CN214889259U - Intelligent monitoring three-position two-way water outlet device - Google Patents

Abstract

The utility model discloses an intelligent monitoring three-position two-way water outlet device, which comprises a shell, a monitoring component, a water outlet component, a three-position two-way component and a water inlet component, wherein the water outlet component, the three-position two-way component and the water inlet component are sequentially communicated; the three-position two-way assembly is arranged on the shell and comprises a faucet core seat, an adjusting cavity and an adjusting valve connected to the adjusting cavity, and the faucet core seat comprises a water outlet hole, a first water inlet hole and a second water inlet hole; the water outlet assembly comprises a water outlet pipe communicated with the water outlet hole, and the water inlet assembly is communicated with the first water inlet hole and the second water inlet hole; the monitoring assembly comprises a sensor fixedly connected to the adjusting cavity and a display board arranged on the shell, and the display board is used for displaying parameters of the water purifier. This intelligent monitoring tribit two leads to water installation is used for the circulation of double-circuit fluid, and sets up the monitoring subassembly and be used for monitoring the fluid circulation developments, is convenient for regulate and control fluid flow in real time.

Description

Intelligent monitoring three-position two-way water outlet device

Technical Field

The utility model belongs to the technical field of the water installation technique and specifically relates to a water installation is led to intelligent monitoring tribit two.

Background

The faucet belongs to an essential hardware in daily life, the faucet is also commonly used for fluid control in industrial production, the existing faucet can only realize the circulation of fluids in different pipelines, and the control on the flow cannot be accurately controlled, for example, the faucet used for a water purifier needs to accurately know the condition of a pipeline for selecting circulation, but the existing faucet cannot accurately control the opening and closing state of the faucet, so the improvement is needed.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art existence, the utility model aims at providing an intelligent monitoring tribit two leads to water installation.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: an intelligent monitoring three-position two-way water outlet device is used for being connected with a water purifier and comprises a shell, a monitoring assembly, a water outlet assembly, a three-position two-way assembly and a water inlet assembly, wherein the water outlet assembly, the three-position two-way assembly and the water inlet assembly are sequentially communicated; the three-position two-way assembly is arranged on the shell and comprises a faucet core seat, an adjusting cavity and an adjusting valve connected to the adjusting cavity, and the faucet core seat comprises a water outlet hole, a first water inlet hole and a second water inlet hole; the water outlet assembly comprises a water outlet pipe communicated with the water outlet hole, and the water inlet assembly is communicated with the first water inlet hole and the second water inlet hole; the monitoring assembly comprises a sensor fixedly connected to the regulating valve and a display board arranged on the shell, and the display board is used for displaying parameters of the water purifier.

Optionally: the shell comprises a first cavity, a second cavity perpendicular to the first cavity and a rotating handle connected to the adjusting valve, the faucet core seat is arranged in the first cavity, and the adjusting cavity and the adjusting valve are arranged in the second cavity.

Optionally: the peripheral wall of the first cavity is curved in an arc shape, and the display panel is inclined relative to the water outlet pipe.

Optionally: the faucet core seat comprises a first plane, a first fluid channel, a second fluid channel and a third fluid channel, wherein the first fluid channel and the second fluid channel are formed by sinking from one end of the first plane, the third fluid channel is connected to a water outlet hole, the first fluid channel is communicated with the first water inlet hole, and the second fluid channel is communicated with the second water inlet hole; the adjusting cavity comprises a second plane and three fourth fluid channels formed by spacing and sinking from one end of the second plane, the three fourth fluid channels formed by spacing and sinking from one end of the second plane are communicated with each other in the adjusting cavity, and the first plane and the second plane are parallel to each other and are tightly attached.

Optionally: the faucet core seat further comprises a sealing baffle protruding out of the first plane, the sealing baffle is curved in an arc shape and forms a rotating groove, and the adjusting cavity rotates in the rotating groove.

Optionally: the housing includes a rotation handle parallel to the first plane, the rotation handle rotating in a direction parallel to the first plane.

Optionally: the faucet cartridge further comprises a positioning groove formed by recessing from the first plane, and the positioning groove is arranged at intervals with the first fluid channel, the second fluid channel and the third fluid channel; the adjusting cavity comprises a positioning conduction piece, and the positioning conduction piece comprises a positioning convex rib in insertion fit with the positioning groove.

Optionally: the adjusting cavity further comprises a limiting groove formed by arc-shaped depressions on the outer wall, the extending direction of the limiting groove is parallel to the first plane, the shell comprises a limiting convex rib in plug-in fit with the limiting groove, and the limiting convex rib slides along the limiting groove and limits the rotating range of the adjusting valve.

