CN110966430B - Multi-waterway faucet structure with double water outlets - Google Patents

Abstract

The invention relates to a multi-waterway faucet structure with double water outlets, which comprises: the faucet comprises a faucet tube body, a faucet seat body, a switch assembly and a pipeline assembly; the invention mainly utilizes the arrangement of the hot water pipe passage, the loop passage, the bubble water passage, the ice water passage and the cold water passage in the tap seat body to integrate various drinking water paths so as to provide the diversification and convenience of drinking water for users, greatly simplify the complexity of the arrangement of the pipeline of the physical water paths and avoid the need of newly adding other tap structures.

Description

Multi-waterway faucet structure with double water outlets

Technical Field

The present invention relates to a multi-water tap structure with dual water outlets, and more particularly to a multi-water tap structure capable of simultaneously integrating multiple drinking water paths into the tap structure.

Background

The conventional faucet can only provide water through a simple waterway of internal cold and hot water and a faucet water outlet pipe, however, nowadays, due to gradual improvement of life quality of people, diversification of drinking water and water supply quality and convenience are gradually and more emphasized, for example, cold water, hot water, ice water and bubble water popular with consumers can be distinguished according to habits of personal drinking water; therefore, if other water outlet faucets are newly added in the kitchen with limited use space to correspondingly provide different types of drinking water, the kitchen can additionally occupy the use space of the kitchen, and the problems of unattractive appearance, complicated water supply pipeline, difficult maintenance and the like are solved, so that the conventional water outlet faucets can not meet the use requirements that the kitchen drinking water can be simultaneously integrated with the water supply pipeline and the different types of drinking water are provided in the living at home.

Disclosure of Invention

The invention mainly utilizes the arrangement of the hot water pipe passage, the loop passage, the bubble water passage, the ice water passage and the cold water passage in the tap seat body to integrate various drinking water paths so as to provide the diversification and convenience of drinking water for users, greatly simplify the complexity of the arrangement of the pipeline of the physical water paths and avoid the need of newly adding other tap structures.

Have the structure of the multi-waterway faucet of the double water outlet, include: the faucet comprises a faucet tube body, a faucet seat body, a switch assembly and a pipeline assembly; the tap tube body is arranged above the tap seat body, and the switch component is arranged at the side edge of the tap seat body. The switch assembly includes: the hot water control handle, the bubble water control knob, the ice water control knob and the cold water control handle are all provided with switch valves; the pipeline assembly comprises: the water outlet pipe, the hot water communicating pipe, the loop water outlet pipe, the bubble water inlet pipe, the ice water inlet pipe and the cold water inlet pipe are communicated.

The front end of the tap tube body is provided with a water outlet communication valve, the water outlet communication valve is provided with a hot water connector and a water outlet connector, and the hot water connector and the water outlet connector are hollow structures and form openings at two sides. A water outlet communicating groove is arranged above the tap seat body, and a hot water pipe outlet and a communicating water outlet are arranged at the bottom of the water outlet communicating groove; the inside of the water outlet communication groove is provided with a pipe body communication valve, the pipe body communication valve is provided with a hot water pipe channel and a pipe body connector, and the inside of the hot water pipe channel and the inside of the pipe body connector are hollow structures and form openings at two sides; the hot water pipe channel of the pipe body communication valve is communicated with the hot water pipe outlet at the bottom of the water outlet communication groove, and the pipe body connector of the pipe body communication valve is communicated with the communication water outlet at the bottom of the water outlet communication groove.

The side of the tap seat body is provided with a hot water communication groove, a bubble water communication groove, an ice water communication groove and a cold water communication groove, and both the tap seat body are provided with a water inlet hole and a water outlet hole; the lower part of the tap seat body is provided with a hot water pipe inlet, a loop water outlet, a bubble water inlet, an ice water inlet and a cold water inlet. The tap seat is internally provided with a hot water pipe passage, a loop passage, a bubble water passage, an ice water passage and a cold water passage; wherein, this return circuit route then includes: a loop water inlet passage and a loop water outlet passage; this bubble water passageway then includes: a bubble water inlet passage and a bubble water outlet passage; the ice water passage includes: an ice water inlet passage and an ice water outlet passage; the cold water channel comprises: a cold water inlet passage and a cold water outlet passage.

