CN220158081U - Integrated water outlet structure and drinking water equipment - Google Patents

Abstract

The utility model discloses an integrated water outlet structure and drinking equipment, which comprises a waterway plate, a first electromagnetic valve and a first mechanical valve; the water channel plate is internally provided with a first cold water channel, a second cold water channel and a third cold water channel, the third cold water channel is respectively provided with a communication channel with the first cold water channel and the second cold water channel, the first cold water channel is provided with a cold water inlet, and the third cold water channel is provided with a cold water outlet; the first electromagnetic valve is arranged on the second cold water path to open and close a communication channel between the second cold water path and the first cold water path; the first mechanical valve is arranged in the third cold water channel to open and close the communication channels of the first cold water channel and the third cold water channel, and the hot water outlet structure is similar to the above. The electromagnetic valve structure and the mechanical valve structure are integrated on one piece of drinking equipment, so that the automatic control characteristic of the electromagnetic valve under the condition of power on can be utilized to conveniently take water, and the manual characteristic of the mechanical structure can be utilized to take water under the condition of power off.

Description

Integrated water outlet structure and drinking water equipment

Technical Field

The utility model relates to the field of drinking equipment, in particular to an integrated water outlet structure and drinking equipment.

Background

The drinking water equipment on the market at present has two water outlet structures. One is that the solenoid valve controls out water, uses under the circular telegram condition, can automatic control water channel's break-make, convenient to use. The other is that the water outlet is controlled mechanically, and the water outlet can be used under the condition of power on and power off, and has the advantages of simple structure, low cost and the like.

However, at present, only electromagnetic valves or only mechanical control water outlet is adopted on drinking equipment. When only adopting the solenoid valve to control the water, if meet under the electroless condition, equipment then can not normally work, only adopts mechanical control to go out the water, the water intaking is inconvenient.

Disclosure of Invention

The utility model aims to provide an integrated water outlet structure and a drinking device, wherein the electromagnetic valve structure and the mechanical valve structure are integrated on one drinking device, so that the automatic control characteristic of the electromagnetic valve under the condition of power on can be utilized to conveniently take water, and the manual characteristic of the mechanical structure can be utilized to take water under the condition of power off.

The utility model discloses an integrated water outlet structure, which comprises a waterway plate, a first electromagnetic valve, a first mechanical valve, a second electromagnetic valve and a second mechanical valve, wherein the waterway plate is provided with a first water inlet and a second water outlet;

a first cold water channel, a second cold water channel and a third cold water channel are arranged in the water channel plate, the third cold water channel is respectively communicated with the first cold water channel and the second cold water channel, the first cold water channel is communicated with the second cold water channel, the first cold water channel is provided with a cold water inlet, and the third cold water channel is provided with a cold water outlet;

the first electromagnetic valve is arranged on the second cold water path to open and close a communication channel between the second cold water path and the first cold water path;

the first mechanical valve is arranged in the third cold water channel to open and close a communication channel between the first cold water channel and the third cold water channel;

the inside of the waterway plate is also provided with a first hot waterway, a second hot waterway and a third hot waterway, the third hot waterway is respectively provided with a communication channel with the first hot waterway and the second hot waterway, the first hot waterway and the second hot waterway are respectively provided with a hot water inlet, and the third hot waterway is provided with a hot water outlet;

the second electromagnetic valve is arranged on the second hot water path to open and close a communication channel of the second hot water path and the third hot water path;

the second mechanical valve is arranged in the third hot water channel to open and close the communication channels of the first hot water channel and the third hot water channel.

Preferably, the first electromagnetic valve and the second electromagnetic valve have the same structure and comprise an upper valve casing, a lower valve casing arranged on a waterway plate, a valve body, an electromagnetic valve spring, a stainless steel rod and a valve sealing element, wherein the valve body, the electromagnetic valve spring, the stainless steel rod and the valve sealing element are arranged in an inner cavity formed by combining the upper valve casing and the lower valve casing cover, one end of the electromagnetic valve spring is connected with the valve body, the other end of the electromagnetic valve spring is connected with the stainless steel rod, the valve sealing element is fixed at the lower end part of the stainless steel rod, and the upper valve casing and the lower valve casing are fastened through screws.

