CN108843823B

CN108843823B - Shunt valve embedded box

Info

Publication number: CN108843823B
Application number: CN201810955736.2A
Authority: CN
Inventors: 马献良
Original assignee: Heshan City Sidiluolan Toilet And Bathroom Sanitary Equipment Co ltd
Current assignee: Heshan City Sidiluolan Toilet And Bathroom Sanitary Equipment Co ltd
Priority date: 2018-08-21
Filing date: 2018-08-21
Publication date: 2024-04-19
Anticipated expiration: 2038-08-21
Also published as: CN108843823A

Abstract

A water diversion valve embedded box comprises an embedded bottom box body, a face cover and a water diversion device; the water diversion device is arranged in the embedded bottom box, the box body is arranged on the embedded bottom box, and the surface cover is arranged on the box body; the water diversion device comprises an embedded valve seat, a water diversion valve mechanism and a valve core, wherein the water diversion valve mechanism is arranged on the embedded valve seat, the embedded valve seat comprises an embedded valve cavity, a water inlet, a first water outlet, a second water outlet and a third water outlet, the water diversion valve mechanism comprises a water diversion valve cavity and a valve core seat, the valve core seat is arranged on the water diversion valve cavity, and the valve core is arranged on the valve core seat; the face lid includes knob and sleeve, and the knob sets up in the surface of face lid, and telescopic one end is connected in the knob, and telescopic other end is connected with the case. The invention aims to provide a water diversion valve embedded box which can reduce water flow and save water while guaranteeing water supply, and can change a water diversion valve mechanism according to the use requirement to increase or reduce the number of water outlets.

Description

Shunt valve embedded box

Technical Field

The invention relates to the technical field of bathroom equipment, in particular to a shunt valve embedded box.

Background

At present, the embedded box is widely used in hotels or families. The water diversion valve embedded boxes are one-out two or one-out three, but the water diversion valve embedded boxes can not be mutually converted, and when the water diversion valve embedded boxes are arranged in a wall body, the water diversion valve embedded boxes can not be replaced, so that inconvenience is caused.

Disclosure of Invention

The invention aims to solve the problems and provides a shunt valve embedded box.

In order to achieve the purpose, the invention adopts the following technical scheme:

a water diversion valve embedded box comprises an embedded bottom box body, a face cover and a water diversion device;

The water diversion device is arranged in the embedded bottom box, the box body is arranged on the embedded bottom box, and the surface cover is arranged on the box body;

the water diversion device comprises an embedded valve seat, a water diversion valve mechanism and a valve core, wherein the water diversion valve mechanism is arranged on the embedded valve seat, the embedded valve seat comprises an embedded valve cavity, a water inlet, a first water outlet, a second water outlet and a third water outlet, the water inlet is arranged at one end of the embedded valve cavity, and the first water outlet, the second water outlet and the third water outlet are arranged at the other end of the embedded valve cavity;

The water diversion valve mechanism comprises a water diversion valve cavity and a valve core seat, the valve core seat is arranged in the water diversion valve cavity, and the valve core is arranged in the valve core seat;

the surface cover comprises a knob and a sleeve, the knob is arranged on the outer surface of the surface cover, one end of the sleeve is connected with the knob, and the other end of the sleeve is connected with the valve core;

The embedded valve cavity is provided with a first water outlet mechanism and a first water inlet mechanism, the water diversion valve cavity is provided with a second water inlet mechanism and a second water outlet mechanism which correspond to the embedded valve cavity, mixed water flows into the embedded valve cavity through the water inlet, the knob is rotated to drive the sleeve to open the valve core, the mixed water flows into the second water inlet mechanism through the first water outlet mechanism, flows into the water diversion valve cavity from the second water outlet mechanism to the first water inlet mechanism, and flows out from the first water outlet, the second water outlet or the third water outlet after entering the embedded valve cavity.

More preferably, the embedded valve cavity comprises a water mixing cavity, a first water outlet cavity, a second water outlet cavity and a third water outlet cavity, the water mixing cavity is communicated with the water inlet, the first water outlet cavity is communicated with the first water outlet, the second water outlet cavity is communicated with the second water outlet, and the third water outlet cavity is communicated with the third water outlet.

