CN113251181A - Four-in-one faucet system - Google Patents

Abstract

The invention relates to the field of taps, in particular to a four-in-one tap system, which comprises a hot water inlet, a cold water inlet, a water boiler, an ice water machine, a water purifier, a tap body and a pipeline system, wherein the hot water inlet is communicated with the cold water inlet; the hot water inlet, the cold water inlet, the water boiler, the ice water machine and the water purifier are connected with the water faucet body through a pipeline system, so that the water faucet body has four switching modes of cold and hot washing water and direct drinking ice boiling water; the direct drinking control valve is used for switching direct drinking boiling water and direct drinking ice water, and the cold and hot control valve is used for switching cold and hot water; pipeline system installs the lower extreme at the cross body, can realize outside ordinary hot water mode and the cold water mode, still has straight drink frozen water and boiling water mode, and four reasonable integrations are originally internal at same tap, have improved the convenience that the user used greatly.

Description

Four-in-one faucet system

Technical Field

The invention relates to the field of faucets, in particular to a four-in-one faucet system.

Background

The water tap is a popular name of a water valve, is used for controlling the size of water flow to be switched on and off, and has the effect of saving water. The water tap has a very fast updating speed, and develops from an old cast iron process to an electroplating knob type water tap, a stainless steel single-temperature single-control water tap, a stainless steel double-temperature double-control water tap and a kitchen semi-automatic water tap. At present, more and more consumers purchase faucets, and the faucets are comprehensively considered from various aspects such as materials, functions, shapes and the like.

The tap that adopts in the present life only has ordinary hot and cold water washing function usually, still need independent pasteurization in addition when people drink, it is more loaded down with trivial details, but the hot and cold water tap that can directly drink at present exists independent of above-mentioned hot and cold water tap basically, two kinds of tap exist alone, not only occupy more space, and it is extravagant to cause tap inner space, the cost is improved, but two kinds of tap unites two into one, have great challenge in spatial layout, the layout is unreasonable will cause big tap's volume too big, the use inconvenience has been improved in the time of not aesthetic.

Disclosure of Invention

The purpose of the invention is: lie in providing four unification tap systems, it can realize outside ordinary hot water mode and the cold water mode, still has straight ice water of drinking and boiling water mode, and four reasonable integrations are in same tap originally internally, have improved the convenience that the user used greatly.

In order to solve the above problems, the present invention adopts the following technical solutions.

The four-in-one faucet system comprises a hot water inlet, a cold water inlet, a water boiler, an ice water machine, a water purifier, a faucet body and a pipeline system; the hot water inlet, the cold water inlet, the water boiler, the ice water machine and the water purifier are connected with the water faucet body through a pipeline system, so that the water faucet body has four switching modes of cold and hot washing water and direct drinking ice boiling water.

Further, the pipeline system comprises a hot water pipeline, a cold water pipeline, an ice water pipeline, a boiling water pipeline and an auxiliary pipeline; the hot water pipeline is connected between the hot water inlet and the faucet body; the cold water pipeline is connected between the cold water inlet and the faucet body; the auxiliary pipeline is connected between the cold water inlet and the ice water machine, and the water purifier is connected on the auxiliary pipeline; the ice water pipeline is connected between the ice water machine and the faucet body; the boiling water pipeline comprises a first pipeline, a second pipeline and a third pipeline, and the second pipeline and the third pipeline are connected between the water boiler and the faucet body; the first pipeline is connected between the auxiliary pipeline and the faucet body and is located between the water purifier and the water chiller.

Further, the faucet body comprises a port part, a four-way body, a direct drinking control valve and a cold and hot control valve, wherein the port part, the direct drinking control valve and the cold and hot control valve are respectively arranged in the upper port and the left and right ports of the four-way body; the direct drinking control valve is used for switching direct drinking boiling water and direct drinking ice water, and the cold and hot control valve is used for switching cold and hot water; the pipeline system is installed at the lower end of the four-way body.