The switch assembly includes: the hot water control handle, the bubble water control knob, the ice water control knob and the cold water control handle are all provided with switch valves; the pipeline assembly comprises: a water outlet pipe, a hot water communicating pipe, a loop water outlet pipe, a bubble water inlet pipe, an ice water inlet pipe and a cold water inlet pipe are communicated;

the two ends of the hot water pipe passage in the tap seat body are respectively communicated with the hot water pipe outlet and the hot water pipe inlet of the water outlet communicating groove, the water outlet end of the loop water outlet passage is communicated with the loop water outlet, the water inlet end of the loop water inlet passage is communicated with the cold water inlet, the water inlet end of the bubble water inlet passage is communicated with the bubble water inlet, the water inlet end of the ice water inlet passage is communicated with the ice water inlet, and the water inlet end of the cold water inlet passage is communicated with the cold water inlet;

the water outlet end of the loop water inlet passage in the tap seat body is communicated with the water inlet hole of the hot water communication groove, the water outlet end of the bubble water inlet passage is communicated with the water inlet hole of the bubble water communication groove, the water outlet end of the ice water inlet passage is communicated with the water inlet hole of the ice water communication groove, and the water outlet end of the cold water inlet passage is communicated with the water inlet hole of the cold water communication groove;

the water inlet end of the loop water outlet passage in the tap seat body is communicated with the water outlet hole of the hot water communication groove, the water inlet end of the bubble water outlet passage is communicated with the water outlet hole of the bubble water communication groove, the water inlet end of the ice water outlet passage is communicated with the water outlet hole of the ice water communication groove, and the water inlet end of the cold water outlet passage is communicated with the water outlet hole of the cold water communication groove;

the water outlet end of the bubble water outlet passage, the water outlet end of the ice water outlet passage and the water outlet end of the cold water outlet passage in the tap seat body are all communicated with the communicated water outlet of the water outlet communicating groove;

the hot water control handle of the switch component is arranged in the hot water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the hot water control handle are respectively communicated with the water inlet hole and the water outlet hole of the hot water communication groove; the bubble water control knob is arranged in the bubble water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the bubble water control knob are respectively communicated with the water inlet hole and the water outlet hole of the bubble water communication groove; the ice water control knob is arranged in the ice water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the ice water control knob are respectively communicated with the water inlet hole and the water outlet hole of the ice water communication groove; the cold water control handle is arranged in the cold water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the cold water control handle are respectively communicated with the water inlet hole and the water outlet hole of the cold water communication groove;

the communicating water outlet pipe of the pipeline assembly is arranged in the faucet pipe body, one end of the communicating water outlet pipe is connected with the water outlet connector of the water outlet communicating valve arranged at the front end of the faucet pipe body, and the other end of the communicating water outlet pipe is connected with the pipe body connector of the pipe body communicating valve arranged in the water outlet communicating groove above the faucet seat body; the hot water communicating pipe sequentially passes through the tap seat body and is arranged in the tap body relatively through the hot water pipe inlet below the tap seat body, the hot water pipe passage, the hot water pipe outlet of the water outlet communicating groove and the hot water pipe passage of the pipe body communicating valve, and one end of the hot water communicating pipe can be connected with the hot water connector of the water outlet communicating valve arranged at the front end of the tap body;

one end of the loop water outlet pipe of the pipeline assembly is arranged at the loop water outlet below the tap seat, one end of the bubble water inlet pipe is arranged at the bubble water inlet below the tap seat, one end of the ice water inlet pipe is arranged at the ice water inlet below the tap seat, and one end of the cold water inlet pipe is arranged at the cold water inlet below the tap seat.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is an exploded view of the components of the faucet body.

Fig. 3 is an exploded view of the components of the tap base.

Fig. 4 is a perspective view (one) of the tap holder.

Fig. 5 is a perspective view (two) of the tap holder.

Fig. 6 is a perspective view (iii) of the tap holder.

Fig. 7 is a schematic view of the internal waterway of the faucet base.

FIG. 8 is a diagram of an embodiment of the present invention.