Preferably, the lower valve housing structure of the first solenoid valve: the utility model discloses a valve is characterized by including valve sealing ring, valve sealing piece, valve sealing ring, lower valve casing inner chamber, annular wall is established to lower valve casing inner chamber, the annular wall separates its inner chamber into centre tank and ring channel, the centre tank be equipped with first inlet port of first cold water way intercommunication and with first apopore of second cold water way intercommunication, first inlet port the valve casing inner chamber down first apopore forms the intercommunication passageway between first cold water way with the second cold water way, the valve sealing piece is used for shutoff or opens first apopore, the ring channel passes through the valve sealing washer and seals.

Preferably, the lower valve housing structure of the second electromagnetic valve: the utility model discloses a hot water valve, including valve sealing member, valve sealing ring, lower valve casing inner chamber, the annular wall is established to the valve casing inner chamber down, the annular wall separates its inner chamber into centre tank and ring channel, the anterior segment and the back end of second hot water route wall constitute, the centre tank be equipped with the second inlet port of anterior segment intercommunication and with the second apopore of back end intercommunication, the second inlet port the valve casing inner chamber down the second apopore forms the intercommunication passageway of second hot water route and third hot water route, the valve sealing member is used for shutoff or opens the second apopore, the ring channel is sealed through the valve sealing washer.

Preferably, the first mechanical valve and the second mechanical valve have the same structure and comprise a faucet front cover plate, a faucet sealing ring, a faucet sealing gasket, a faucet spring, a faucet push rod and a faucet rear cover plate, wherein two ends of a third cold water channel and two ends of a third hot water channel are respectively communicated, the faucet front cover plate and the faucet rear cover plate respectively cover two ends of the third cold water channel and the third hot water channel, one end of the faucet spring is fixed with the faucet rear cover plate, the other end of the faucet spring is connected with the faucet push rod, the front end of the faucet front cover plate extends out of the faucet front cover plate, the faucet sealing gasket is sleeved on the faucet push rod and is used for sealing or opening a communication channel between the first cold water channel and the third cold water channel, sealing or opening a communication channel between the first hot water channel and the third hot water channel, the outer wall of the faucet sealing gasket is tightly attached to the inner wall of the third cold water channel, and tightly attached to the inner wall of the third hot water channel, and the faucet sealing gasket is arranged in the faucet sealing gasket.

Preferably, the third cold water channel is columnar, the first cold water channel and the second cold water channel are respectively and vertically intersected with the third cold water channel, the third hot water channel is columnar, and the first hot water channel and the second hot water channel are respectively and vertically intersected with the third hot water channel.

Preferably, the third cold water path and the third hot water path are arranged in parallel and close to each other, the cold water outlet is formed in the bottom of the third cold water path, the hot water outlet is formed in the bottom of the third hot water path, the first cold water path and the second cold water path are located at the side part of the third cold water path and are arranged in parallel and close to each other, and the first hot water path and the second hot water path are located at the side part of the third hot water path and are arranged in parallel and close to each other.

The utility model discloses drinking equipment which comprises the integrated water outlet structure.

The beneficial effects are that:

1. the electromagnetic valve and the mechanical valve are integrated on one machine, so that the automatic control characteristic of the electromagnetic valve under the condition of power on can be utilized to conveniently take water, and the manual characteristic of the mechanical valve can be utilized to take water under the condition of power off.

2. The integrated water outlet structure is provided with a cold water outlet and a hot water outlet, can provide cold water and hot water, is suitable for drinking water demands of various users, is provided with a plurality of hot water inlets, can be connected with a plurality of hot water containers, shortens the water taking time of the hot water of the users, can control the hot water capacity, reduces repeated heating of water, and avoids toxic substances.

3. According to the utility model, the water supply assembly and the faucet are connected by adopting the water path plate, a plurality of hoses are not required to be arranged, the conditions of missing connection, wrong connection, winding and the like can be avoided, the problems of a plurality of water paths, a plurality of pipe connectors and the like are solved, the manual binding of the water path plate is eliminated, the tightness is good, the assembly efficiency is high, and the volume of the drinking water equipment is small.

Drawings

Fig. 1 is a schematic diagram of the structure of the present utility model in a top view.