Furthermore, the port part comprises a positioning snap ring, a water outlet pipeline and a connector body, wherein two ends of the water outlet pipeline are respectively fixed with the positioning snap ring and the connector body, and the connector body is hermetically connected in the upper port of the four-way body and communicated with the interior of the four-way body; the direct drinking ice water channel and the direct drinking boiling water channel are communicated with the direct drinking control valve through the connector body, and the cold and hot water channel is communicated with the cold and hot control valve through the connector body.

Furthermore, the water outlet pipeline comprises an outer pipe and an inner pipe which are distributed inside and outside, a gap is formed between the outer pipe and the inner pipe to form the cold and hot water channel, one end of the outer pipe and one end of the inner pipe are fixedly connected through a positioning snap ring, and the other end of the outer pipe and the other end of the inner pipe are connected with the joint body; the direct drinking ice water channel and the direct drinking boiling water channel are formed by dividing the inner part of the inner pipe through a partition plate.

Further, the joint body comprises an upper joint, a lower joint and an inserting part, a water inlet and a gap are respectively arranged on the outer sides of the upper joint and the lower joint, the water inlet is communicated with a cold and hot water channel, and the gap is communicated with a direct drinking ice water channel; the insertion part is arranged between the direct drinking ice water channel and the direct drinking boiling water channel and is convenient to be connected with the water outlet pipeline.

Furthermore, a cold and hot cavity, a pipeline cavity, a first installation cavity for installing the direct drinking control valve and a second installation cavity for installing the cold and hot control valve are formed in the four-way body; the pipeline system is in threaded connection with the inner upper wall of the pipeline cavity; the internal space of the four-way body is separated by plates to form a hot channel, a cold channel, an ice channel and a boiling channel; the hot channel and the cold channel reach the cold and hot cavity through a cold and hot control valve arranged in the second mounting cavity and are communicated with the port part; the ice channel and the boiling channel are communicated with the port part through a direct drinking control valve arranged in the first mounting cavity.

Furthermore, be close to first installation cavity and set up rivers hole two, cold and hot control valve, the last narrow runner of intercommunication second installation cavity and cold and hot chamber, cold and hot chamber and be located the water inlet of cold and hot intracavity side and communicate in proper order on the second installation cavity lateral wall, constitute hot passageway.

Furthermore, be close to first installation cavity and set up the last narrow runner, the cold and hot chamber of rivers hole four, cold and hot control valve, intercommunication second installation cavity and cold and hot chamber and be located the water inlet of cold and hot intracavity side and communicate in proper order on the second installation cavity lateral wall, constitute cold passageway.

Further, communicate first installation cavity and pipe-line system narrow runner down, directly drink the control valve, be close to the second installation cavity and set up rivers hole one and the breach on first installation cavity lateral wall and communicate in proper order, constitute the ice passageway.

Furthermore, be close to the second installation cavity and set up the rivers hole three on the first installation cavity lateral wall, directly drink the control valve and will directly drink the control valve and keep away from long runner that second installation cavity one end and pipe-line system communicate in proper order, constitute the passageway boils.

Compared with the prior art, the invention has the advantages that:

one, this four unification tap systems have integrated cold and hot washing water and have directly drunk four kinds of modes of ice boiling water, realize that a tap is multi-functional, have various selectivity, carry out special planning to tap inner space simultaneously, the design of minimum form this tap's appearance reaches the best space utilization as far as possible on the basis of realizing above-mentioned four functions, directly drink ice boiling water simultaneously and utilize the inside many partition passageways of outlet conduit to independently discharge, effectively guarantee the water quality safety of directly drinking water.

Two, owing to consider the higher problem of straight drink boiling water temperature than ordinary hot water, can cause the influence to the case life-span, this scheme passes through pipe-line system's setting for just utilize the boiled water machine to produce boiling water after the case filtering cold water, then directly defeated, avoided the injury that boiling water caused to the case through the case, effectively guaranteed the rate of utilization of case.

The design through grafting portion, the inner tube of being convenient for is fixed in grafting portion, and the cooperation outside screw and location snap ring firmly with outer tube and inner tube reciprocal anchorage, cold and hot water, straight drink frozen water and straight drink boiling water respectively from water inlet, breach and the entering of the end opening under the body of joint, design three inlet port simultaneously.