Optionally: the regulating valve also comprises a sealing gasket arranged between the regulating cavity and the shell.

Optionally: the water inlet assembly comprises a first water inlet pipe, a second water inlet pipe and a guide pipe connected to the shell; the first water inlet pipe penetrates through the guide pipe and is connected to the first water inlet hole, and the second water inlet pipe penetrates through the guide pipe and is connected to the second water inlet hole.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is: adopt this intelligent monitoring tribit two to lead to water installation can be used to select the circulation of double-circuit fluid, and sets up the monitoring subassembly and be used for monitoring the fluid circulation developments, is convenient for regulate and control fluid flow in real time.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is a schematic structural view of the intelligent monitoring three-position two-way water outlet device of the utility model;

fig. 2 is an explosion structure diagram of the intelligent monitoring three-position two-way water outlet device of the utility model;

fig. 3 is a schematic structural view of a three-position two-way component of the intelligent monitoring three-position two-way water outlet device of the utility model;

fig. 4 is a schematic structural view of a housing of the intelligent monitoring three-position two-way water outlet device of the utility model;

fig. 5 is an explosion diagram of the three-position two-way component of the intelligent monitoring three-position two-way water outlet device of the utility model.

In the figure: a monitoring assembly 10; a display panel 11; a sensor 12; a three-position two-way assembly 20; a faucet cartridge 21; a first fluid channel 211; a second fluid passage 212; a third fluid passage 213; a first plane 214; a positioning groove 215; a sealing baffle 216; a water outlet hole 217; a first water inlet hole 218; a second water inlet hole 219; an adjustment chamber 22; positioning the conducting piece 221; a fourth fluid passage 2211; a second plane 2212; positioning ribs 2213; the second ribs 2214; the adjustment cap 222; a limit groove 2221; the first tooth bar 2222; an adjusting valve 23; the rotating post 231; a first adjustment member 232; a second regulating member 233; a third adjustment member 234; a connecting lead-through 235; a sealing gasket 24; a housing 30; a first cavity 31; a second cavity 32; a rotation handle 33; a water intake assembly 40; a guide tube 41; a first mounting hole 411; a water outlet assembly 50; and a water outlet pipe 51.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

The embodiment of the intelligent monitoring three-position two-way water outlet device is used for connecting a water purifier, and is shown in the figures 1 to 3: comprises a shell 30, a monitoring component 10, a water outlet component 50, a three-position two-way component 20 and a water inlet component 40 which are communicated in sequence; the three-position two-way assembly 20 is arranged on the shell 30, the three-position two-way assembly 20 comprises a faucet core seat 21, an adjusting cavity 22 and an adjusting valve 23 connected to the adjusting cavity 22, and the faucet core seat 21 comprises a water outlet 217, a first water inlet 218 and a second water inlet 219; the water outlet assembly 50 comprises a water outlet pipe 51 communicated with the water outlet hole 217, and the water inlet assembly 40 is communicated with a first water inlet hole 218 and a second water inlet hole 219; the monitoring assembly 10 includes a sensor 12 fixedly connected to the regulating valve 23 and a display panel 11 disposed on the housing 30, the display panel 11 being used for displaying parameters of the water purifier. For example, the purified water of the water purifier is communicated to the first inlet hole 218, the purified water of the water purifier is communicated to the second inlet hole 219, and the display panel 11 can display whether the water pipe 51 is flowing out or is flowing out of the purified water, and can display the state of the water inlet or outlet and the parameters such as the PAC and PPC, etc. which are commonly used. Adopt the steerable fluid circulation of different pipelines of this intelligent monitoring tribit two-way water outlet device, but and set up the condition that opens and shuts of monitoring subassembly 10 real-time supervision governing valve 23, the monitoring fluid circulation developments, the real-time regulation and control fluid flow of being convenient for.

As shown in fig. 4: the housing 30 includes a first cavity 31, a second cavity 32 perpendicular to the first cavity 31, and a rotation handle 33 connected to the adjustment valve 23, the faucet core 21 is disposed in the first cavity 31, and the adjustment cavity 22 and the adjustment valve 23 are disposed in the second cavity 32. The outer peripheral wall of the first chamber 31 is curved in an arc shape, and the display panel 11 is inclined with respect to the outlet pipe 51.

Optimizing: the second cavity 32 is a circular tube, and the second cavity 32 is vertical to the water outlet pipe 51. The housing 30 comprises a rotation handle 33 parallel to the first plane 214, the rotation handle 33 rotates around the center line of the second cavity 32, i.e. the rotation plane of the rotation handle 33 is parallel to the first plane 214. By adopting the design, the appearance design of the intelligent monitoring three-position two-way water outlet device is more attractive, and the rotating handle 33 protruding out of the surface of the shell 30 is arranged to facilitate the opening and closing operation of the intelligent monitoring water outlet device.