Fig. 2 is a cross-sectional view taken along the direction A-A in fig. 1.

Fig. 3 is a cross-sectional view taken along the direction B-B in fig. 1.

Fig. 4 is a schematic view of the structure of the utility model from the bottom view.

Fig. 5 is an exploded view of the present utility model.

Fig. 6 is a schematic structural view of the waterway plate of the present utility model.

The marks in the figure are as follows: the water path plate 1, the first cold water path 101, the cold water inlet 1011, the second cold water path 102, the third cold water path 103, the cold water outlet 1031, the first communication channel 601, the second communication channel 602, the third communication channel 603, the first hot water path 104, the second hot water path 105, the front section 1051, the rear section 1052, the third hot water path 106, the first hot water inlet 1041, the second hot water inlet 1042, the hot water outlet 1061, the fourth communication channel 604, and the fifth communication channel 605;

a first solenoid valve 2, an upper valve housing 201, a lower valve housing 202, a valve body 203, a solenoid valve spring 204, a stainless steel rod 205, a valve seal 206, an annular wall 2021, a central groove 2022, an annular groove 2023, screws 207, a valve seal 208, a first water inlet 209, a first water outlet 210, a second water inlet 211, and a second water outlet 212;

a first mechanical valve 3, a faucet front cover plate 301, a faucet sealing ring 302, a faucet sealing gasket 303, a faucet spring 304, a faucet push rod 305 and a faucet rear cover plate 306;

a second electromagnetic valve 4;

a second mechanical valve 5.

Detailed Description

The structure to which the present utility model relates or these terms of technology are further described below. These descriptions are merely illustrative of how the present utility model may be implemented and are not intended to be in any way limiting.

The utility model is further described below with reference to the drawings and the detailed description. In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left" and "right", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the positions or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the present utility model, unless explicitly specified and limited otherwise, the terms "connected," "fixed," and the like are to be construed broadly, and for example, "fixed" may be either a fixed connection or a removable connection or integrated; either directly or indirectly, through intermediaries, or in communication with each other, or in interaction with each other, unless explicitly defined otherwise. The above terms are understood in the specific meaning of the present utility model according to circumstances, for those of ordinary skill in the art.

The utility model discloses an integrated water outlet structure, which is shown in figures 1-6 and comprises a waterway plate 1, a first electromagnetic valve 2, a first mechanical valve 3, a second electromagnetic valve 4 and a second mechanical valve 5. The water channel plate 1 is internally provided with a first cold water channel 101, a second cold water channel 102 and a third cold water channel 103, the third cold water channel 103 is respectively provided with a communication channel with the first cold water channel 101 and the second cold water channel 102, the first cold water channel 101 is provided with a communication channel with the second cold water channel 102, the first cold water channel 101 is provided with a cold water inlet 1011, and the third cold water channel 103 is provided with a cold water outlet 1031. Specifically, the third cold water channel 103 and the first cold water channel 101 have a first communication channel 601, the third cold water channel 103 and the second cold water channel 102 have a second communication channel 602, and the first cold water channel 101 and the second cold water channel 102 have a third communication channel 603.

The first solenoid valve 2 is provided in the second cold water path 102 to open and close the third communication path 603 between the second cold water path 102 and the first cold water path 101. The first mechanical valve 3 is provided in the third cold water path 103 to open and close the first communication passage 601 between the first cold water path 101 and the third cold water path 103.

When the power is on, the first electromagnetic valve 2 opens the third communication channel 603 between the second cold water channel 102 and the first cold water channel 101, the electromagnetic valve water outlet channel is opened, at this time, the first mechanical valve 3 closes the first communication channel 601 between the first cold water channel 101 and the third cold water channel 103, and the mechanical valve water outlet channel is closed. When the power is off, the first electromagnetic valve 2 closes the third communication channel 603 between the second cold water channel 102 and the first cold water channel 101, the electromagnetic valve water outlet channel is closed, at this time, the first mechanical valve 3 opens the first communication channel 601 between the first cold water channel 101 and the third cold water channel 103, and the mechanical valve water outlet channel is opened.