Drawings

FIG. 1 is a schematic diagram of the principal structure of the present invention;

fig. 2 is a schematic perspective view of the faucet body of the present invention;

FIG. 3 is a schematic perspective view of the head of the present invention;

FIG. 4 is a schematic cross-sectional view of the head of the present invention;

FIG. 5 is a schematic perspective view of the joint body of the present invention;

FIG. 6 is a schematic perspective view of the insertion part of the present invention;

FIG. 7 is a schematic perspective view of the piping system of the present invention;

FIG. 8 is a cross-sectional view of the cross-piece body of the present invention in a three-dimensional configuration;

FIG. 9 is a schematic view of the structure at A in FIG. 8;

FIG. 10 is a front perspective sectional view of the ice water pipeline according to the present invention;

FIG. 11 is a front perspective sectional view of the present invention at a first conduit;

FIG. 12 is a front perspective sectional view of the third conduit of the present invention;

FIG. 13 is a front perspective sectional view of the water inlet of the present invention;

FIG. 14 is a front perspective sectional view of a long flow channel of the present invention;

FIG. 15 is a top perspective sectional view of the connection of the piping system and the cross-piece body of the present invention;

FIG. 16 is a top perspective view of a water flow aperture in accordance with the present invention;

fig. 17 is a top perspective view of the long flow channel of the present invention.

The reference numbers in the figures illustrate:

a. a hot water inlet; b. a cold water inlet; c. a water purifier; d. a faucet body; e. a piping system; e1, hot water pipeline; e2, cold water pipeline; e3, auxiliary line; e4, an ice water pipeline; e5, a boiling water pipeline; e51, a first pipeline; e52, second management; e53, third pipeline;

1. a port section; 11. positioning the snap ring; 12. a water outlet pipeline; 121. an outer tube; 122. an inner tube; 13. a connector body; 131. a water inlet; 132. an upper joint; 133. a lower joint; 134. a notch; 135. a plug-in part;

2. a four-way body; 2-1, a cold and hot cavity; 2-2, a pipeline cavity; 2-3, a first mounting cavity; 2-4, a second mounting cavity;

21. a lower narrow flow passage; 22. a water flow hole I; 23. a water flow hole II; 24. a third water flow hole; 25. an upper narrow flow passage; 26. a fourth water flow hole; 27. a long flow passage;

3. a direct drinking control valve; 4. a cold and hot control valve.

Detailed Description

As shown in fig. 1-17, the four-in-one faucet system includes a hot water inlet a, a cold water inlet b, a water boiler, an ice water machine, a water purifier c, a faucet body d and a pipeline system e; as shown in fig. 1, the pipe system e includes a hot water pipe e1, a cold water pipe e2, an ice water pipe e4, a boiling water pipe e5, and an auxiliary pipe e 3; a hot water line e1 is connected between the hot water inlet a and the faucet body d; the cold water pipeline e2 is connected between the cold water inlet b and the tap body d; the auxiliary pipeline e3 is connected between the cold water inlet b and the ice water machine, and the water purifier c is connected on the auxiliary pipeline e 3; the ice water pipeline e4 is connected between the ice water machine and the tap body d; the boiling water pipeline e5 comprises a first pipeline e51, a second pipeline e52 and a third pipeline e53, wherein the second pipeline e52 and the third pipeline e53 are connected between the water boiler and the faucet body d; the first pipeline e51 is connected between the auxiliary pipeline e3 and the faucet body d, and the first pipeline e51 is positioned between the water purifier c and the ice water machine; the tap body d can be switched between cold water, hot water, ice water and boiling water for use, and the boiling water directly flows out without passing through any valve core after being generated.