Description of main reference numerals:

1 tap structure

2 tap body

2g water outlet communication valve

2g1 hot water connector

2gc water outlet connector

3 tap seat body

s0 water outlet communicating groove

s0h1 hot water pipe outlet

s0hc connected water outlet

s0g pipe body communicating valve

s0g1 hot water pipe channel

s0gc pipe body connector

s1 hot water communicating groove

s2 bubble water communicating groove

s3 ice water communicating groove

s4 cold water communicating groove

ha water inlet

hb water outlet

Inlet of h1 hot water pipe

h2 bubble water inlet

H3 ice water inlet

H4 cold water inlet

H5 loop water outlet

W1 hot water pipe passage

w2a bubble water inlet passage

w2b bubble water outlet passage

w3a ice water inlet passage

w3b ice water outlet passage

w4a cold water inlet passage

w4b cold water outlet passage

w5a loop water inlet passage

w5b loop water outlet passage

c1 hot water control handle

sw1 switch valve

c2 bubble water control knob

sw2 switch valve

c3 ice water control knob

sw3 switch valve

c4 cold water control handle

sw4 switch valve

pc connected water outlet pipe

P1 hot water communicating pipe

P2 bubble water inlet pipe

P3 ice water inlet pipe

P4 cold water inlet pipe

P5 loop water outlet pipe

d1 heater

d1a water inlet

d1b hot water outlet

d2 bubble water machine

d2a water inlet

d2b2 bubble water outlet

d2b3 ice water outlet

d4 filter device

d4a water inlet

d4b filtered water outlet

Detailed Description

In order to make the technical features of the present invention more comprehensible, a specific embodiment accompanied with the accompanying drawings is described in detail below.

In a first embodiment, please refer to fig. 1 to 8; a multi-waterway faucet structure 1 with dual water outlets, comprising: the faucet tube body 2, the faucet seat body 3, the switch component and the pipeline component; the tap tube body 2 is arranged above the tap seat body 3, and the switch component is arranged at the side edge of the tap seat body 3.

The front end of the faucet body 2 is provided with a water outlet communication valve 2g, the water outlet communication valve 2g is provided with a hot water connector 2g1 and a water outlet connector 2gc, and the inside of the hot water connector 2g1 and the water outlet connector 2gc is hollow and forms openings at two sides.

A water outlet communication groove s0 is arranged above the tap seat body 3, and a hot water pipe outlet s0h1 and a communication water outlet s0hc are arranged at the bottom of the water outlet communication groove s 0; the inside of the water outlet communication groove s0 is provided with a pipe body communication valve s0g, the pipe body communication valve s0g is provided with a hot water pipe channel s0g1 and a pipe body connector s0gc, and the inside of the hot water pipe channel s0g1 and the pipe body connector s0gc are hollow structures and form openings at two sides; wherein the hot water pipe channel s0g1 of the pipe body communication valve s0g is connected to the hot water pipe outlet s0h1 at the bottom of the water outlet communication groove s0, and the pipe body connector s0gc of the pipe body communication valve s0g is connected to the communication water outlet s0hc at the bottom of the water outlet communication groove s 0.

The side of the tap seat body 3 is provided with a hot water communication groove s1, a bubble water communication groove s2, an ice water communication groove s3 and a cold water communication groove s4, and both the tap seat body and the tap seat body are provided with a water inlet hole ha and a water outlet hole hb; the lower part of the tap seat body 3 is provided with a hot water pipe inlet h1, a loop water outlet h5, a bubble water inlet h2, an ice water inlet h3 and a cold water inlet h4.

A hot water pipe passage w1, a loop passage, a bubble water passage, an ice water passage and a cold water passage are arranged in the tap base body 3; wherein, this return circuit route then includes: a loop water inlet path w5a and a loop water outlet path w5b; this bubble water passageway then includes: a bubble water inlet passage w2a and a bubble water outlet passage w2b; the ice water passage includes: an ice water inlet passage w3a and an ice water outlet passage w3b; the cold water channel comprises: a cold water inlet passage w4a and a cold water outlet passage w4b.

The switch assembly includes: the hot water control handle c1, the bubble water control knob c2, the ice water control knob c3 and the cold water control handle c4 are provided with switch valves; the pipeline assembly comprises: the water outlet pc, the hot water communicating pipe p1, the loop water outlet p5, the bubble water inlet p2, the ice water inlet p3 and the cold water inlet p4 are communicated.

