure relief direction under the action of water pressure, namely flows out of the first water outlet channel after entering the first water outlet channel from the first water outlet channel. And the second water outlet channel is communicated with the first water outlet channel through the water passing gap, so that when the first water outlet channel is closed by the passing and stopping piece of the first water outlet assembly, water cannot be decompressed through the first water outlet channel, and therefore the water can flow into the second water outlet channel from the water passing gap. Through the arrangement, the water outlet states between the first water outlet channel and the second water outlet channel can be mutually switched, so that when a water distribution valve core on a shower distributes water, only the water pipe is required to pass through the water, and then the switching water outlet of the first water outlet channel and the second water outlet channel can be realized by virtue of the passing and stopping piece on the first water outlet assembly; the two water outlet channels correspond to one water distribution gear of the water distribution valve, and water outlet of more water channels can be realized even under the condition that the rotation range of the water distribution valve is limited.

2. The first cavity is arranged in the shower body and communicated with the water inlet channel through the first cavity, so that the water passing pipe is communicated with the water inlet channel, the water passing pipe is detachably connected with the shower body, and the shower body is convenient to form.

3. A shunt valve is arranged in the shower body for shunting water so as to meet various water outlet requirements of the shower.

4. And a water distribution handle is arranged for operating the water distribution valve core.

5. The water distribution identification sleeve is arranged, so that a user can conveniently select a required water outlet mode.

6. The switch temperature regulating valve is used for opening and closing the shower and can regulate the temperature of water discharged from the shower.

7. And the second water outlet assembly, the third water outlet assembly and the fourth water outlet assembly are arranged, so that each water outlet channel of the shower corresponds to different water outlet modes.

8. The shell can be used for placing objects, and is more attractive. The first extension portion stretches out of the top wall of the shell, so that the water diversion handle and the water diversion identification sleeve which are installed on the first extension portion are located outside the shell, and operation is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required 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 some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of a shower in this embodiment;

FIG. 2 is a schematic view of the shower in the first state;

FIG. 3 is a schematic view of the shower in a second state according to the present embodiment;

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

FIG. 5 is a schematic cross-sectional view of B-B of FIG. 3;

FIG. 6 is a schematic structural view of the shower in a third state according to the present embodiment;

FIG. 7 is a schematic cross-sectional view of C-C of FIG. 6;

fig. 8 is a schematic structural view of a fourth state of the shower in the present embodiment;

FIG. 9 is a schematic cross-sectional view of D-D in FIG. 8;

FIG. 10 is a structural schematic diagram of a first view angle of the water diversion valve core;

FIG. 11 is a structural schematic diagram of the water diversion valve core at a second viewing angle;

fig. 12 is a schematic perspective view of the spray gun.

Description of the main reference numbers:

a shower body 1; an inner core 11; a first extension 111; a second extension 112; a hot water inlet channel 113; a cold water inlet channel 114; a first cavity 115; a second water outlet channel 116; a first mounting hole 117; water passage mounting holes 118; a second cavity 119; a first flume 120; a first joint 12; a second joint 13; a third joint 14; a spool cover 15; a gland body 151; a first post 152; a water conduit 16; a first water outlet passage 17; a third water outlet passage 18; a fourth water outlet channel 19; a water passing gap 20;

a water diversion valve core 2; a movable section 21; a water passage 211; a stationary portion 22; a water receiving channel 221; a first water distribution channel 222; a second water distribution passage 223; a third shunt 224;

a water diversion handle 3; a first body 31; an operation section 32; a rotation stopper 33;

a water distribution identification sleeve 4;

switching on and off the temperature regulating valve 5; a fixed member 51; a hot water inlet 511; a cold water inlet 512; a mixed water outlet 513; a movable member 52; a water mixing channel 521; the first rotating member 53; a second rotating member 54; an operating handle 55; a pin 56;

a first water outlet assembly 6; a spray gun 61; a pass-through member 62; a lance hose 63;

a second water outlet assembly 7;

a third water outlet assembly 8; a hand-held shower head 81; a hand-held shower hose 82;