As shown in fig. 2, the faucet body d includes a port portion 1, a four-way body 2, a direct-drinking control valve 3 and a cold-hot control valve 4, the port portion 1, the direct-drinking control valve 3 and the cold-hot control valve 4 are respectively installed in an upper port and a left port and a right port of the four-way body 2, and the direct-drinking control valve 3 and the cold-hot control valve 4 are both existing control valves; as shown in fig. 3, the port portion 1 includes a positioning snap ring 11, a water outlet pipe 12 and a connector body 13, two ends of the water outlet pipe 12 are respectively fixed with the positioning snap ring 11 and the connector body 13, and the connector body 13 is hermetically connected in an upper port of the four-way body 2 and is communicated with the interior of the four-way body 2; a direct drinking ice water channel, a direct drinking boiling water channel and a cold and hot water channel are arranged in the water outlet pipeline 12, the direct drinking ice water channel and the direct drinking boiling water channel are communicated with the direct drinking control valve 3 through the joint body 13, and the cold and hot water channel is communicated with the cold and hot control valve 4 through the joint body 13.

As shown in fig. 4-5, the water outlet pipe 12 includes an outer pipe 121 and an inner pipe 122 distributed inside and outside, and a space is formed between the outer pipe 121 and the inner pipe 122 to form a cold and hot water channel, one end of the outer pipe 121 and one end of the inner pipe 122 are connected and fixed by a positioning snap ring 11, the positioning snap ring 11 can be connected by the prior art, and the other end is connected with the joint body 13; the direct drinking ice water channel and the direct drinking boiling water channel are formed by dividing the inner part of the inner pipe 122 through a partition plate.

As shown in fig. 5-6, the joint body 13 includes an upper joint 132, a lower joint 133 and a plug 135, a water inlet 131 and a gap 134 are respectively disposed at the outer sides of the upper joint 132 and the lower joint 133, the water inlet 131 is communicated with the cold and hot water channel, and the gap 134 is communicated with the direct drinking ice water channel; the insertion part 135 is arranged between the direct drinking ice water channel and the direct drinking boiling water channel, and is convenient to be connected with the water outlet pipeline 12.

As shown in fig. 8-9, a cold-hot cavity 2-1, a pipeline cavity 2-2, a first installation cavity 2-3 and a second installation cavity 2-4 are arranged inside the four-way body 2; 6 upper ports of the hot water pipeline e1, the cold water pipeline e2, the ice water pipeline e4 and the boiling water pipeline e5 are all in threaded connection with a pipe seat integrally formed on the inner upper wall of the pipeline cavity 2-2, as shown in fig. 7, a lantern ring is arranged in an auxiliary mode, and the 6 pipes are positioned together by screws, so that the stability is improved; a hot channel, a cold channel, an ice channel and a boiling channel are arranged among the cold and hot cavity 2-1, the pipeline cavity 2-2, the first installation cavity 2-3 and the second installation cavity 2-4, and the four channels are formed by separating the space inside the four-way body 2 through the plate; the hot channel and the cold channel both reach the cold and hot cavity 2-1 through a cold and hot control valve 4 arranged in the second installation cavity 2-4 and are communicated with the cold and hot water channel through a water inlet 131 on the joint body 13; the ice channel and the boiling channel both pass through a direct drinking control valve 3 installed in the first installation cavity 2-3, wherein the ice channel enters the direct drinking ice water channel through a notch 134 on the joint body 13, and the boiling channel enters the direct drinking boiling water channel through a lower side port of the joint body 13.

Referring to fig. 9-10, the upper port of the hot water pipeline e1 is communicated with the second water flow hole 23, the second water flow hole 23 is arranged on the side wall of the second installation cavity 2-4 and close to the first installation cavity 2-3, the second water flow hole 23, the cold and hot control valve 4, the upper narrow flow passage 25 communicating the second installation cavity 2-4 and the cold and hot cavity 2-1, the cold and hot cavity 2-1 and the water inlet 131 positioned at the inner side of the cold and hot cavity 2-1 are communicated in sequence to form a hot channel.

As shown in fig. 12, the upper port of the cold water pipeline e2 is communicated with a fourth water flow hole 26, the fourth water flow hole 26 is formed in the side wall of the second installation cavity 2-4 and is close to the first installation cavity 2-3, the fourth water flow hole 26, the cold and hot control valve 4, the upper narrow flow passage 25 communicating the second installation cavity 2-4 and the cold and hot cavity 2-1, the cold and hot cavity 2-1 and the water inlet 131 located inside the cold and hot cavity 2-1 are sequentially communicated to form a cold channel.