More preferably, the water distributing valve cavity comprises a first water inlet cavity, a second water inlet cavity and a third water inlet cavity, and the first water inlet cavity, the second water inlet cavity and the third water inlet cavity are not communicated with each other.

More preferably, the first water outlet mechanism comprises a first water outlet hole, a second water outlet hole and a third water outlet hole, and the first water outlet hole, the second water outlet hole and the third water outlet hole are respectively arranged at the top of the water mixing cavity.

More preferably, the second water inlet mechanism comprises a first water inlet hole, a second water inlet hole and a third water inlet hole, the first water inlet hole is arranged at the bottom of the first water inlet cavity, the second water inlet hole is arranged at the bottom of the second water inlet cavity, and the third water inlet hole is arranged at the bottom of the third water inlet cavity.

More preferably, the second water outlet mechanism comprises a fourth water outlet hole, a fifth water outlet hole and a sixth water outlet hole, wherein the fourth water outlet hole is arranged at the bottom of the first water inlet cavity and is positioned at one side of the first water inlet hole, the fifth water outlet hole is arranged at the bottom of the second water inlet cavity and is positioned at one side of the second water inlet hole, and the sixth water outlet hole is arranged at the bottom of the third water inlet cavity and is positioned at one side of the third water inlet hole.

More preferably, the first water inlet mechanism comprises a fourth water inlet hole, a fifth water inlet hole and a sixth water inlet hole, the fourth water inlet hole is arranged at the top of the first water outlet cavity, the fifth water inlet hole is arranged at the top of the second water outlet cavity, and the sixth water inlet hole is arranged at the top of the third water outlet cavity.

More preferably, the sleeve comprises a housing and a connecting device, the connecting device 322 is arranged in the housing, a sliding rail is arranged in the housing, a sliding groove is arranged on the outer side of the connecting device, and the sliding rail and the sliding groove are correspondingly arranged.

More preferably, the number of the valve core seats is not more than 3.

The invention aims to provide a water diversion valve embedded box which can reduce water flow and save water while guaranteeing water supply, and can change a water diversion valve mechanism according to the use requirement to increase or reduce the number of water outlets.

Drawings

FIG. 1 is an exploded view of one embodiment of the present invention;

FIG. 2 is a block diagram of a water splitting device according to an embodiment of the present invention;

FIG. 3 is a block diagram of an embedded valve seat according to one embodiment of the present invention;

FIG. 4 is a block diagram of an embedded valve seat according to one embodiment of the present invention;

FIG. 5 is a cross-sectional view of an embedded valve seat of an embodiment of the present invention;

FIG. 6 is a block diagram of a diverter valve mechanism according to one embodiment of the present invention;

FIG. 7 is a rear view of a diverter valve mechanism according to one embodiment of the present invention;

FIG. 8 is a cross-sectional view of a diverter valve mechanism according to one embodiment of the present invention;

FIG. 9 is a block diagram of a sleeve according to one embodiment of the present invention;

FIG. 10 is a bottom view of the housing 321 of one embodiment of the invention;

FIG. 11 is a block diagram of a connection device according to an embodiment of the present invention;

Wherein: a bottom box 1 is pre-buried; a case 2; a face cover 3; a knob 31; a sleeve 32; a housing 321; a connecting device 322; a slide rail 323; a chute 324; a water diversion device 4; pre-buried valve seat 41; the valve cavity 411 is pre-buried; a mixing chamber 4111; a first outlet chamber 4112; a second outlet chamber 4113; a third outlet chamber 4114; a water inlet 412; a first water outlet 413; a second water outlet 414; a third water outlet 415; a first water outlet mechanism 416; a first water outlet hole 4161; a second water outlet 4162; a third water outlet 4163; a first water inlet mechanism 417; a fourth water inlet 4171; a fifth water inlet 4172; a sixth water inlet hole 4173; a diverter valve mechanism 42; a water diversion valve cavity 421; a first water inlet chamber 4211; a second water inlet chamber 4212; a third water inlet chamber 4213; a valve core seat 422; a second water inlet mechanism 423; a first water inlet hole 4231; a second water inlet hole 4232; a third water inlet 4233; a second water outlet mechanism 424; fourth water outlet hole 4241; a fifth water outlet 4242; a sixth water outlet hole 4243; the valve core 43.