a fourth water outlet assembly 9; a top shower 91; an upper water outlet pipe 92;

a housing 10; an upper cover 101; a lower case 102; a first aperture 103.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are preferred embodiments of the invention and should not be considered as excluding other embodiments. Based on the embodiment of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, all directional or positional relationships, such as those using the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like, are based on the directional or positional relationships illustrated in the drawings and are for the purpose of convenience in describing the invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore are not to be construed as limiting the scope of the invention.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the term "fixedly connected" or "fixedly connected" is used, which is to be understood broadly, that is, any connection mode without displacement relation or relative rotation relation between the two, that is, including non-detachably fixed connection, integrated connection and fixed connection through other devices or elements.

In the claims, the specification and the drawings, the terms "including", "comprising" and variations thereof, if used, are intended to be inclusive and not limiting.

As shown in fig. 1 to 12, the shower includes a shower body 1, a water diversion valve core 2, a water diversion handle 3, a water diversion identification sleeve 4, a switch temperature regulation valve 5, a first water outlet assembly 6, a second water outlet assembly 7, a third water outlet assembly 8, a fourth water outlet assembly 9 and a shell 10. In this embodiment, the shower is installed on an external wall.

As shown in fig. 4, 7 and 9, the shower body 1 is provided with an inlet channel, a water pipe 16, a first water outlet channel 17, a second water outlet channel 116, a third water outlet channel 18, a fourth water outlet channel 19, a first accommodating cavity and a second accommodating cavity.

Wherein, as shown in fig. 4, 7 and 9, the water inlet channel is externally connected with inlet water. One end of the water passing pipe 16 is suitable for being communicated with the water inlet channel, and the other end of the water passing pipe extends into the first end of the first water outlet channel 17 and is enclosed with the inner wall of the first water outlet channel 17 to form a water passing gap 20; the second water outlet channel 116 communicates with said first water outlet channel 17 through the water passage gap 20. Specifically, the water inlet channel includes a hot water inlet channel 113 externally connected with hot water and a cold water inlet channel 114 externally connected with cold water.

Further, as shown in fig. 4, 7 and 9, the shower body 1 is also provided with a first cavity 115 adapted to communicate with the water inlet channel; the first cavity 115, the second water outlet channel 116 and the first water outlet channel 17 are sequentially arranged in the shower body 1 from top to bottom along the vertical direction; the first end of the first water outlet channel 17 is opened at the bottom wall of the second water outlet channel 116; the water pipe 16 penetrates the top wall and the bottom wall of the second water outlet channel 116, and one end of the water pipe is in sealing fit with the wall of the first cavity 115, and the other end of the water pipe extends into the first end of the first water outlet channel 17.

Further, as shown in fig. 5 and 7, the shower body 1 is further provided with a first extension 111 extending along the vertical direction and a second extension 112 extending along the horizontal direction and away from the wall. Specifically, the first extending portion 111 extends upward along the vertical direction, and a first accommodating cavity is disposed in the first extending portion 111. A second accommodating cavity is formed in the second extending portion 112.

Specifically, as shown in fig. 5, 7 and 9, the shower body 1 includes an inner core 11, a first joint 12, a second joint 13, a third joint 14 and a valve core gland 15.

As shown in fig. 4, 5 and 7, the first extension 111, the second extension 112, the water inlet channel, the first cavity 115 and the second water outlet channel 116 are all disposed on the inner core 11. An opening is formed at the upper end of the first accommodating cavity in the first extending portion 111, and an opening is formed at one end of the second accommodating cavity in the second extending portion 112, which is away from the wall body. Wherein, the hot water inlet channel 113 and the cold water inlet channel 114 are respectively located at two sides of the second extension part 112. One end of the hot water inlet channel 113 is externally connected with hot water, and the other end of the hot water inlet channel penetrates through the bottom wall of the second accommodating cavity and is communicated with the second accommodating cavity; one end of the cold water inlet channel 114 is externally connected with cold water, and the other end of the cold water inlet channel penetrates through the bottom wall of the second accommodating cavity and is communicated with the second accommodating cavity.