The two ends of the hot water pipe passage w1 inside the tap base 3 are respectively connected to the hot water pipe outlet s0h1 and the hot water pipe inlet h1 of the water outlet communicating groove s0, the water outlet end of the loop water outlet passage w5b is connected to the loop water outlet h5, the water inlet end of the loop water inlet passage w5a is connected to the cold water inlet h4, the water inlet end of the bubble water inlet passage w2a is connected to the bubble water inlet h2, the water inlet end of the ice water inlet passage w3a is connected to the ice water inlet h3, and the water inlet end of the cold water inlet passage w4a is connected to the cold water inlet h4.

The water outlet end of the loop water inlet passage w5a inside the tap base 3 is connected to the water inlet hole ha of the hot water communication groove s1, the water outlet end of the bubble water inlet passage w2a is connected to the water inlet hole ha of the bubble water communication groove s2, the water outlet end of the ice water inlet passage w3a is connected to the water inlet hole ha of the ice water communication groove s3, and the water outlet end of the cool water inlet passage w4a is connected to the water inlet hole ha of the cool water communication groove s 4.

The water inlet end of the loop water outlet passage w5b inside the tap base 3 is connected to the water outlet hole hb of the hot water communication groove s1, the water inlet end of the bubble water outlet passage w2b is connected to the water outlet hole hb of the bubble water communication groove s2, the water inlet end of the ice water outlet passage w3b is connected to the water outlet hole hb of the ice water communication groove s3, and the water inlet end of the cool water outlet passage w4b is connected to the water outlet hole hb of the cool water communication groove s 4.

The water outlet end of the bubble water outlet passage w2b, the water outlet end of the ice water outlet passage w3b and the water outlet end of the cold water outlet passage w4b in the tap base body 3 are all communicated to the communicating water outlet s0hc of the water outlet communicating groove s 0.

The hot water control handle c1 of the switch assembly is arranged in the hot water communication groove s1 at the side edge of the tap seat body 3, and two ends of the switch valve sw1 of the hot water control handle c1 are respectively communicated with the water inlet hole ha and the water outlet hole hb of the hot water communication groove s 1; the bubble water control knob c2 is arranged at the bubble water communication groove s2 at the side edge of the tap seat body 3, and two ends of the switch valve sw2 of the bubble water control knob c2 are respectively communicated with the water inlet hole ha and the water outlet hole hb of the bubble water communication groove s 2; the ice water control knob c3 is arranged in the ice water communication groove s3 at the side edge of the tap seat body 3, and two ends of the switch valve sw3 of the ice water control knob c3 are respectively communicated with the water inlet hole ha and the water outlet hole hb of the ice water communication groove s 3; the cold water control handle c4 is disposed in the cold water communication groove s4 at the side of the tap base 3, and two ends of the switch valve sw4 of the cold water control handle c4 are respectively connected to the water inlet hole ha and the water outlet hole hb of the cold water communication groove s 4.

The communicating water outlet pc of the pipeline assembly is disposed in the faucet tube 2, one end of the communicating water outlet pc is connected to the water outlet connector 2gc of the water outlet communicating valve 2g disposed at the front end of the faucet tube 2, and the other end of the communicating water outlet pc is connected to the tube connector s0gc of the tube communicating valve s0g disposed in the water outlet communicating groove s0 above the faucet base 3. The hot water communicating pipe p1 is sequentially arranged through the tap base 3 and is arranged in the tap body 2 relatively through the hot water pipe inlet h1, the hot water pipe passage w1, the hot water pipe outlet s0h1 of the water outlet communicating groove s0 and the hot water pipe passage s0g1 of the pipe body communicating valve s0g below the tap base 3, and one end of the hot water communicating pipe p1 can be connected with the hot water connector 2g1 of the water outlet communicating valve 2g arranged at the front end of the tap body 2.

One end of the loop water outlet pipe p5 of the pipeline assembly is arranged at the loop water outlet h5 below the tap seat body 3, one end of the bubble water inlet pipe p2 is arranged at the bubble water inlet h2 below the tap seat body 3, one end of the ice water inlet pipe p3 is arranged at the ice water inlet h3 below the tap seat body 3, and one end of the cold water inlet pipe p4 is arranged at the cold water inlet h4 below the tap seat body 3.