Detailed Description

The technical scheme of the invention is further described below by means of specific embodiments in combination with the accompanying drawings.

A shunt valve embedded box comprises an embedded bottom box 1, a box body 2, a face cover 3 and a shunt device 4;

the water diversion device 4 is arranged in the embedded bottom box 1, the box body 2 is arranged on the embedded bottom box 1, and the surface cover 3 is arranged on the box body 2;

The water diversion device 4 comprises an embedded valve seat 41, a water diversion valve mechanism 42 and a valve core 43, the water diversion valve mechanism 42 is arranged on the embedded valve seat 41, the embedded valve seat 41 comprises an embedded valve cavity 411, a water inlet 412, a first water outlet 413, a second water outlet 414 and a third water outlet 415, the water inlet 412 is arranged at one end of the embedded valve cavity 411, and the first water outlet 413, the second water outlet 414 and the third water outlet 415 are arranged at the other end of the embedded valve cavity 411;

the shunt valve mechanism 42 comprises a shunt valve cavity 421 and a valve core seat 422, the valve core seat 422 is arranged in the shunt valve cavity 421, and the valve core 43 is arranged in the valve core seat 422;

The surface cover 3 comprises a knob 31 and a sleeve 32, the knob 31 is arranged on the outer surface of the surface cover 3, one end of the sleeve 32 is connected with the knob 31, and the other end of the sleeve 32 is connected with the valve core 43;

the pre-buried valve cavity 411 is provided with a first water outlet mechanism 416 and a first water inlet mechanism 417, the water diversion valve cavity 421 is provided with a second water inlet mechanism 423 and a second water outlet mechanism 424 corresponding to the pre-buried valve cavity 411, mixed water flows into the pre-buried valve cavity 411 through the water inlet 412, the knob 31 is rotated to drive the sleeve 32 to open the valve core 43, the mixed water flows into the second water inlet mechanism 423 through the first water outlet mechanism 416, flows into the water diversion valve cavity 421 from the second water outlet mechanism 424 to the first water inlet mechanism 417, and flows out from the first water outlet 413, the second water outlet 414 or the third water outlet 415 after entering the pre-buried valve cavity 411.

As shown in fig. 1-11, in this example, the water diversion device 4 is installed in the pre-buried bottom box 1, the pre-buried bottom box 1 is connected with the box body 2 and installed in a wall body, the face cover 3 is installed in the box body 2 and is flush with the wall body, the knob 31 is arranged on the face cover, the knob 31 is connected with the sleeve 32, the sleeve 32 is connected with the valve core 43, and when in use, the knob 31 is twisted, the knob 31 drives the sleeve 32 to rotate, and the sleeve 32 drives the valve core 43 to rotate, so that one path of mixed water can be opened. The water diversion device is installed in the embedded box bottom 1, the water diversion device comprises an embedded valve seat 41 and a water diversion valve mechanism 42, the water diversion valve mechanism 42 is installed on the embedded valve seat 41 through the installation hole, the embedded valve seat 41 is provided with an embedded valve cavity 411, the embedded valve cavity 411 is provided with a first water outlet mechanism 416 and a first water inlet mechanism 417, the water diversion valve cavity 421 is provided with a second water inlet mechanism 423 and a second water outlet mechanism 424 corresponding to the embedded valve cavity 411, mixed water flows into the embedded valve cavity 411 through the water inlet 412, the mixed water flows into the second water inlet mechanism 423 through the first water outlet mechanism 416, flows into the first water inlet mechanism 417 from the second water outlet mechanism 424 after entering the water diversion valve cavity 421, and flows out from the first water outlet 413, the second water outlet 414 or the third water outlet 415 after entering the embedded valve cavity 411.