As shown in fig. 4, a first mounting hole 117 extending in the vertical direction and having one end penetrating through the bottom wall of the second water outlet channel 116 is provided below the second water outlet channel 116; one end of the first joint 12 is in sealing fit with the inner wall of the first mounting hole 117, and the other end extends out of the first mounting hole 117. The inner bore of the first adapter 12 forms a first water outlet channel 17.

As shown in fig. 4 and 9, the first chamber 115 is located below the first receiving chamber, and the top thereof communicates with the first receiving chamber. A water passing pipe mounting hole 118 extending in the vertical direction penetrates through the bottom wall of the first cavity 115, and the aperture of the water passing pipe mounting hole 118 is smaller than that of the first mounting hole 117. The water pipe 16 passes through the second water outlet channel 116, and one end of the water pipe is in threaded connection and sealing fit with the wall of the water pipe mounting hole 118. The other end extends into the inner hole of the first joint 12 and forms a water passing gap 20 with the side wall of the first joint 12. Set up first chamber 115 in this embodiment in shower body 1, through first chamber 115 and inlet channel intercommunication to make water pipe 16 and inlet channel intercommunication, set up like this, make water pipe 16 and shower body 1 can dismantle the connection, convenient shaping.

As shown in fig. 9, a second cavity 119 extending in the vertical direction is further disposed on one side of the inner core 11 located in the first cavity 115, the second cavity 119 is located below the first cavity, one end of the second cavity is communicated with the first cavity, and the other end of the second cavity is provided with an opening. One end of the second joint 13 is in sealing fit with one end of the second cavity 119 deviating from the first accommodating cavity, and the other end extends out of the second cavity 119. The inner bore of the second joint 13 is in communication with the second chamber 119 and together form the third water outlet channel 18.

As shown in fig. 5, the inner core 11 is further provided with a first water channel 120 communicating the first accommodating cavity and the second accommodating cavity.

As shown in fig. 5, the valve core gland 15 includes a gland body 151, the gland body 151 is a cylinder extending in a vertical direction, and a first groove opened at a bottom end is formed in the gland body 151. The top wall of the gland body 151 is provided with a first convex column 152 extending upwards along the vertical direction, a first through hole is arranged in the first convex column 152, and the first through hole penetrates through the groove wall of the first groove and is communicated with the first groove.

As shown in fig. 5 and 9, the water diversion valve core 2 is placed in the first accommodating cavity. The gland body 151 of the valve core gland 15 is arranged in one end of the opening of the first accommodating cavity, the end face of the gland body 151 departing from the first convex column 152 is pressed against the end face of the water diversion valve core 2, and the first convex column 152 extends out of the first accommodating cavity. The third joint 14 is connected with the first protruding pillar 152 in a sealing manner, and the third joint 14 is provided with an inner hole communicated with the first through hole. The inner bore, the first through hole and the first groove of the third joint 14 are communicated with each other to form a fourth water outlet channel 19.

As shown in fig. 10 and 11, the water diversion valve body 2 includes a movable portion 21 and a stationary portion 22. The static part 22 is provided with a water receiving channel 221, a first water distributing channel 222, a second water distributing channel 223 and a third water distributing channel 224; the water receiving channel 221 is communicated with a water inlet channel; the first water distribution channel 222, the second water distribution channel 223 and the third water distribution channel 224 are respectively communicated with the first cavity 115, the third water outlet channel 18 and the fourth water outlet channel 19; the movable portion 21 is provided with a water passage 211 communicating with the water passage 221, and adapted to communicate the water passage 211 with one of the first water distribution passage 222, the second water distribution passage 223 and the third water distribution passage 224 by rotating about the first axis with respect to the stationary portion 22. In the present embodiment, the water diversion valve core 2 is a conventional valve core, and therefore, the specific structure thereof is not expanded in detail. In this embodiment, the water receiving passage 221 communicates with the first water passage 120 of the inner core 11. A water diversion valve core 2 is arranged in the shower body 1 for water diversion so as to meet various water outlet requirements of the shower.