The waterway board 1 is further provided therein with a first hot waterway 104, a second hot waterway 105, and a third hot waterway 106, the third hot waterway 106 having communication passages with the first hot waterway 104 and the second hot waterway 105, respectively, the first hot waterway 104 and the second hot waterway 105 having hot water inlets, respectively, and the third hot waterway 106 having a hot water outlet 1061. Specifically, the third hot water path 106 and the first hot water path 104 have a fourth communication channel 604, the third hot water path 106 and the second hot water path 105 have a fifth communication channel 605, the first hot water path 104 has a first hot water inlet 1041, and the second hot water path 105 has a second hot water inlet 1042.

The second electromagnetic valve 4 is provided in the second hot water path 105 to open and close a fifth communication path 605, which is a communication path between the second hot water path 105 and the third hot water path 106. The second mechanical valve 5 is provided in the third hot water path 106 to open and close a fourth communication path 604, which is a communication path between the first hot water path 104 and the third hot water path 106.

When the electric current is applied, the second electromagnetic valve 2 opens the fifth communication channel 605 between the third hot water channel 106 and the second hot water channel 105, the electromagnetic valve water outlet channel is opened, at this time, the second mechanical valve 6 closes the fourth communication channel 604 between the third hot water channel 106 and the first hot water channel 104, and the mechanical valve water outlet channel is closed. When the power is off, the second electromagnetic valve 2 closes the fifth communication channel 605 between the third hot water channel 106 and the second hot water channel 105, the electromagnetic valve water outlet channel is closed, at this time, the second mechanical valve 6 opens the fourth communication channel 604 between the third hot water channel 106 and the first hot water channel 104, and the mechanical valve water outlet channel is opened.

The electromagnetic valve and the mechanical valve are integrated on the same drinking device, so that the automatic control characteristic of the electromagnetic valve under the condition of power on can be utilized to conveniently take water, and the manual characteristic of the mechanical valve can be utilized to take water under the condition of power off.

In the assembly process of the water supply assembly, the water supply assembly and the faucet are connected by adopting the water path plate, a plurality of hoses are not needed, the conditions of missing connection, wrong connection, winding and the like can be avoided, the problems of multiple water paths, multiple pipe connectors and the like are solved, the manual binding of the water path plate is omitted, the tightness is good, the assembly efficiency is high, and the volume of the drinking water equipment is reduced.

In this embodiment, the integrated water outlet structure has 1 cold water inlet and 2 hot water inlets, connects 1 cold jar and 2 hot jars respectively, sets up a plurality of hot jars in order to shorten user's hot water intaking time to can control hot water capacity, in order to reduce the repeated heating of water, avoid toxic material to produce. Of course, it can be determined according to actual needs. The integrated water outlet structure is provided with 1 cold water outlet and 1 hot water outlet, which are respectively connected with a water tap to provide cold and hot water for users.

In some embodiments, the first electromagnetic valve 2 and the second electromagnetic valve 4 have the same structure, referring to fig. 2 and 5, and comprise an upper valve casing 201, a lower valve casing 202 arranged on the waterway plate 1, a valve body 203, an electromagnetic valve spring 204, a stainless steel rod 205 and a valve sealing member 206, wherein the valve body 203, the electromagnetic valve spring 204, the stainless steel rod 205 and the valve sealing member 206 are arranged in an inner cavity formed by covering the upper valve casing 201 and the lower valve casing 201, the electromagnetic valve spring 204 is connected with the stainless steel rod 205, the valve sealing member 206 is fixed at the lower end part of the stainless steel rod 205, and the upper valve casing 201 and the lower valve casing 202 are fastened by screws 207.

In some embodiments, the lower valve housing structure of the first solenoid valve 2: the lower valve housing 202 has an annular wall 2021 in its inner cavity, the annular wall 2021 divides its inner cavity into a central groove 2022 and an annular groove 2023, the central groove 2022 is provided with a first water inlet 209 communicating with the first cold water path 101 and a first water outlet 210 communicating with the second cold water path 102, the first water inlet 209, the lower valve housing inner cavity, the first water outlet 210 form a third communication channel 603, the valve seal 206 is used to seal or open the first water outlet 210, the annular groove 2023 is sealed by a valve seal 208, see fig. 6.

