CN209876037U - Water path control system of rising stem shower - Google Patents

Abstract

The utility model discloses a water path control system of rising stem shower, including diverter valve and external pipeline. The switching valve comprises a valve body and a valve core, and the valve core is provided with four water outlet holes; a transverse partition, a lower vertical partition, an upper vertical partition and a through partition are arranged in the valve body, so that the valve body is divided into a water inlet cavity, a lower water outlet cavity, a first upper water outlet cavity, a second upper water outlet cavity and a side water outlet cavity which are mutually independent; the transverse diaphragm divides the valve body into an upper part and a lower part; the lower vertical partition is arranged at the lower part of the valve body, and divides the valve body at the lower half part into a water inlet cavity and a lower water outlet cavity; the upper vertical partition is arranged at the upper part of the valve body, and divides the valve body at the upper half part into a first upper water outlet cavity and a second upper water outlet cavity; the through spacer is a circular tube, and the inner wall of the circular tube forms the side water outlet cavity. Implement the utility model discloses, can realize the free switching of four kinds of functions of rising stem shower bath, simple structure, application scope are wide.

Description

Water path control system of rising stem shower

Technical Field

The utility model relates to a sanitary bath equipment technical field especially relates to a water route control system of rising stem shower.

Background

The traditional rising stem shower device realizes the switching of three functions of top spraying, handheld shower and a lower faucet through the switching valve body, and a user can flexibly select the three functions according to the use requirement. However, with the development of the open-lever shower device, the four-function open-lever shower device with the back spraying function has wider and wider application range, and can better meet the use requirements of users. To achieve four shower functions, a switching valve with four water paths is required.

Disclosure of Invention

The utility model aims to solve the technical problem that a water path control system of rising stem shower is provided, can realize the free switching of four kinds of functions of rising stem shower bath, simple structure, application scope are wide.

In order to solve the technical problem, the utility model provides a water path control system of rising stem shower, which comprises a switching valve and an external pipeline;

the switching valve comprises a valve body and a valve core, and the valve core is provided with four water outlet holes; the valve body is internally provided with a transverse partition, a lower vertical partition, an upper vertical partition and a through partition, and the transverse partition, the lower vertical partition, the upper vertical partition and the through partition divide the valve body into a water inlet cavity, a lower water outlet cavity, a first upper water outlet cavity, a second upper water outlet cavity and a side water outlet cavity which are mutually independent;

the transverse diaphragm divides the valve body into an upper part and a lower part; the lower vertical partition is arranged at the lower part of the valve body, and divides the valve body at the lower half part into a water inlet cavity and a lower water outlet cavity; the upper vertical partition is arranged at the upper part of the valve body, and divides the valve body at the upper half part into a first upper water outlet cavity and a second upper water outlet cavity; the through spacer is a circular tube, and the inner wall of the circular tube forms the side water outlet cavity.

As the improvement of the technical scheme, the external pipeline comprises a lower water outlet pipeline, a top spray pipeline, a back spray pipeline and a handheld shower pipeline, wherein the lower water outlet pipeline, the top spray pipeline, the back spray pipeline and the handheld shower pipeline are respectively and correspondingly connected with the lower water outlet cavity, the first upper water outlet cavity, the second upper water outlet cavity and the side water outlet cavity.

As an improvement of the technical scheme, a platform is arranged at the upper end of the upper vertical separation piece, and the platform and the valve body form a water passing cavity;

the platform is provided with a notch and a round hole, the notch is the water outlet of the second upper water outlet cavity, and the round hole is the water outlet of the first upper water outlet cavity.

As an improvement of the technical scheme, the top spraying pipeline is a connecting pipe matched with the round hole, and the connecting pipe is inserted into the bottom of the round hole so as to divide the water passing cavity into two parts.

As an improvement of the above technical solution, the top spray pipeline and the back spray pipeline are concentrically arranged along an axis, and the top spray pipeline is arranged outside the back spray pipeline.

As an improvement of the technical scheme, the lower end of the valve body is provided with a connecting hole, and water enters the water inlet cavity along the connecting hole.

As an improvement of the above technical scheme, the water mixing valve further comprises a water mixing valve, wherein the water mixing valve comprises a water mixing valve core and a water mixing valve body, the water mixing valve body is provided with a water mixing valve mounting seat, and the water mixing valve core is mounted in the water mixing valve mounting seat.

As an improvement of the technical scheme, a hot water pipeline, a cold water pipeline and a water mixing pipeline are arranged in the water mixing valve body.