As shown in fig. 9, the handle for water separation 3 includes a first body 31, an operation portion 32, and a rotation stopper 33. The first body 31 is sleeved outside the first extending portion 111 and is adapted to rotate around a first axis relative to the first extending portion 111; the operation part 32 is fixedly connected with the outer wall of the first body 31 and extends along the horizontal direction; one end of the rotation stopping portion 33 is engaged with the operation portion 32 in a rotation stopping manner, and the other end thereof extends into the first accommodating cavity to be engaged with the movable portion 21 in a rotation stopping manner. The water diversion valve core 2 is controlled by arranging the water diversion handle 3 to drive the water diversion valve core 2 to rotate.

Specifically, as shown in fig. 9, the first body 31 is a circular ring fitted with the first extension 111. One end of the horizontal plate extending along the horizontal direction of the operation part 32 is fixedly connected with the outer wall of the first body 31, and a rotation stopping groove penetrating through the inner wall of the first body 31 is arranged in the operation part 32. One end of the rotation stopping part 33 is inserted into the rotation stopping groove to be matched with the operation part 32 in a rotation stopping way, and the other end of the rotation stopping part penetrates through the outer wall of the first extending piece to extend into the first accommodating cavity to be in threaded connection with the movable part 21 to form rotation stopping matching. When the water diversion handle 3 is used, the first body 31 and the rotation stopping part 33 are driven to rotate by stirring the operation part 32, so as to drive the water diversion valve core 2 to rotate.

As shown in fig. 9, the water diversion label sleeve 4 is sleeved outside the first extension portion 111 and is in rotation stopping fit with the first extension portion 111. The periphery wall of the water distribution identification sleeve 4 is sequentially provided with a first water distribution icon, a second water distribution icon and a third water distribution icon which deviate from the wall body along the circumferential direction. Specifically, the water diversion mark sleeve 4 comprises a mark sleeve body, the mark sleeve body is a cylinder with a downward opening, and the first water diversion icon, the second water diversion icon and the third water diversion icon are all arranged on the outer wall of the mark sleeve body. The inner diameter of the identification sleeve body is matched with the outer diameter of the first extension part 111, and a second through hole matched with the first convex column 152 penetrates through the bottom wall of the identification sleeve body. The identification sleeve body is covered on the top end of the first extension portion 111, and the first protruding column 152 extends out of the second through hole of the identification sleeve body. The bottom wall of the logo sleeve body is clamped between the gland body 151 and the lower end face of the third joint 14 to form a rotation stop fit with the first extension part 111. The water distribution identification sleeve 4 is arranged, so that a user can conveniently select a required water outlet mode.

As shown in fig. 1, 5 and 7, the on-off thermostatic valve 5 is disposed in the second accommodating cavity and is used for turning on or off the shower and adjusting the temperature of the water discharged from the shower. The switching thermostat valve 5 comprises a fixed member 51 and a movable member 52. The fixed piece 51 is provided with a cold water inlet 512 communicated with the cold water inlet channel 114, a hot water inlet 511 communicated with the hot water inlet channel 113 and a mixed water outlet 513 communicated with the water receiving channel 221; the movable piece 52 is provided with a water mixing channel 521 which is suitable for being communicated with the hot water inlet 511, the cold water inlet 512 and the mixed water outlet 513; the movable member 52 is adapted to slide relative to the fixed member 51 to open or close the communication between the mixed water outlet 513 and the mixing channel 521; the movable member 52 is adapted to rotate about a second axis relative to the stationary member 51 to adjust the ratio of the hot water in the hot water inlet channel 113 and the cold water in the cold water inlet channel 114 entering the water mixing channel 521. In this embodiment, the mixed water outlet 513 is communicated with the water receiving channel 221 through the first water channel 120, so that the water receiving channel 221 is communicated with the water inlet channel.