The multi-waterway faucet structure 1 with double water outlets is used by being matched with a filter device d4, a bubble water machine d2, a heater d1 and an external pipeline; the filtering device d4 is used for filtering the external water source into filtered water through the internal filter element structure and then discharging the filtered water, the bubble water machine d2 is used for respectively providing bubble water and ice water after the filtered water is treated through the internal compression device, the gas cylinder and the condenser, and the heater d1 is used for heating the filtered water to 100 ℃ through the internal heating device and then discharging the water.

The water inlet d4a of the filter device d4 is connected to an external water source through a pipeline, and the filtered water outlet d4b of the filter device d4 is connected to the other end of the cold water inlet pipe p4 of the pipeline assembly of the multi-waterway faucet structure 1 with double water outlets through a pipeline. The water inlet d2a of the bubble water machine d2 is connected to the filtered water outlet d4b of the filtering device d4 through a pipeline, the bubble water outlet d2b2 of the bubble water machine d2 is connected to the other end of the bubble water inlet pipe p2 of the pipeline assembly of the multi-waterway faucet structure with double water outlets 1 through a pipeline, and the ice water outlet d2b3 of the bubble water machine d2 is connected to the other end of the ice water inlet pipe p3 of the pipeline assembly of the multi-waterway faucet structure with double water outlets 1 through a pipeline. The water inlet d1a of the heater d1 is connected to the other end of the loop water outlet pipe p5 of the pipeline assembly of the multi-waterway faucet structure 1 with double water outlets through a pipeline, and the hot water outlet d1b of the heater d1 is connected to the other end of the hot water communicating pipe p1 of the pipeline assembly of the multi-waterway faucet structure 1 with double water outlets through a pipeline.

When a user needs to use hot water, the hot water control handle c1 of the switch assembly of the multi-waterway faucet structure 1 with double water outlets is set to be in an on state, so that two ends of the switch valve sw1 in the hot water control handle c1 are linked to be communicated with the water inlet hole ha and the water outlet hole hb of the hot water communication groove s1 at the side edge of the faucet seat body 3, and the loop passage in the faucet seat body 3 can be communicated with water outlet; the hot water can be discharged from the hot water outlet d1b of the heater and is communicated to the hot water communicating pipe p1 of the pipeline assembly through a pipeline, and then is discharged from the water outlet at the front end of the faucet tube body 2. If the hot water control handle c1 of the switch assembly of the multi-waterway faucet structure 1 with double water outlets is set to be in a closed state, two ends of the switch valve sw1 in the hot water control handle c1 are linked to block the water inlet hole ha and the water outlet hole hb of the hot water communication groove s1 at the side edge of the faucet seat 3 from being communicated with each other, so that the loop passage in the faucet seat 3 cannot be communicated with water to achieve the effect of closing the faucet.

If a user needs to use the bubble water, the bubble water control knob c2 of the switch assembly of the multi-waterway faucet structure 1 with double water outlets is set to be in an on state, so that two ends of the switch valve sw2 in the bubble water control knob c2 are linked to be communicated with the water inlet hole ha and the water outlet hole hb of the bubble water communication groove s2 at the side edge of the faucet seat body 3, and the bubble water passage in the faucet seat body 3 can be communicated with water outlet; the bubble water can be discharged from the bubble water outlet d2b2 of the bubble water machine, is communicated through a pipeline, and is discharged from the water outlet at the front end of the tap pipe body 2 after passing through the bubble water inlet pipe p2 of the pipeline assembly, the bubble water passage in the tap seat body 3 and the communicated water outlet pipe pc in the tap pipe body 2 in sequence. If the bubble water control knob c2 of the switch assembly of the multi-waterway faucet structure 1 with dual water outlets is set to be in a closed state, two ends of the switch valve sw2 inside the bubble water control knob c2 are linked to block the water inlet hole ha and the water outlet hole hb of the bubble water communication groove s2 at the side edge of the faucet seat 3 from being communicated with each other, so that the bubble water passage inside the faucet seat 3 cannot be communicated with water outlet to achieve the effect of closing the faucet.