As shown in fig. 9 to 10, the ice water pipeline e4 is communicated with the lower narrow flow passage 21, the lower narrow flow passage 21 is communicated with the first installation cavity 2-3 and the ice water pipeline e4, the lower narrow flow passage 21, the direct drinking control valve 3, the first water flow hole 22 which is close to the second installation cavity 2-4 and is arranged on the side wall of the first installation cavity 2-3, and the notch 134 are communicated in sequence to form an ice channel.

As shown in fig. 11-13, the first pipeline e51 is communicated with the third water flow hole 24, the third water flow hole 24 is arranged on the side wall of the first installation cavity 2-3 and close to the second installation cavity 2-4, and the third water flow hole 24 is communicated with the direct drinking control valve 3; as shown in fig. 14, one end of the first installation cavity 2-3, which is far away from the second installation cavity 2-4, is communicated with the second pipeline e52 to form a long flow passage 27; the third water flow hole 24, the direct drinking control valve 3 and the long flow passage 27 are communicated in sequence to form a boiling channel.

When in specific use: as shown in fig. 1, the hot and cold water can be switched by unscrewing the cold and hot control valve 4, and the direct drinking water can be switched by unscrewing the direct drinking control valve 3.

When the hot water outlet of the cold and hot control valve 4 is turned, hot water enters from the hot water inlet a and flows in through the hot water pipe e1, as shown in fig. 9, at this time, the second water flow hole 23 is communicated with the inside of the cold and hot control valve 4, hot water discharged from the port e1 of the hot water pipe can pass through the second water flow hole 23 and enter the cold and hot control valve 4, and then enter the cold and hot cavity 2-1 through the cold and hot control valve 4 and the upper narrow flow passage 25, and the water flows in the direction indicated by the arrow on the right side of fig. 10, because the joint body 13 is installed in the upper port of the four-way body 2, the water inlet 131 on the joint body 13 is exposed in the cold and hot cavity 2-1, and therefore, hot water can directly enter the cold and hot water channel formed between the outer pipe 121 and the inner pipe 122 through the water inlet 131 and then is discharged.

When the cold and hot control valve 4 is screwed to discharge cold water, the cold water enters from the cold water inlet b through the cold water pipeline e2, at this time, the fourth water flow hole 26 is communicated with the inside of the cold and hot control valve 4, and the other hot water flows in the same direction, so the difference between the hot water discharge and the cold water lies in whether the cold and hot control valve 4 seals the second water flow hole 23 and the fourth water flow hole 26, the second water flow hole 23 and the fourth water flow hole 26 are respectively communicated with the hot water pipeline e1 and the cold water pipeline e2, when the inside of the cold and hot control valve 4 is switched to be communicated with the second water flow hole 23, the hot water is discharged, otherwise, the cold water discharge and the cold and hot water are not discharged when the cold and hot control valve 4 is not communicated with the second water flow hole 23 or the fourth water flow hole 26, and the cold and hot control valve 4 adopted herein can refer to the prior art directly, which is not described herein.

When the direct drinking ice water control valve 3 is screwed to discharge direct drinking ice water, as shown in fig. 1, a cold water inlet b, an auxiliary pipeline e3 and an ice water pipeline e4 are sequentially communicated, the cold water enters from the cold water inlet b, is purified and filtered by a water purifier c, then reaches the ice water machine to make the filtered cold water into ice water, the ice water enters the four-way body 2 through an ice water pipeline e4 after being made, at the moment, as shown in fig. 9, the ice water discharged from the ice water pipeline e4 passes through the lower narrow flow channel 21 to reach the inside of the direct drinking control valve 3, as the inside of the direct drinking control valve 3 is communicated with the first water flow hole 22 at the moment, the ice water enters the notch 134 through the first water flow hole 22, as the opening of the direct drinking ice water channel at the notch 134 is exposed, the ice water directly enters the direct drinking ice water channel in the inner pipe 122 and is discharged from the positioning snap ring 11, and the water flow direction of the direct drinking ice water flows to the left arrow direction as shown in fig. 10.