As shown in fig. 1, 5 and 7, the switching thermostatic valve 5 includes a valve body and an operating handle, a fixed member 51 and a movable member provided on the valve body. The operating handle comprises a transmission and an operating handle 55. The transmission member includes a first rotating member 53 and a second rotating member 54. The first rotating member 53 is engaged with the moving member 52 in a rotation-stop manner, and the first rotating member 53 is provided with a third through hole along the horizontal direction. And a second rotating member 54 inserted into the third through hole and having one end engaged with the moving member 52 and the other end engaged with the operating handle 55. The second rotating member 54 is connected to the first rotating member 53 by a pin 56 perpendicular to the second axis. When the second rotating part 54 rotates around the second axis, the first rotating part 53 can be driven to drive the moving part 52 to rotate around the second axis; and the second rotating member 54 is adapted to rotate around the pin 56 relative to the first rotating member 53 to slide the movable member 52. When the operating handle 55 is used, the operating handle 55 is pulled outwards relative to the shower body 1, so that the mixed water channel 521 is communicated with the mixed water outlet 513; the operating handle 55 is pushed inwards relative to the shower body 1 under the condition that the water mixing channel 521 is communicated with the mixed water outlet 513, so that the communication between the water mixing channel 521 and the mixed water outlet 513 is closed. When the operating handle 55 is rotated about the second axis, the movable member 52 is rotated by the transmission member, and temperature adjustment is performed. In the present embodiment, the on-off thermostat valve 5 is a prior art, and thus, the detailed structure thereof is not expanded in detail.

As shown in figures 1, 4 and 12, the first outlet assembly 6 is attached to the shower body 1 and is provided with a first outlet channel and a pass-through member 62. The first water outlet passage is communicated with the first water outlet passage 17, and the through-stopping piece 62 is suitable for receiving the action of external force to open and close the first water outlet passage.

In the present embodiment, as shown in fig. 1, 4 and 12, the first water outlet assembly 6 includes a spray gun 61 and a spray gun hose 63. The spray gun 61 is provided with a spray gun 61 water inlet channel and a spray gun 61 water outlet channel which are suitable for being communicated with each other. One end of the spray gun hose 63 is fixedly connected with the spray gun 61, and a water channel inside the spray gun hose forms a first water outlet channel together with a water inlet channel of the spray gun 61 and a water outlet channel of the spray gun 61 in the spray gun 61; the stop member 62 is installed in the spray gun 61 and is used for opening and closing the communication between the water inlet channel of the spray gun 61 and the water outlet channel of the spray gun 61 so as to open and close the first water outlet channel. The end of the spray gun hose 63 departing from the spray gun 61 is fixedly connected with the first connector 12, so that the first water outlet channel 17 is communicated with the first water outlet path.

As shown in fig. 4, the second water outlet assembly 7 is attached to the shower body 1 and is provided with a second water outlet channel connected to the second water outlet channel 116. In this embodiment, the second water outlet assembly 7 is a bubbler, one end of which is disposed in the water outlet end of the second water outlet channel 116, and is screwed and sealed with the inner core 11, and the other end of which extends out of the second water outlet channel 116.

As shown in fig. 1 and 9, the third water outlet assembly 8 is attached to the shower body 1 and is provided with a third water outlet passage 18 communicating with the third water outlet passage. In this embodiment, the third water outlet assembly 8 includes a hand-held shower 81 and a hand-held shower hose 82. One end of the hand-held shower hose 82 is fixedly connected with the hand-held shower 81, a water channel in the hand-held shower hose 82 is communicated with the hand-held shower 81, and the water channel and the hand-held shower 81 form a third water outlet channel together. One end of the hand-held shower hose 82, which is far away from the hand-held shower 81, is fixedly connected with the second joint 13 so as to communicate the third water outlet channel with the third water outlet channel 18.