As an improvement of the technical scheme, the mounting seat of the water mixing valve is provided with three second water passing holes, and the second water passing holes are respectively connected with the hot water pipeline, the cold water pipeline and the water mixing pipeline.

As an improvement of the technical scheme, the automatic switching device further comprises an operating mechanism, and the operating mechanism comprises a switch handle and a switching handle.

Implement the utility model discloses, following beneficial effect has:

the utility model provides a water route control system of rising stem shower can realize the four function switch of rising stem shower, and device simple structure, range of application are wide. Specifically, the method comprises the following steps: a plurality of partition plates and through spacer plates are arranged in the valve body; the transverse diaphragm divides the valve body into an upper part and a lower part; the lower vertical partition is arranged at the lower part of the valve body, and divides the valve body at the lower half part into a water inlet cavity and a lower water outlet cavity; the upper vertical partition is arranged at the upper part of the valve body, and divides the valve body at the upper half part into a first upper water outlet cavity and a second upper water outlet cavity; the through spacer is a circular tube, and the inner wall of the circular tube forms the side water outlet cavity. Namely, the valve body is divided into 5 independent water paths by the partition plate, water is supplied to the four water paths through one valve body, and the integration degree is high. In addition, based on current three function shower bath a concentric tube is cup jointed in the outside of top shower pipeline, install the back of the body shower on the concentric tube, and use the diverter valve can be transformed into four function diverter valves with three function shower bath, and application scope is wide.

Drawings

Fig. 1 is a perspective view of a waterway control system of a rising stem shower according to the present invention;

fig. 2 is a front view of a waterway control system of the rising stem shower according to the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a front view of the valve body of the switching valve of FIG. 2;

FIG. 5 is a cross-sectional view taken along line D-D of FIG. 4;

FIG. 6 is a sectional view F-F of FIG. 4;

FIG. 7 is a cross-sectional view E-E of FIG. 4;

FIG. 8 is a perspective view of a valve spool of the switching valve of FIG. 2;

FIG. 9 is a front view of the mixing valve body of FIG. 2;

fig. 10 is a top view of the mixing valve body of fig. 2;

fig. 11 is a perspective view of the mixing valve cartridge of fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

Referring to fig. 1 to 3, the present invention discloses a waterway control system for rising stem shower, which includes a switching valve 100, an external pipeline 200, an operating mechanism 300 and a water mixing valve 400. The operating mechanism 300 controls the switching valve 100 and the mixing valve 400 to open and close, so as to open the switching valve 100 and the mixing valve 400. The mixing valve 400 is connected to a hot water inlet pipe and a cold water outlet pipe, and mixes hot water and cold water and then feeds the mixed water to the switching valve 100. Five independent cavities are arranged in the switching valve 100, and a valve core of the switching valve 100 rotates to supply water to the downward water outlet channel, the handheld shower head, the back-spraying shower head and the top-spraying shower head, so that free switching of four functions of open-bar shower is realized. The specific structures of the switching valve 100, the external pipe 200, the operating mechanism 300, and the mixing valve 400 will be described below.

Referring to fig. 4 to 8, the switching valve 100 is constructed as follows.

The switching valve 100 includes a valve body 110 and a valve spool 140. The valve body 101 is tubular, a mounting seat 111 is arranged on the side wall of the valve body 110, and the valve core 140 is mounted in the mounting seat 111. The valve core 140 includes four water distribution holes 141 distributed on the same circumference, different water distribution holes 141 can be opened by rotating, and four water through holes 112 distributed on the same circumference and adapted to the water distribution holes 141 are provided at the bottom of the mounting seat 111. Four independent cavities are arranged in the valve body 110, and water is respectively fed into the four independent cavities through the four water through holes 112 so as to supply water to the downward water outlet channel, the handheld shower head, the back-spraying shower head and the top-spraying shower head. In order to form the four independent cavities, a transverse partition 113, a lower vertical partition 114, an upper vertical partition 115 and a through partition 116 are arranged in the valve body 110, and the transverse partition 113, the lower vertical partition 114, the upper vertical partition 115 and the through partition 116 divide the valve body 110 into a water inlet cavity 117, a lower water outlet cavity 118, a first upper water outlet cavity 119, a second upper water outlet cavity 120 and a side water outlet cavity 121 which are independent from each other.

The transverse spacer 113 is vertically arranged along the axis of the valve body 110, and the transverse spacer 113 divides the valve body 110 into an upper part and a lower part, and simultaneously divides the water through holes 112 at the bottom of the mounting seat 111 into two parts which are symmetrical up and down.