When the direct drinking boiling water is discharged by screwing the direct drinking control valve 3, as shown in fig. 1, pipelines of a cold water inlet b, an auxiliary pipeline e3 and a first pipeline e51 are sequentially communicated, cold water entering from the cold water inlet b is purified and filtered by a water purifier c, flows into the four-way body 2 through the first pipeline e51, as indicated by an arrow in fig. 13, flows into the direct drinking control valve 3 from a water flow hole three 24, passes through the direct drinking control valve 3, flows into a long flow channel 27 shown in fig. 14 from the rear end, enters a second pipeline e52, is discharged downwards to the water boiler in fig. 1 to make boiling water, and the made boiling water flows back into the four-way body 2 from a third pipeline e53, and is directly communicated with a direct drinking boiling water channel in the inner pipe 122 through the connector body 13, so that the boiling water directly enters the direct drinking boiling water channel and then is discharged from the positioning snap ring 11; it should be noted that the direct drinking boiling water and the direct drinking ice water are different from the cold water and the hot water in that the direct drinking boiling water and the direct drinking ice water are separately and independently discharged, and are separated by a special space inside the water outlet pipe 12 and the design of the joint body 13, so that the lower outlet of the direct drinking boiling water pipe and the lower outlet of the direct drinking ice water pipe are separated, the direct drinking boiling water pipe is directly the lower port of the joint body 13, and the joint body 13 is internally provided with a notch 134 as the lower outlet of the direct drinking ice water pipe.

Claims (10)

1. Four unification tap systems, its characterized in that: comprises a hot water inlet (a), a cold water inlet (b), a water boiler, an ice water machine, a water purifier (c), a faucet body (d) and a pipeline system (e);

the hot water inlet (a), the cold water inlet (b), the water boiler, the ice water machine and the water purifier (c) are connected with the faucet body (d) through the pipeline system (e), so that the faucet body (d) has four switching modes of cold and hot washing water and direct drinking ice and boiling water.

2. The four-in-one faucet system according to claim 1, wherein: the pipeline system (e) comprises a hot water pipeline (e 1), a cold water pipeline (e 2), an ice water pipeline (e 4), a boiling water pipeline (e 5) and an auxiliary pipeline (e 3);

the hot water pipe (e 1) is connected between the hot water inlet (a) and the faucet body (d);

the cold water pipeline (e 2) is connected between the cold water inlet (b) and the faucet body (d);

the auxiliary pipeline (e 3) is connected between the cold water inlet (b) and the ice water machine, and the water purifier (c) is connected to the auxiliary pipeline (e 3);

the ice water pipeline (e 4) is connected between the ice water machine and the faucet body (d);

the boiling water pipeline (e 5) comprises a first pipeline (e 51), a second pipeline (e 52) and a third pipeline (e 53), and the second pipeline (e 52) and the third pipeline (e 53) are connected between the water boiler and the faucet body (d); the first pipe (e 51) is connected between the auxiliary pipe (e 3) and the faucet body (d), and the first pipe (e 51) is located between the water purifier (c) and the ice and water machine.

3. The four-in-one faucet system according to claim 1, wherein: the faucet body (d) comprises a port part (1), a four-way body (2), a direct-drinking control valve (3) and a cold-hot control valve (4), wherein the port part (1), the direct-drinking control valve (3) and the cold-hot control valve (4) are respectively arranged in an upper port and a left port and a right port of the four-way body (2); the direct drinking control valve (3) is used for switching direct drinking boiling water and direct drinking ice water, and the cold and hot control valve (4) is used for switching cold and hot water; and the pipeline system (e) is arranged at the lower end of the four-way body (2).

4. The four-in-one faucet system according to claim 3, wherein: the port part (1) comprises a positioning clamping ring (11), a water outlet pipeline (12) and a connector body (13), wherein two ends of the water outlet pipeline (12) are respectively fixed with the positioning clamping ring (11) and the connector body (13), and the connector body (13) is hermetically connected in an upper port of the four-way body (2) and communicated with the interior of the four-way body (2); a direct drinking ice water channel, a direct drinking boiling water channel and a cold and hot water channel are arranged in the water outlet pipeline (12), the direct drinking ice water channel and the direct drinking boiling water channel are communicated with the direct drinking control valve (3) through a connector body (13), and the cold and hot water channel is communicated with the cold and hot control valve (4) through the connector body (13).