As shown in fig. 1, 5 and 9, the fourth water outlet assembly 9 is attached to the shower body 1 and is provided with a fourth water outlet passage that communicates with the fourth water outlet passage 19. In the present embodiment, the fourth water outlet assembly 9 includes an upper water outlet pipe 92 and a top shower 91. One end of the upper water outlet pipe 92 is fixedly connected with the top shower 91, a water channel in the upper water outlet pipe 92 is communicated with the top shower 91, and the water channel and the top shower 91 form a fourth water outlet channel. One end of the upper water outlet pipe 92 departing from the top shower 91 is fixedly connected with the third joint 14 so as to communicate the fourth water outlet channel and the fourth water outlet channel 19.

In the embodiment, four water outlet assemblies are arranged, so that each water outlet channel of the shower corresponds to different water outlet modes.

As shown in fig. 1, 2, 4, and 5, the housing 10 is a hollow case enclosed by an upper cover 101 and a lower case 102 fixed to each other. The shower body 1 is installed in the housing 10, the first extending portion 111 extends out of the top wall of the housing 10, and the water diversion handle 3 and the water diversion identification sleeve 4 are both located outside the housing 10. The operation is convenient. In this embodiment, the first joint 12 and the second joint 13 both extend out of the housing 10, and are conveniently connected to corresponding water outlet assemblies. The hot water inlet channel 113 and the cold water inlet channel 114 extend from the casing 10 toward the wall surface at the end of the external water source, so as to facilitate the external water source. An operating handle 55 for switching the temperature regulating valve 5 is positioned outside the shell 10, so that the operation is convenient. The bottom wall of the housing 10 is also provided with a first hole 103 facing the second water outlet assembly 7, and water flowing to the second water outlet assembly 7 flows out of the shower through the first hole 103. In this embodiment, the housing 10 can be used for placing objects, and is more beautiful.

The installation process of the shower of this embodiment is as follows:

as shown in fig. 1 to 12, first, the on-off thermostatic valve 5 is placed in the second housing chamber of the core 11. Then, the water diversion valve core 2 is placed in the first containing cavity of the inner core 11, and the valve core gland 15 is installed in the first containing cavity. Thereafter, the dispensing handle 3 and the dispensing sign housing 4 are mounted on the first extension 111. Thereafter, the draft tube 16 is installed in the draft tube installation hole 118. Thereafter, the first joint 12, the second joint 13 and the third joint 14 are mounted on the core 11. Then, the second water outlet assembly 7 is installed in the second water outlet channel 116.

Thereafter, the core 11 is placed in the lower case 102 of the outer case 10, and the upper cover 101 is fixedly attached to the lower case 102. Then, fixedly connecting the water inlet end of the hot water inlet channel 113 of the inner core 11 with a hot water pipe in the wall body, so that the hot water inlet channel 113 is communicated with hot water; the water inlet end of the inner core 11, to which the cold water is fed, is fixedly connected with a cold water pipe in the wall body, so that the cold water inlet channel 114 is communicated with the cold water. And finally, the first water outlet assembly 6, the third water outlet assembly 8 and the fourth water outlet assembly 9 are hermetically connected with the first joint 12, the second joint 13 and the third joint 14 respectively, and the installation is completed.

The shower of this embodiment is used as follows:

as shown in fig. 1 to 12, when the shower is to be used, the operating handle 55 of the thermostat valve 5 is turned on and off outward with respect to the shower body 1. At this time, the mixed water channel 521 is communicated with the mixed water outlet 513, and the hot water in the hot water inlet channel 113 and the cold water in the cold water inlet channel 114 enter the mixed water channel 521 to be mixed and then enter the first water channel 120 of the inner core 11 from the mixed water outlet 513 to enter the water receiving channel 221 of the water diversion valve core 2. At this time, the water dividing handle 3 is rotated according to the requirement to select the required water outlet mode.

When the water diversion handle 3 is rotated until the operation part 32 corresponds to the first water diversion icon, the water passage 211 communicates with the first water diversion passage 222. Since the first water distribution passage 222 communicates with the first chamber 115, the mixed water enters the first chamber 115. In the initial state, the through-stop member 62 of the spray gun 61 closes the first water outlet channel, at this time, the mixed water enters the first water outlet channel 17 and the first water outlet channel through the water pipe 16, and since the mixed water cannot be decompressed through the first water outlet channel, the mixed water enters the second water outlet channel 116 through the water gap 20 and then flows out from the second water outlet channel, that is, the water flows out from the second water outlet assembly 7, and the shower is in a bubbler water outlet state. If the first water outlet channel is opened through the stop piece 62 on the spray gun 61, the mixed water can be decompressed through the first water outlet channel, and the mixed water moves towards the decompression direction under the action of water pressure, at the moment, the first water outlet assembly 6 discharges water, and the shower is in a water discharging state of the spray gun 61.