When a user wants to use ice water, the ice water control knob c3 of the switch assembly of the multi-waterway faucet structure 1 with double water outlets is set to be in an on state, so that two ends of a switch valve sw3 in the ice water control knob c3 are linked to be communicated with the water inlet hole ha and the water outlet hole hb of the ice water communication groove s3 at the side edge of the faucet seat body 3, and the ice water passage in the faucet seat body 3 can be communicated with water outlet; the ice water can be discharged from the ice water outlet d2b3 of the bubble water machine and is communicated through a pipeline, and then is discharged from the water outlet at the front end of the tap pipe body 2 after passing through the ice water inlet pipe p3 of the pipeline assembly, the ice water passage in the tap seat body 3 and the communicated water outlet pc in the tap pipe body 2 in sequence. If the ice water control knob c3 of the switch assembly of the multi-waterway faucet structure 1 with dual water outlets is set to be in a closed state, two ends of the switch valve sw3 inside the ice water control knob c3 are linked to block the water inlet hole ha and the water outlet hole hb of the ice water communication groove s3 at the side edge of the faucet seat body 3 from being communicated with each other, so that the ice water passage inside the faucet seat body 3 cannot be communicated with water to achieve the effect of closing the faucet.

When a user wants to use cold water, the cold water control handle c4 of the switch assembly of the multi-waterway faucet structure 1 with double water outlets is set to be in an on state, so that two ends of the switch valve sw4 in the cold water control handle c4 are arranged in a linkage manner to be communicated with the water inlet hole ha and the water outlet hole hb of the cold water communication groove s4 at the side edge of the faucet seat body 3, and the cold water passage in the faucet seat body 3 can be communicated with water outlet; the cold water can be discharged from the filtered water outlet d4b of the filtering device, is communicated through a pipeline, and sequentially passes through the cold water inlet pipe p4 of the pipeline assembly, the cold water passage in the tap seat body 3 and the communicated water outlet pc in the tap tube body 2, and then is discharged from the water outlet at the front end of the tap tube body 2. If the cold water control handle c4 of the switch assembly of the multi-waterway faucet structure 1 with dual water outlets is set to be in a closed state, two ends of the switch valve sw4 in the cold water control handle c4 are arranged in a linkage manner to block the water inlet hole ha and the water outlet hole hb of the cold water communication groove s4 at the side edge of the faucet seat 3 from being communicated with each other, so that the cold water passage in the faucet seat 3 cannot be communicated with water outlet to achieve the effect of closing the faucet.

The invention mainly utilizes the arrangement of the hot water pipe passage w1, the loop passage, the bubble water passage, the ice water passage and the cold water passage in the tap seat body 3 to integrate various drinking water paths so as to provide diversification and convenience for drinking water for users, greatly simplify the complexity of the arrangement of the pipeline of the physical water paths and avoid the need of adding other tap structures.

The foregoing embodiments are merely illustrative of the principles and functions of the present invention, and are not in limitation of the invention; accordingly, modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit of the invention. The present invention has industrial applicability, novelty and progress, and meets the requirements of the invention patent, and the present invention is applied for the patent by law.

Claims (1)

1. A multi-waterway faucet structure with dual water outlets, comprising: the faucet comprises a faucet tube body, a faucet seat body, a switch assembly and a pipeline assembly; the tap tube body is arranged above the tap seat body, and the switch component is arranged on the side edge of the tap seat body;

the front end of the tap tube body is provided with a water outlet communication valve, the water outlet communication valve is provided with a hot water connector and a water outlet connector, and the hot water connector and the water outlet connector are hollow structures and form openings at two sides; a water outlet communicating groove is arranged above the tap seat body, and a hot water pipe outlet and a communicating water outlet are arranged at the bottom of the water outlet communicating groove; the inside of the water outlet communication groove is provided with a pipe body communication valve, the pipe body communication valve is provided with a hot water pipe channel and a pipe body connector, and the inside of the hot water pipe channel and the inside of the pipe body connector are hollow structures and form openings at two sides; wherein the hot water pipe channel of the pipe body communication valve is communicated with the hot water pipe outlet at the bottom of the water outlet communication groove, and the pipe body connector of the pipe body communication valve is communicated with the communication water outlet at the bottom of the water outlet communication groove;