The lower vertical spacer 114 is arranged at the lower part of the valve body 110, the lower vertical spacer 114 is arranged parallel to the axis of the valve body 110, and the upper end of the lower vertical spacer 114 is connected with the transverse spacer 113. The lower vertical spacer 114, the horizontal spacer 113 and the front inner wall of the cavity form a front cavity, the front cavity is a water inlet cavity 117, and water enters the valve core 140 from the water inlet cavity 117 to complete water diversion. The lower vertical partition 114, the horizontal partition 113 and the inner wall of the rear side of the cavity form a back cavity, the back cavity is a lower water outlet cavity 118, and water flows out from the water through hole 112 and is supplied to the lower water outlet through the lower water outlet cavity 118.

The upper vertical spacer 115 is provided at an upper portion of the valve body 110, and the upper vertical spacer 115 is provided in parallel along an axis of the valve body 110. The upper upstanding diaphragm 115 divides the upper half of the valve body 110 into two separate chambers. The chambers are respectively communicated with two water through holes 112 positioned at the upper half part.

The through spacer 116 is a circular tube, and the inner wall of the circular tube forms the side water outlet cavity 121. One end of the through spacer 116 is connected to the bottom of the mounting seat 111, and is directly connected to a water through hole 112 located at the lower half, so as to form the side water outlet.

The valve body 110 is divided into 5 independent chambers by the transverse partition 113, the lower vertical partition 114, and the penetrating partition 116, and a water inlet passage and four independent water outlet passages are formed in the same device.

Further, a platform 122 is disposed at the upper end of the upper vertical partition 115, and the platform 122 and the valve body 110 form a water passing chamber. The platform 122 is provided with a notch 123 and a circular hole 124, the notch 123 is the water outlet of the second upper water outlet cavity 120; the circular hole 124 is a water outlet of the first upper water outlet cavity 119, and a pipeline is arranged in the circular hole 124 to form an independent waterway. With the above structure, in the water passing cavity, the water paths in the first upper water outlet cavity 119 and the second upper water outlet cavity 120 are independent from each other; meanwhile, the structure is more compact, and a plurality of water outlets do not need to be arranged on the valve body 110.

In addition, the lower end of the valve body 110 is provided with a connection hole 125, and water enters the water inlet chamber 117 along the connection hole 125. The connection hole 125 is located at the lower end of the front cavity, and the connection hole 125 is connected to the water outlet of the mixing valve 400.

The structure of the external pipe 200 is as follows.

The external pipeline 200 comprises a lower water outlet pipeline 201, a top spraying pipeline 202, a back spraying pipeline 203 and a handheld shower pipeline 204. The lower water outlet pipeline 201, the top spraying pipeline 202, the back spraying pipeline 203 and the hand-held shower pipeline 204 are correspondingly connected with the lower water outlet cavity 118, the first upper water outlet cavity 119, the second upper water outlet cavity 120 and the side water outlet cavity 121 respectively. The lower water outlet pipeline 201, the top spraying pipeline 202, the back spraying pipeline 203 and the handheld shower head pipeline 204 are independent, and the top spraying pipeline 202 and the back spraying pipeline 203 are integrated. Specifically, the top spray pipe 202 is a connecting pipe adapted to the circular hole 124 of the upper vertical partition 115, and the connecting pipe is inserted into the bottom of the circular hole 124 to divide the water passing cavity into two parts. Preferably, the top spray pipeline 202 is arranged concentrically with the axis of the back spray pipeline 203, and the top spray pipeline 202 is arranged outside the back spray pipeline 203.

By adopting the pipeline structure, the top spraying pipeline 202 and the back spraying pipeline 203 can be integrated in one pipe, so that the appearance is simple and attractive. Meanwhile, on the basis of the existing three-function shower device, the three-function shower device can be transformed into the four-function switching valve 100 by only sleeving a concentric pipe on the outer side of the top spraying pipeline 202 and then using the switching valve 100.

Referring to fig. 9 to 11, the mixing valve 400 is constructed as follows.

The mixing valve 400 comprises a mixing valve core 401 and a mixing valve body 402, the mixing valve body 402 is provided with a mixing valve mounting seat 403, and the mixing valve core 401 is mounted in the mixing valve mounting seat 403. The mixing valve 400 mixes hot water and cold water and then feeds the mixed water to the switching valve 100. A hot water pipe 404, a cold water pipe 405 and a mixing water pipe 406 are arranged in the mixing valve body 402. The valve core 401 of the water mixing valve is provided with three water through holes 407, the mounting seat 403 of the water mixing valve is provided with three second water through holes 408, and the second water through holes 408 are respectively connected with the hot water pipeline 404, the cold water pipeline 405 and the water mixing pipeline 406.