In the embodiment, through the arrangement, the water outlet states between the first water outlet channel 17 and the second water outlet channel 116 can be switched, so that when the water diversion valve core 2 on the shower is used for water diversion, only the water pipe 16 needs to be passed through, and then the water outlet of the first water outlet channel 17 and the second water outlet channel 116 can be switched by means of the stop piece 62 on the first water outlet assembly 6; the two water outlet channels correspond to one water distribution gear of the water distribution valve, and water outlet of more water channels can be realized even under the condition that the rotation range of the water distribution valve is limited.

When the water diversion handle 3 is rotated until the operation portion 32 corresponds to the second water diversion icon, the water passage 211 communicates with the third water diversion passage 224. Since the third water diversion channel 224 is communicated with the fourth water outlet channel 19, the mixed water enters the fourth water outlet channel 19 and then is discharged from the fourth water outlet channel. Namely, the fourth water outlet assembly 9 is used for water outlet, and the shower is in a state that the top shower head 91 is used for water outlet.

When the water diversion handle 3 is rotated to the operating part 32 corresponding to the third water diversion icon, the water passing passage 211 communicates with the second water diversion passage 223. Because the second water diversion channel 223 is communicated with the third water outlet channel 18, the mixed water enters the third water outlet channel 18 and then flows out from the third water outlet path, namely the third water outlet assembly 8 discharges water, and the shower outlet hand-held shower head 81 discharges water.

When the shower is in any of the four water outlet states, the temperature can be adjusted by rotating the operating handle 55 of the on-off temperature adjusting valve 5. In the state of water outlet of the shower, the operating handle 55 of the temperature regulating valve 5 is turned inwards to switch the water mixing channel 521 to be not communicated with the mixed water outlet 513, so that the shower is closed.

The description of the above specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention. Modifications, equivalents and other improvements which may be made to the embodiments of the invention or to some of the technical features thereof by a person of ordinary skill in the art through logical analysis, reasoning or limited experimentation in light of the above teachings of the invention or the above embodiments are intended to be included within the scope of the invention.

Claims (9)

1. The utility model provides a shower, it is installed on external wall body, its characterized in that includes:

the shower body is internally provided with a water inlet channel, a first water outlet channel, a second water outlet channel and a water pipe; the water inlet channel is externally connected with water inlet; one end of the water passing pipe is suitable for being communicated with the water inlet channel, and the other end of the water passing pipe extends into the first end of the first water outlet channel and is enclosed with the inner wall of the first water outlet channel to form a water passing gap; the second water outlet channel is communicated with the first water outlet channel through the water passing gap;

the first water outlet assembly is connected with the shower body and is provided with a first water outlet channel and a communicating and stopping piece, and the first water outlet channel is communicated with the first water outlet channel; the stopping piece is suitable for receiving the action of external force to open and close the first water outlet channel; when the first water outlet channel is closed by the stop piece, water is discharged from the second water outlet channel.

2. A shower as claimed in claim 1, wherein a first chamber is provided in the shower body adapted to communicate with the inlet conduit;

the first cavity, the second water outlet channel and the first water outlet channel are sequentially arranged in the shower body from top to bottom along the vertical direction;

the first end of the first water outlet channel is opened at the bottom wall of the second water outlet channel;

the water passing pipe penetrates through the top wall and the bottom wall of the second water outlet channel, one end of the water passing pipe is in sealing fit with the cavity wall of the first cavity, and the other end of the water passing pipe extends into the first end of the first water outlet channel.