To further illustrate, the pre-buried valve cavity 411 includes a mixing cavity 4111, a first outlet cavity 4112, a second outlet cavity 4113, and a third outlet cavity 4114, wherein the mixing cavity 4111 is in communication with the water inlet 412, the first outlet cavity 4112 is in communication with the first water outlet 413, the second outlet cavity 4113 is in communication with the second water outlet 414, and the third outlet cavity 4114 is in communication with the third water outlet 415. As shown in fig. 4, in this example, the pre-buried valve cavity 411 includes a mixed water cavity 4111, a first water outlet cavity 4112, a second water outlet cavity 4113 and a third water outlet cavity 4114, the capacity of the mixed water cavity 4111 is larger than that of the first water outlet cavity 4112, the second water outlet cavity 4113 and the third water outlet cavity 4114, the mixed water cavity 4111 can accommodate more mixed water, the first water outlet cavity 4112, the second water outlet cavity 4113 and the third water outlet cavity 4114 are respectively connected with the first water outlet 413, the second water outlet 414 and the third water outlet 415, and the first water outlet cavity 4112, the second water outlet cavity 4113 and the third water outlet cavity 4114 are not communicated with each other, and each provides mixed water for each water outlet, so as to ensure that the water flow rate of each water outlet is the same.

To further illustrate, the water diversion valve cavity 421 includes a first water inlet cavity 4211, a second water inlet cavity 4212 and a third water inlet cavity 4213, and the first water inlet cavity 4211, the second water inlet cavity 4212 and the third water inlet cavity 4213 are not communicated with each other. As shown in fig. 8, in this example, the first water inlet chamber 4211, the second water inlet chamber 4212 and the third water inlet chamber 4213 are not communicated with each other, and the mixed water in the mixed water chamber 4111 flows into the first water inlet chamber 4211, the second water inlet chamber 4212 and the third water inlet chamber 4213 respectively, and the first water inlet chamber 4211, the second water inlet chamber 4212 and the third water inlet chamber 4213 provide mixed water to the first water outlet chamber 4112, the second water outlet chamber 4113 and the third water outlet chamber 4114 respectively, because they are not communicated with each other, the water flow rates are the same.

To further illustrate, the first water outlet mechanism 416 includes a first water outlet 4161, a second water outlet 4162 and a third water outlet 4163, and the first water outlet 4161, the second water outlet 4162 and the third water outlet 4163 are respectively disposed at the top of the mixing chamber 4111. As shown in fig. 4, in this example, three water outlet holes are provided at the top of the water mixing cavity 4111, to provide mixed water to the first water inlet cavity 4211, the second water inlet cavity 4212 and the third water inlet cavity 4213, respectively, and the apertures of the first water outlet hole 4161, the second water outlet hole 4162 and the third water outlet hole 4163 are the same, so as to ensure the same water flow.

To further illustrate, the second water inlet mechanism 423 includes a first water inlet 4231, a second water inlet 4232, and a third water inlet 4233, the first water inlet 4231 is disposed at the bottom of the first water inlet 4211, the second water inlet 4232 is disposed at the bottom of the second water inlet 4212, and the third water inlet 4233 is disposed at the bottom of the third water inlet 4213. As shown in fig. 7, in this example, the apertures of the first water inlet 4231, the second water inlet 4232 and the third water inlet 4233 are the same, so that the water flows into the first water inlet 4211, the second water inlet 4212 and the third water inlet 4213 are the same.

To further illustrate, the second water outlet mechanism 424 includes a fourth water outlet 4241, a fifth water outlet 4242 and a sixth water outlet 4243, wherein the fourth water outlet 4241 is disposed at the bottom of the first water inlet 4211 and located at one side of the first water inlet 4231, the fifth water outlet 4242 is disposed at the bottom of the second water inlet 4212 and located at one side of the second water inlet 4232, and the sixth water outlet 4243 is disposed at the bottom of the third water inlet 4213 and located at one side of the third water inlet 4233.