The structure of the steering mechanism 300 is as follows.

The operating mechanism 300 includes a switch knob 301 and a switching knob 302. The switch handle 301 and the mixing valve core 401 are fixed by a pin, the switch handle 301 is rotated to open the pipeline in the mixing valve 400, and the hot water and the cold water are mixed and then sent into the water inlet cavity 117 through the connecting hole 125 at the lower end of the valve body 110 of the switching valve along the mixing pipeline 406. The switching handle 302 is provided with a gear mark, and the switching handle 302 is connected with the core of the switching valve 100 through a spline and is fixed through a pin.

To sum up, the utility model discloses a set up a plurality of spacers in the valve body 110 of diverter valve 100 will valve body 110 divide into 5 independent cavities, go out water cavity 120 and side play water cavity 121 on water cavity 118, first go up out water cavity 119, the second including intake antrum 117, down. The valve core 140 is provided with four water outlet holes, and each cavity corresponds to one water through hole 112, so that the four functions of the rising stem shower can be freely switched, and the structure is simple and compact. Meanwhile, the shower device can be formed by refitting the existing three-function shower device, and has wide application range.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. A waterway control system of rising stem shower is characterized by comprising a switching valve and an external pipeline;

the switching valve comprises a valve body and a valve core, and the valve core is provided with four water outlet holes; the valve body is internally provided with a transverse partition, a lower vertical partition, an upper vertical partition and a through partition, and the transverse partition, the lower vertical partition, the upper vertical partition and the through partition divide the valve body into a water inlet cavity, a lower water outlet cavity, a first upper water outlet cavity, a second upper water outlet cavity and a side water outlet cavity which are mutually independent;

the transverse diaphragm divides the valve body into an upper part and a lower part; the lower vertical partition is arranged at the lower part of the valve body, and divides the valve body at the lower half part into a water inlet cavity and a lower water outlet cavity; the upper vertical partition is arranged at the upper part of the valve body, and divides the valve body at the upper half part into a first upper water outlet cavity and a second upper water outlet cavity; the through spacer is a circular tube, and the inner wall of the circular tube forms the side water outlet cavity.

2. The waterway control system of an open-bar shower according to claim 1, wherein the external pipes include a lower water outlet pipe, a top spray pipe, a back spray pipe and a hand-held shower pipe, and the lower water outlet pipe, the top spray pipe, the back spray pipe and the hand-held shower pipe are respectively and correspondingly connected with the lower water outlet cavity, the first upper water outlet cavity, the second upper water outlet cavity and the side water outlet cavity.

3. The waterway control system of an open-stem shower according to claim 2, wherein a platform is arranged at the upper end of the upper vertical partition, and the platform and the valve body form a water passing cavity;

the platform is provided with a notch and a round hole, the notch is the water outlet of the second upper water outlet cavity, and the round hole is the water outlet of the first upper water outlet cavity.

4. The waterway control system of an open-stem shower according to claim 3, wherein the top-spraying pipeline is a connecting pipe adapted to the circular hole, and the connecting pipe is inserted into the bottom of the circular hole to divide the water passing cavity into two parts.

5. The waterway control system of an open-stem shower of claim 4, wherein the top spray line is concentrically disposed with respect to an axis of the back spray line, and the top spray line is disposed outside the back spray line.

6. A waterway control system for a rising stem shower of claim 1, wherein the lower end of the valve body is provided with a connection hole along which water enters the inlet chamber.

7. The waterway control system of an open-bar shower according to claim 1, further comprising a mixing valve, wherein the mixing valve comprises a mixing valve core and a mixing valve body, the mixing valve body is provided with a mixing valve mounting seat, and the mixing valve core is mounted in the mixing valve mounting seat.

8. The waterway control system of an open-stem shower of claim 7, wherein the mixing valve body is provided with a hot water pipe, a cold water pipe and a mixing water pipe.

9. The waterway control system of an open-bar shower according to claim 8, wherein the water mixing valve mounting base is provided with three second water through holes, and the second water through holes are respectively connected with the hot water pipeline, the cold water pipeline and the water mixing pipeline.

10. The waterway control system of an open-bar shower of claim 1, further comprising an operating mechanism, wherein the operating mechanism comprises a switch handle and a switch handle.