See fig. 3 and 5 for illustration: the faucet core 21 includes a first plane 214, a first fluid channel 211, a second fluid channel 212 and a third fluid channel 213 connected to the outlet 217, wherein the first fluid channel 211 is formed by recessing one end of the first plane 214, the first fluid channel 211 is communicated with the first inlet hole 218, and the second fluid channel 212 is communicated with the second inlet hole 219; the faucet core 21 includes a sealing baffle 216 protruding from the first plane 214, the sealing baffle 216 is curved in an arc shape and forms a rotation groove, and the adjustment cavity 22 rotates in the rotation groove. The adjusting cavity 22 includes a second plane 2212 and three fourth fluid passages 2211 formed by spacing and recessing one end of the second plane 2212, the three fourth fluid passages 2211 formed by spacing and recessing one end of the second plane 2212 are communicated with each other in the adjusting cavity 22, and the first plane 214 and the second plane 2212 are parallel to each other and tightly attached to each other. The positioning rib 2213 is matched with the positioning groove 215 to facilitate the installation of the three-position two-way assembly 20, and the three-position two-way assembly 20 can be used for a user to freely adjust the conduction state of the fluid.

The adjusting cavity 22 comprises a positioning conducting piece 221 and an adjusting cover 222 which are oppositely arranged, and the adjusting valve 23 comprises a first adjusting piece 232, a second adjusting piece 233, a third adjusting piece 234 which are arranged in the adjusting cover 222 at intervals, a connecting conducting piece 235 and a rotating column 231 which is protruded out of the adjusting cover 222; the connecting conducting piece 235 is disposed between the third adjusting piece 234 and the positioning conducting piece 221, and the connecting conducting piece 235 can rotate relative to the third adjusting piece 234. The first adjusting member 232, the second adjusting member 233 and the third adjusting member 234 include a tooth (not shown) and a tooth socket (not shown) that are engaged with each other, and the positions of the three members are relatively fixed and do not rotate with each other; the sensor 12 is fixedly connected to one end of the rotary column 231 and is disposed in the adjusting cover 222, the sensor 12 may be an electromagnetic sensor such as a hall element or a capacitance sensor, or other sensors, and the sensor 12 may be used to monitor the rotation angle of the rotary column 231, i.e., to calculate the opening and closing degree of the adjusting valve 23 with respect to the faucet core print 21.

The faucet cartridge 21 further includes a positioning slot 215 formed by recessing from the first plane 214, the positioning slot 215 being spaced apart from the first fluid channel 211, the second fluid channel 212, and the third fluid channel 213; the adjusting cavity 22 includes a positioning conducting piece 221, and the positioning conducting piece 221 includes a positioning rib 2213 in plug-in fit with the positioning groove 215.

The adjusting cavity 22 includes a limiting groove 2221 disposed on the adjusting cover 222, an extending direction of the limiting groove 2221 is parallel to the first plane 214, the housing 30 includes a first limiting rib (not shown) inserted into the limiting groove 2221, the first limiting rib is formed by protruding from an inner wall of the first cavity 31, and the first limiting rib slides along the limiting groove 2221 and limits a rotating range of the adjusting valve 23. For example, the limiting groove 2221 is formed by an arc-shaped depression formed on the outer wall of the self-adjusting cover 222, and the self-adjusting cover 222 is rotated in synchronization with the rotation of the rotation.

Optimally: the adjusting cover 222 includes first ribs 2222 spaced apart from each other, the positioning conducting member 221 includes second ribs 2214 spaced apart from and protruding from the second plane 2212, and the first ribs 2222 and the second ribs 2214 are engaged with each other. The first adjusting part 232 includes a second limit protrusion (not shown) formed to protrude from an outer wall, and a limit groove 2221 (not shown) formed to be recessed from an inner wall of the adjustment housing 222, the second limit protrusion sliding along the limit groove 2221 and limiting a rotation range of the adjustment valve 23. When the rotating post 231 is rotated, the positioning and guiding member 221 and the adjusting cap 222 are fixed in position relative to the faucet core 21.

As shown in fig. 2: the three-position, two-way assembly 20 also includes a sealing gasket 24 disposed between the regulator valve 23 and the housing 30. The sealing washer 24 is abutted against the outer shell 30 and the adjusting cavity 22 at the same time, so that the air-tight damper can isolate the permeation of oxygen and water and can generate better silencing effect.