In some embodiments, the lower valve housing structure of the second solenoid valve 4: the lower valve housing inner cavity is provided with an annular wall 2021, the annular wall 2021 divides the inner cavity into a central groove 2022 and an annular groove 2023, the second hot water path 105 is composed of a front section 1051 and a rear section 1052 which are separated, the central groove 2022 is provided with a second water inlet 211 communicated with the front section 1051 and a second water outlet 212 communicated with the rear section 1052, the second water inlet 211, the lower valve housing inner cavity and the second water outlet 212 form a fifth communication channel 605, a valve sealing element 206 is used for sealing or opening the second water outlet 212, and the annular groove 2023 is sealed by a valve sealing ring 208, see fig. 6.

In some embodiments, the first mechanical valve 3 and the second mechanical valve 5 have the same structure, referring to fig. 3 and 5, and include a faucet front cover plate 301, a faucet sealing ring 302, a faucet sealing gasket 303, a faucet spring 304, a faucet push rod 305, and a faucet rear cover plate 306, where two ends of the third cold water channel 103 and two ends of the third hot water channel 106 are respectively penetrated, the faucet front cover plate 301 and the faucet rear cover plate 306 respectively cover two ends of the third cold water channel 103 and the third hot water channel 106, one end of the faucet spring 304 is fixed with the faucet rear cover plate 306, the other end is connected with the faucet push rod 305, the front end of the faucet front cover plate 301 extends out of the faucet front cover plate 301, and the faucet sealing gasket 303 is sleeved on the faucet push rod 305. The tap gasket 303 is used for blocking or opening a communication channel between the first cold water channel 101 and the third cold water channel 103, and is used for blocking or opening a communication channel between the first hot water channel 104 and the third hot water channel 106, namely, the tap gasket 303 of the first mechanical valve 3 on the cold water channel is used for blocking or opening a communication channel between the first cold water channel 101 and the third cold water channel 103, and the tap gasket 303 of the second mechanical valve 5 on the hot water channel is used for blocking or opening a communication channel between the first hot water channel 104 and the third hot water channel 106. The outer wall of the tap sealing ring 302 is tightly attached to the inner wall of the third cold waterway 103 and is tightly attached to the inner wall of the third hot waterway 106, and the tap sealing gasket 303 is arranged in the tap sealing ring 302, namely, the outer wall of the tap sealing ring 302 of the first mechanical valve 3 on the cold waterway is tightly attached to the inner wall of the third cold waterway 103, and the outer wall of the tap sealing ring 302 of the second mechanical valve 5 on the hot waterway is tightly attached to the inner wall of the third hot waterway 106.

In some embodiments, as shown in fig. 1 and 3, the third cold waterway 103 is columnar, the first cold waterway 101 and the second cold waterway 102 respectively intersect the third cold waterway 103 perpendicularly, the third hot waterway 106 is columnar, and the first hot waterway 104 and the second hot waterway 105 respectively intersect the third hot waterway 106 perpendicularly.

In some embodiments, as shown in fig. 1, the third cold water channel 103 and the third hot water channel 106 are arranged in parallel and close to each other, the cold water outlet 1031 is formed at the bottom of the third cold water channel 103, the hot water outlet 1061 is formed at the bottom of the third hot water channel 106, the first cold water channel 103 and the second cold water channel 102 are located at the side of the third cold water channel 103 and are arranged in parallel and close to each other, and the first hot water channel 104 and the second hot water channel 105 are located at the side of the third hot water channel 106 and are arranged in parallel and close to each other. The structure is reasonable in distribution, and the volume of the equipment is effectively reduced.

The utility model also discloses a drinking device comprising the integrated water outlet structure. The drinking water equipment comprises a drinking water machine, a water purifier or a water purifying machine and the like.