To further illustrate, the first water inlet mechanism 417 includes a fourth water inlet 4171, a fifth water inlet 4172 and a sixth water inlet 4173, wherein the fourth water inlet 4171 is disposed at the top of the first water outlet 4112, the fifth water inlet 4172 is disposed at the top of the second water outlet 4113, and the sixth water inlet 4173 is disposed at the top of the third water outlet 4114.

To further illustrate, the sleeve 32 includes a housing 321 and a connecting device 322, the connecting device 322 is disposed inside the housing 321, a sliding rail 323 is disposed inside the housing 321, a sliding slot 324 is disposed outside the connecting device 322, and the sliding rail 323 is disposed corresponding to the sliding slot 324.

To further illustrate, the number of the valve cartridges 422 is not more than 3.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims

1. The utility model provides a shunt valve pre-buried box which characterized in that: comprises a pre-buried bottom box, a box body, a surface cover and a water diversion device;

The embedded valve cavity is provided with a first water outlet mechanism and a first water inlet mechanism, the water diversion valve cavity is provided with a second water inlet mechanism and a second water outlet mechanism which correspond to the embedded valve cavity, mixed water flows into the embedded valve cavity through the water inlet, the knob is rotated to drive the sleeve to open the valve core, the mixed water flows into the second water inlet mechanism through the first water outlet mechanism, flows into the water diversion valve cavity from the second water outlet mechanism to the first water inlet mechanism, and flows out from the first water outlet, the second water outlet or the third water outlet after entering the embedded valve cavity;

The embedded valve cavity comprises a water mixing cavity, a first water outlet cavity, a second water outlet cavity and a third water outlet cavity, the water mixing cavity is communicated with the water inlet, the first water outlet cavity is communicated with the first water outlet, the second water outlet cavity is communicated with the second water outlet, and the third water outlet cavity is communicated with the third water outlet;

The water diversion valve cavity comprises a first water inlet cavity, a second water inlet cavity and a third water inlet cavity, and the first water inlet cavity, the second water inlet cavity and the third water inlet cavity are not communicated with each other.

2. The diverter valve pre-buried box of claim 1, wherein: the first water outlet mechanism comprises a first water outlet hole, a second water outlet hole and a third water outlet hole, and the first water outlet hole, the second water outlet hole and the third water outlet hole are respectively arranged at the top of the water mixing cavity.

3. The diverter valve pre-buried box of claim 2, wherein: the second water inlet mechanism comprises a first water inlet hole, a second water inlet hole and a third water inlet hole, the first water inlet hole is arranged at the bottom of the first water inlet cavity, the second water inlet hole is arranged at the bottom of the second water inlet cavity, and the third water inlet hole is arranged at the bottom of the third water inlet cavity.

4. A diverter valve pre-buried box according to claim 3, characterized in that: the second water outlet mechanism comprises a fourth water outlet hole, a fifth water outlet hole and a sixth water outlet hole, the fourth water outlet hole is arranged at the bottom of the first water inlet cavity and is positioned at one side of the first water inlet hole, the fifth water outlet hole is arranged at the bottom of the second water inlet cavity and is positioned at one side of the second water inlet hole, and the sixth water outlet hole is arranged at the bottom of the third water inlet cavity and is positioned at one side of the third water inlet hole.

5. The diverter valve pre-buried box of claim 1, wherein: the first water inlet mechanism comprises a fourth water inlet hole, a fifth water inlet hole and a sixth water inlet hole, the fourth water inlet hole is formed in the top of the first water outlet cavity, the fifth water inlet hole is formed in the top of the second water outlet cavity, and the sixth water inlet hole is formed in the top of the third water outlet cavity.

6. The diverter valve pre-buried box of claim 1, wherein: the sleeve comprises a shell and a connecting device, wherein the connecting device is arranged in the shell, a sliding rail is arranged in the shell, a sliding groove is arranged on the outer side of the connecting device, and the sliding rail and the sliding groove are correspondingly arranged.

7. The diverter valve pre-buried box of claim 1, wherein: the number of the valve core seats is not more than 3.