the side of the tap seat body is provided with a hot water communication groove, a bubble water communication groove, an ice water communication groove and a cold water communication groove, and both the tap seat body are provided with a water inlet hole and a water outlet hole; a hot water pipe inlet, a loop water outlet, a bubble water inlet, an ice water inlet and a cold water inlet are arranged below the tap seat body; the tap seat is internally provided with a hot water pipe passage, a loop passage, a bubble water passage, an ice water passage and a cold water passage; wherein, this return circuit route then includes: a loop water inlet passage and a loop water outlet passage; this bubble water passageway then includes: a bubble water inlet passage and a bubble water outlet passage; the ice water passage includes: an ice water inlet passage and an ice water outlet passage; the cold water channel comprises: a cold water inlet passage and a cold water outlet passage;

the switch assembly includes: the hot water control handle, the bubble water control knob, the ice water control knob and the cold water control handle are all provided with switch valves; the pipeline assembly comprises: a water outlet pipe, a hot water communicating pipe, a loop water outlet pipe, a bubble water inlet pipe, an ice water inlet pipe and a cold water inlet pipe are communicated;

the two ends of the hot water pipe passage in the tap seat body are respectively communicated with the hot water pipe outlet and the hot water pipe inlet of the water outlet communicating groove, the water outlet end of the loop water outlet passage is communicated with the loop water outlet, the water inlet end of the loop water inlet passage is communicated with the cold water inlet, the water inlet end of the bubble water inlet passage is communicated with the bubble water inlet, the water inlet end of the ice water inlet passage is communicated with the ice water inlet, and the water inlet end of the cold water inlet passage is communicated with the cold water inlet;

the water outlet end of the loop water inlet passage in the tap seat body is communicated with the water inlet hole of the hot water communication groove, the water outlet end of the bubble water inlet passage is communicated with the water inlet hole of the bubble water communication groove, the water outlet end of the ice water inlet passage is communicated with the water inlet hole of the ice water communication groove, and the water outlet end of the cold water inlet passage is communicated with the water inlet hole of the cold water communication groove;

the water inlet end of the loop water outlet passage in the tap seat body is communicated with the water outlet hole of the hot water communication groove, the water inlet end of the bubble water outlet passage is communicated with the water outlet hole of the bubble water communication groove, the water inlet end of the ice water outlet passage is communicated with the water outlet hole of the ice water communication groove, and the water inlet end of the cold water outlet passage is communicated with the water outlet hole of the cold water communication groove;

the water outlet end of the bubble water outlet passage, the water outlet end of the ice water outlet passage and the water outlet end of the cold water outlet passage in the tap seat body are all communicated with the communicated water outlet of the water outlet communicating groove;

the hot water control handle of the switch component is arranged in the hot water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the hot water control handle are respectively communicated with the water inlet hole and the water outlet hole of the hot water communication groove; the bubble water control knob is arranged in the bubble water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the bubble water control knob are respectively communicated with the water inlet hole and the water outlet hole of the bubble water communication groove; the ice water control knob is arranged in the ice water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the ice water control knob are respectively communicated with the water inlet hole and the water outlet hole of the ice water communication groove; the cold water control handle is arranged in the cold water communication groove at the side edge of the tap seat body, and two ends of the switch valve of the cold water control handle are respectively communicated with the water inlet hole and the water outlet hole of the cold water communication groove;

the communicating water outlet pipe of the pipeline assembly is arranged in the faucet pipe body, one end of the communicating water outlet pipe is connected with the water outlet connector of the water outlet communicating valve arranged at the front end of the faucet pipe body, and the other end of the communicating water outlet pipe is connected with the pipe body connector of the pipe body communicating valve arranged in the water outlet communicating groove above the faucet seat body; the hot water communicating pipe sequentially passes through the tap seat body and is arranged in the tap body relatively through the hot water pipe inlet below the tap seat body, the hot water pipe passage, the hot water pipe outlet of the water outlet communicating groove and the hot water pipe passage of the pipe body communicating valve, and one end of the hot water communicating pipe can be connected with the hot water connector of the water outlet communicating valve arranged at the front end of the tap body;

one end of the loop water outlet pipe of the pipeline assembly is arranged at the loop water outlet below the tap seat, one end of the bubble water inlet pipe is arranged at the bubble water inlet below the tap seat, one end of the ice water inlet pipe is arranged at the ice water inlet below the tap seat, and one end of the cold water inlet pipe is arranged at the cold water inlet below the tap seat.

Images