The working process of the integrated water outlet structure comprises the following steps:

cold water outlet: under the condition of power failure or no power failure, the stainless steel rod 205 and the valve sealing piece 206 are pressed on the first water outlet 209 of the waterway plate 1 by utilizing the elasticity of the electromagnetic valve spring 204 to block the communication channel of the first cold waterway 101 and the second cold waterway 102, so as to block the electromagnetic valve water outlet channel, at the moment, the tap push rod 305 is forcefully pushed forward, the tap spring 304 is compressed, the tap sealing gasket 303 is separated from the sealing surface of the waterway plate 1, and the communication channel of the first cold waterway 101 and the third cold waterway 103 is opened to open the mechanical valve water outlet channel; under the condition of power on, the electromagnetic valve moves the stainless steel rod 205 upwards, the valve sealing piece 206 leaves the first water outlet 209 of the waterway plate, the communication channel between the first cold waterway 101 and the second cold waterway 102 is opened to open the electromagnetic valve water outlet, at this time, the mechanical valve pushes the tap sealing pad 303 of the tap push rod 305 to close the communication channel between the first cold waterway 101 and the third cold waterway 103 by the elasticity of the tap spring 304, so as to block the mechanical valve water outlet.

Hot water outlet: under the condition of power failure or no power failure, the stainless steel rod 205 and the valve sealing piece 206 are pressed on the second water outlet 209 of the waterway plate 1 by utilizing the elasticity of the electromagnetic valve spring 204 to close the communication channel of the second hot waterway 105 and the third hot waterway 106, so as to block the electromagnetic valve water outlet channel, at the moment, the second hot waterway 105 stops supplying water, meanwhile, the tap push rod 305 is forced to push forwards, after the tap spring 304 is compressed, the tap sealing gasket 303 leaves the sealing surface of the waterway plate 1, the communication channel of the first hot waterway 104 and the third hot waterway 106 is opened to open the mechanical valve water outlet channel, and at the moment, the first hot waterway 104 supplies water; under the condition of power on, the electromagnetic valve enables the stainless steel rod 205 to move upwards, the communication channel between the second hot water channel 105 and the third hot water channel 106 is opened, the electromagnetic valve water outlet channel is opened, at the moment, the second hot water channel 105 supplies water, meanwhile, the mechanical valve utilizes the elastic force of the faucet spring 304 to press the faucet sealing gasket 303 of the faucet push rod 305 on the sealing surface of the water channel plate 1, the communication channel between the first hot water channel 104 and the third hot water channel 106 is closed, the mechanical valve water outlet channel is blocked, and the first hot water channel 104 stops supplying water.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (8)

1. Integrated water outlet structure, its characterized in that: comprises a waterway plate (1), a first electromagnetic valve (2), a first mechanical valve (3), a second electromagnetic valve (4) and a second mechanical valve (5);

the water channel plate (1) is internally provided with a first cold water channel (101), a second cold water channel (102) and a third cold water channel (103), the third cold water channel (103) is respectively communicated with the first cold water channel (101) and the second cold water channel (102), the first cold water channel (101) and the second cold water channel (102) are communicated, the first cold water channel (101) is provided with a cold water inlet (1011), and the third cold water channel (103) is provided with a cold water outlet (1031);

the first electromagnetic valve (2) is arranged on the second cold water channel (102) to open and close a communication channel between the second cold water channel (102) and the first cold water channel (101);

the first mechanical valve (3) is arranged in the third cold water channel (103) to open and close a communication channel between the first cold water channel (101) and the third cold water channel (103);

a first hot water channel (104), a second hot water channel (105) and a third hot water channel (106) are further arranged in the water channel plate (1), the third hot water channel (106) is respectively communicated with the first hot water channel (104) and the second hot water channel (105), the first hot water channel (104) and the second hot water channel (105) are respectively provided with a hot water inlet, and the third hot water channel (106) is provided with a hot water outlet (1061);

the second electromagnetic valve (4) is arranged on the second hot water channel (105) to open and close a communication channel between the second hot water channel (105) and the third hot water channel (106);

the second mechanical valve (5) is arranged in the third hot water channel (106) to open and close a communication channel between the first hot water channel (104) and the third hot water channel (106).

2. The integrated water delivery structure of claim 1, wherein: the first electromagnetic valve (2) and the second electromagnetic valve (4) are identical in structure and comprise an upper valve casing (201), a lower valve casing (202) arranged on a waterway plate (1), a valve body (203), an electromagnetic valve spring (204), a stainless steel rod (205) and a valve sealing piece (206), wherein the valve body (203), the electromagnetic valve spring (204), the stainless steel rod (205) and the valve sealing piece (206) are arranged in an inner cavity formed by covering the upper valve casing (201) with the lower valve casing (202), one end of the electromagnetic valve spring (204) is connected with the valve body (203), the other end of the electromagnetic valve spring (204) is connected with the stainless steel rod (205), and the valve sealing piece (206) is fixed at the lower end part of the stainless steel rod (205), and the upper valve casing (201) and the lower valve casing (202) are fastened through screws (207).