3. A shower as claimed in claim 2, further comprising a water diverter spool;

the shower body is also internally provided with a first accommodating cavity, a third water outlet channel and a fourth water outlet channel;

the water diversion valve core is arranged in the first accommodating cavity;

the water diversion valve core comprises a movable part and a static part; the static part is provided with a water receiving channel, a first water dividing channel, a second water dividing channel and a third water dividing channel; the water receiving channel is communicated with the water inlet channel; the first water distribution channel, the second water distribution channel and the third water distribution channel are respectively communicated with the first cavity, the third water outlet channel and the fourth water outlet channel; the movable portion is provided with a water passing channel communicated with the water receiving channel, and the water passing channel is suitable for being communicated with one of the first water dividing channel, the second water dividing channel and the third water dividing channel by rotating around a first axis relative to the static portion.

4. A shower as claimed in claim 3, further comprising a dispensing handle;

the shower body is provided with a first extension part extending along the vertical direction; the first extension part is internally provided with the first accommodating cavity;

the water diversion handle comprises a first body, an operation part and a rotation stopping part, wherein the first body is sleeved outside the first extension part and is suitable for rotating around the first axis relative to the first extension part; the operating part is fixedly connected with the outer wall of the first body; one end of the rotation stopping part is matched with the operation part in a rotation stopping way, and the other end of the rotation stopping part extends into the first accommodating cavity to be matched with the moving part in a rotation way.

5. A shower as claimed in claim 4, further including a knock out sleeve;

the water distribution mark sleeve is sleeved outside the first extension part and is in rotation stopping fit with the first extension part;

a first water diversion icon, a second water diversion icon and a third water diversion icon which deviate from the wall body are sequentially arranged on the outer peripheral wall of the water diversion identification sleeve along the circumferential direction;

the operating part extends along the horizontal direction;

when the water dividing handle rotates to the position that the operation part corresponds to the first water dividing icon, the water passing channel is communicated with the first water dividing channel; when the water diversion handle rotates to the position that the operation part corresponds to the second water diversion icon, the water passing channel is communicated with the third water diversion channel; when the water diversion handle rotates to the position where the operation portion corresponds to the third water diversion icon, the water passing channel is communicated with the second water diversion channel.

6. A shower as claimed in claim 5, further comprising an on/off thermostatic valve;

the water inlet channel comprises a hot water inlet channel externally connected with hot water and a cold water inlet channel externally connected with cold water;

a second accommodating cavity is also arranged in the shower body;

the switch is arranged in the second accommodating cavity for adjusting the temperature;

the switch temperature regulating valve comprises a fixed part and a movable part; the fixed piece is provided with a cold water inlet communicated with the cold water inlet channel, a hot water inlet communicated with the hot water inlet channel and a mixed water outlet communicated with the water receiving channel; the movable piece is provided with a water mixing channel which is suitable for being communicated with the hot water inlet, the cold water inlet and the mixed water outlet; the movable piece is suitable for opening or closing the communication between the mixed water outlet and the mixed water channel by sliding relative to the fixed piece; the movable piece is suitable for rotating around a second axis relative to the fixed piece so as to adjust the ratio of hot water in the hot water inlet channel and cold water in the cold water inlet channel entering the water mixing channel.

7. A shower as claimed in claim 6, wherein the shower body is provided with a second extension extending horizontally away from the wall, the second extension being provided with the second receiving cavity.

8. A shower as claimed in claim 7, further comprising a second water outlet assembly, a third water outlet assembly and a fourth water outlet assembly;

the second water outlet assembly is connected with the shower body and is provided with a second water outlet channel communicated with the second water outlet channel;

the third water outlet assembly is connected with the shower body and is provided with a third water outlet channel communicated with the third water outlet channel;

the fourth water outlet assembly is connected with the shower body and is provided with a fourth water outlet channel communicated with the fourth water outlet channel.

9. A shower as claimed in claim 8, further comprising a housing;

the shower body is installed in the shell, the first extension part extends out of the top wall of the shell, and the water diversion handle and the water diversion identification sleeve are both located outside the shell.

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