The water inlet assembly 40 includes a first water inlet pipe (not shown), a second water inlet pipe (not shown), and a guide pipe 41 connected to the housing 30. The first inlet tube is used for being connected to the pure water mouth of water purifier, and the second inlet tube is used for being connected to the pure water mouth of water purifier. For example, the first cavity 31 includes a thread formed on an inner wall, the guide tube 41 includes a thread formed on an outer wall, and the guide tube 41 is connected to the first cavity 31 by a screw connection. The guide pipe 41 includes a first mounting hole 411 and a second mounting hole (not shown) which are provided to face each other; a first water inlet pipe (not shown) passes through the first mounting hole 411 and the guide pipe 41 and is connected to the first fluid passage 211, and a second water inlet pipe (not shown) passes through the second mounting hole (not shown) and the guide pipe 41 and is connected to the second fluid passage 212. The space layout is clear, so that the installation operation is more convenient.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed. Other structures and principles are the same as those of the prior art, and are not described in detail herein.

Claims (10)

1. The utility model provides an intelligent monitoring tribit two leads to water installation for connect the water purifier, its characterized in that: the water outlet device comprises a shell, a monitoring assembly, a water outlet assembly, a three-position two-way assembly and a water inlet assembly which are sequentially communicated; the three-position two-way assembly is arranged on the shell and comprises a faucet core seat, an adjusting cavity and an adjusting valve connected to the adjusting cavity, and the faucet core seat comprises a water outlet hole, a first water inlet hole and a second water inlet hole; the water outlet assembly comprises a water outlet pipe communicated with the water outlet hole, and the water inlet assembly is communicated with the first water inlet hole and the second water inlet hole; the monitoring assembly comprises a sensor fixedly connected to the regulating valve and a display board arranged on the shell, and the display board is used for displaying parameters of the water purifier.

2. The intelligent monitoring three-position two-way water outlet device according to claim 1, characterized in that: the shell comprises a first cavity, a second cavity perpendicular to the first cavity and a rotating handle connected to the adjusting valve, the faucet core seat is arranged in the first cavity, and the adjusting cavity and the adjusting valve are arranged in the second cavity.

3. The intelligent monitoring three-position two-way water outlet device according to claim 2, characterized in that: the peripheral wall of the first cavity is curved in an arc shape, and the display panel is inclined relative to the water outlet pipe.

4. The intelligent monitoring three-position two-way water outlet device according to claim 1, characterized in that: the faucet core seat comprises a first plane, a first fluid channel, a second fluid channel and a third fluid channel, wherein the first fluid channel and the second fluid channel are formed by sinking from one end of the first plane, the third fluid channel is connected to a water outlet hole, the first fluid channel is communicated with the first water inlet hole, and the second fluid channel is communicated with the second water inlet hole; the adjusting cavity comprises a second plane and three fourth fluid channels formed by spacing and sinking from one end of the second plane, the three fourth fluid channels formed by spacing and sinking from one end of the second plane are communicated with each other in the adjusting cavity, and the first plane and the second plane are parallel to each other and are tightly attached.

5. The intelligent monitoring three-position two-way water outlet device according to claim 4, wherein: the faucet core seat further comprises a sealing baffle protruding out of the first plane, the sealing baffle is curved in an arc shape and forms a rotating groove, and the adjusting cavity rotates in the rotating groove.

6. The intelligent monitoring three-position two-way water outlet device according to claim 5, wherein: the housing includes a rotation handle parallel to the first plane, the rotation handle rotating in a direction parallel to the first plane.

7. The intelligent monitoring three-position two-way water outlet device according to claim 4, wherein: the faucet cartridge further comprises a positioning groove formed by recessing from the first plane, and the positioning groove is arranged at intervals with the first fluid channel, the second fluid channel and the third fluid channel; the adjusting cavity comprises a positioning conduction piece, and the positioning conduction piece comprises a positioning convex rib in insertion fit with the positioning groove.

8. The intelligent monitoring three-position two-way water outlet device according to claim 4, wherein: the adjusting cavity further comprises a limiting groove formed by arc-shaped depressions on the outer wall, the extending direction of the limiting groove is parallel to the first plane, the shell comprises a limiting convex rib in plug-in fit with the limiting groove, and the limiting convex rib slides along the limiting groove and limits the rotating range of the adjusting valve.

9. The intelligent monitoring three-position two-way water outlet device according to claim 1, characterized in that: the regulating valve also comprises a sealing gasket arranged between the regulating cavity and the shell.

10. The intelligent monitoring three-position two-way water outlet device according to claim 1, characterized in that: the water inlet assembly comprises a first water inlet pipe, a second water inlet pipe and a guide pipe connected to the shell; the first water inlet pipe penetrates through the guide pipe and is connected to the first water inlet hole, and the second water inlet pipe penetrates through the guide pipe and is connected to the second water inlet hole.

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