3. The integrated water delivery structure of claim 2, wherein: lower valve casing structure of first solenoid valve (2): an annular wall (2021) is arranged in an inner cavity of the lower valve casing (202), the inner cavity of the lower valve casing is divided into a central groove (2022) and an annular groove (2023) by the annular wall (2021), the central groove (2022) is provided with a first water inlet hole (209) communicated with the first cold water channel (101) and a first water outlet hole (210) communicated with the second cold water channel (102), the first water inlet hole (209), the inner cavity of the lower valve casing and the first water outlet hole (210) form a communication channel of the first cold water channel (101) and the second cold water channel (102), the valve sealing piece (206) is used for sealing or opening the first water outlet hole (210), and the annular groove (2023) is sealed by a valve sealing ring (208).

4. The integrated water delivery structure of claim 2, wherein: lower valve casing structure of second solenoid valve (4): an annular wall (2021) is arranged in an inner cavity of the lower valve casing (202), the inner cavity of the lower valve casing is divided into a central groove (2022) and an annular groove (2023) by the annular wall (2021), the second hot water channel (105) is composed of a front section (1051) and a rear section (1052) which are separated, the central groove (2022) is provided with a second water inlet hole (211) communicated with the front section (1051) and a second water outlet hole (212) communicated with the rear section (1052), the second water inlet hole (211), the lower valve casing inner cavity and the second water outlet hole (212) form a communication channel between the second hot water channel (105) and the third hot water channel (106), and the valve sealing piece (206) is used for sealing or opening the second water outlet hole (212), and the annular groove (2023) is sealed by a valve sealing ring (208).

5. The integrated water delivery structure of claim 1, wherein: the first mechanical valve (3) and the second mechanical valve (5) have the same structure and comprise a faucet front cover plate (301), a faucet sealing ring (302), a faucet sealing gasket (303), a faucet spring (304), a faucet push rod (305) and a faucet rear cover plate (306), two ends of the third cold water channel (103) and two ends of the third hot water channel (106) are respectively communicated, the faucet front cover plate (301) and the faucet rear cover plate (306) respectively cover the two ends of the third cold water channel (103) and the third hot water channel (106), one end of the faucet spring (304) is fixed with the faucet rear cover plate (306), the other end of the faucet spring (304) is connected with the faucet push rod (305), the front end of the faucet front cover plate (301) extends out of the faucet front cover plate (301), the faucet sealing gasket (303) is sleeved on the faucet push rod (305), the faucet sealing gasket (303) is used for opening or connecting channels of the first cold water channel (101) and the third cold water channel (103), and the inner wall (106) and the third cold water channel (106) are tightly connected with the inner wall (106) and the hot water channel (106) in a sealing way, the tap seal (303) is disposed within the tap seal ring (302).

6. The integrated water delivery structure of claim 1, wherein: the third cold water channel (103) is columnar, the first cold water channel (101) and the second cold water channel (102) are respectively and vertically intersected with the third cold water channel (103), the third hot water channel (106) is columnar, and the first hot water channel (104) and the second hot water channel (105) are respectively and vertically intersected with the third hot water channel (106).

7. The integrated water delivery structure of claim 1, wherein: the third cold water channel (103) and the third hot water channel (106) are arranged in parallel and close to each other, the cold water outlet (1031) is formed in the bottom of the third cold water channel (103), the hot water outlet (1061) is formed in the bottom of the third hot water channel (106), the first cold water channel (101) and the second cold water channel (102) are located at the side part of the third cold water channel (103) and are arranged in parallel and close to each other, and the first hot water channel (104) and the second hot water channel (105) are located at the side part of the third hot water channel (106) and are arranged in parallel and close to each other.

8. Drinking water equipment, its characterized in that: an integrated water outlet structure comprising any one of claims 1-7.