5. The four-in-one faucet system according to claim 4, wherein: the water outlet pipeline (12) comprises an outer pipe (121) and an inner pipe (122) which are distributed inside and outside, a gap is formed between the outer pipe (121) and the inner pipe (122) to form the cold and hot water channel, one end of the outer pipe (121) and one end of the inner pipe (122) are fixedly connected through a positioning snap ring (11), and the other end of the outer pipe (121) and the other end of the inner pipe (122) are connected with the joint body (13); the direct drinking ice water channel and the direct drinking boiling water channel are formed by dividing the inside of the inner pipe (122) through a partition plate; furthermore, the joint body (13) comprises an upper joint (132), a lower joint (133) and a plug-in part (135), a water inlet (131) and a gap (134) are respectively arranged at the outer sides of the upper joint (132) and the lower joint (133), the water inlet (131) is communicated with a cold and hot water channel, and the gap (134) is communicated with a direct drinking ice water channel; the insertion part (135) is arranged between the direct drinking ice water channel and the direct drinking boiling water channel and is convenient to be connected with the water outlet pipeline (12).

6. The four-in-one faucet system according to claim 3, wherein: a cold and hot cavity (2-1), a pipeline cavity (2-2), a first installation cavity (2-3) for installing the direct drinking control valve (3) and a second installation cavity (2-4) for installing the cold and hot control valve (4) are formed in the four-way body (2);

the pipeline system (e) is in threaded connection with the inner upper wall of the pipeline cavity (2-2);

the internal space of the four-way body (2) is separated by plates to form a hot channel, a cold channel, an ice channel and a boiling channel;

the hot channel and the cold channel both reach the cold and hot cavity (2-1) through a cold and hot control valve (4) arranged in the second installation cavity (2-4) and are communicated with the port part (1);

the ice channel and the boiling channel are communicated with the port part (1) through a direct drinking control valve (3) arranged in the first installation cavity (2-3).

7. The four-in-one faucet system according to claim 6, wherein: a second water flow hole (23) which is close to the first installation cavity (2-3) and arranged on the side wall of the second installation cavity (2-4), a cold and hot control valve (4), an upper narrow flow passage (25) which communicates the second installation cavity (2-4) with the cold and hot cavity (2-1), the cold and hot cavity (2-1) and a water inlet (131) which is positioned on the inner side of the cold and hot cavity (2-1) are communicated in sequence to form the hot channel.

8. The four-in-one faucet system according to claim 6, wherein: a fourth water flow hole (26) which is close to the first installation cavity (2-3) and arranged on the side wall of the second installation cavity (2-4), a cold and hot control valve (4), an upper narrow flow passage (25) which communicates the second installation cavity (2-4) with the cold and hot cavity (2-1), the cold and hot cavity (2-1) and a water inlet (131) which is positioned on the inner side of the cold and hot cavity (2-1) are communicated in sequence to form the cold channel.

9. The four-in-one faucet system according to claim 6, wherein: the lower narrow flow channel (21), the direct-drinking control valve (3) and the water flow holes (22) and the gaps (134) which are arranged on the side wall of the first installation cavity (2-3) are communicated with the first installation cavity (2-3) and the pipeline system (e) in sequence to form the ice channel, wherein the water flow holes (22) and the gaps (134) are arranged on the side wall of the first installation cavity (2-3).

10. The four-in-one faucet system according to claim 6, wherein: and a long flow channel (27) which is close to the second mounting cavity (2-4), is provided with a water flow hole III (24) on the side wall of the first mounting cavity (2-3), is directly drunk by the control valve (3) and keeps one end of the directly drunk control valve (3) away from the second mounting cavity (2-4) and communicated with the pipeline system (e) is communicated in sequence to form the boiling channel.

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