CN213387792U - Filling tap - Google Patents

Abstract

The utility model discloses a filling tap relates to beer filling technical field, and its technical scheme main points are: the novel tap comprises a tap body, a first control valve and a second control valve, wherein a liquid outlet hole is formed in the lower end of the tap body, an exhaust flow channel communicated with the outside is formed in the liquid outlet hole, and a first cavity and a second cavity which are communicated are formed in the tap body; the faucet body is also provided with a liquid inlet flow channel, a mixing flow channel and an air inlet flow channel, the liquid inlet flow channel and the mixing flow channel are both communicated with the first cavity, the mixing flow channel is communicated with the liquid outlet hole, and the air inlet flow channel is communicated with the second cavity; the first control valve is arranged in the first cavity and can control the on-off of the liquid inlet flow channel and the first cavity, and the second control valve is arranged in the second cavity and can control the on-off of the air inlet flow channel and the second cavity. The make-and-break of feed liquor runner, inlet flow way are controlled respectively to control valve one, control valve two, and the user of being convenient for uses, and control valve one, control valve two can be comparatively easy be fixed in tap this internally, and it is convenient to install simultaneously.

Description

Filling tap

Technical Field

The utility model relates to a beer filling technical field, in particular to filling tap.

Background

At present, the development of barreled beer is more mature, and when the barreled beer is packaged and sold again, most of the barreled beer adopts a wine nozzle to fill a wine bottle or a wine cup, and the problems of a large amount of foams generated during filling, inaccurate metering and the like exist in the process of filling by adopting the wine nozzle.

The Chinese patent with publication number CN206089003U discloses a bottle filling faucet, which comprises a valve body and a connecting column connected to the bottom of the valve body, wherein a cylindrical cavity is arranged on the valve body, a valve core is arranged in the cavity, and the upper end of the valve core penetrates out of the cavity and is connected with a valve cap; the valve body is also provided with a transverse channel which passes through the cavity, a switch assembly is arranged in the transverse channel, and the valve cap is rotated to drive the valve core to rotate in the valve body so as to control the switch assembly.

The switch component comprises a hollow blocking cap, a movable valve core and a return spring, wherein the movable valve core and the return spring are arranged in the blocking cap; two opposite round holes are formed in the side wall of the blocking cap, and the round holes are communicated with a hollow cavity formed by the hollow part of the blocking cap; the movable valve core comprises a cylindrical cylinder body and a conical valve core head, wherein the side surface of the cylinder body is provided with at least one strip-shaped groove, when the movable valve core is pressed, the movable valve core extends into a hollow cavity of the plug cap, the round hole is communicated with the groove, a limiting ring is arranged at the joint of the cavity and the transverse channel, the valve core head is abutted against the limiting ring, a sealing ring is arranged on the valve core head, the valve core head enables the transverse channel to form a seal with the cavity through the sealing ring, the movable valve core is separated from the limiting ring after being extruded by the eccentric lug, and the cavity is communicated with the transverse channel. The boss rotates in the cavity, the edge of the boss contacts with the valve core head, the valve core head retracts into the blocking cap after being stressed, the cavity is communicated with the connecting channel, the left end of the transverse channel is communicated with the exhaust joint II, the right end of the transverse channel is communicated with the liquid inlet pipe through the through hole I, the circular hole in the side wall of the blocking cap is matched with the groove in the column body to increase the volume of the gas and liquid channels, and therefore the liquid inlet speed and the gas exhaust speed are increased.

The technical scheme has the following defects: the applicant finds that due to the existence of the return spring in the switch assembly, when the switch assembly is installed, the elastic force of the return spring needs to be overcome, and the switch assembly is difficult to fix in the transverse channel, so that the installation of the switch assembly is inconvenient; in addition, the handle can only control the opening of one switch assembly at a time, so that the wine filling work is completed, the requirement on the operation experience of a user is high, and the use by the user is inconvenient.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a filling tap, it has the advantage that the installation is convenient, the user of being convenient for uses.

The above technical purpose of the present invention can be achieved by the following technical solutions: a filling faucet comprises a faucet body, a first control valve and a second control valve, wherein a liquid outlet hole is formed in the lower end of the faucet body, an exhaust flow channel communicated with the outside is formed in the liquid outlet hole, and a first cavity and a second cavity which are communicated are formed in the faucet body; the faucet body is also provided with a liquid inlet flow channel, a mixing flow channel and an air inlet flow channel, the liquid inlet flow channel and the mixing flow channel are both communicated with the first cavity, the mixing flow channel is communicated with the liquid outlet hole, and the air inlet flow channel is communicated with the second cavity; the first control valve is arranged in the first cavity and can control the on-off of the liquid inlet flow channel and the first cavity, and the second control valve is arranged in the second cavity and can control the on-off of the air inlet flow channel and the second cavity.

Through the technical scheme, the beer tank is connected to the liquid inlet flow channel through the connecting pipe, the external air source pipeline is connected to the air inlet flow channel, and the to-be-filled wine container is arranged at the lower end of the faucet body so as to be communicated with the liquid outlet hole; when wine needs to be poured, the control valve II is opened to enable the air inlet channel to be communicated with the cavity II, air (carbon dioxide) in an external air source can enter a wine container to be filled through the air inlet channel, the cavity II, the cavity I, the mixing channel and the liquid outlet hole in sequence, and at the moment, the control valve I is in a closed state, and the exhaust channel is blocked; after the gas in the container for filling the beer is filled, closing the second control valve, and simultaneously opening the first control valve and the exhaust channel, the beer can enter the container for filling the beer through the liquid inlet channel, the first cavity, the mixing channel and the liquid outlet hole in sequence, the gas in the container for filling the beer is discharged to the outside through the exhaust channel, and the filling of the beer is finished; the control valve I controls the on-off of the liquid inlet flow channel and the cavity I, the control valve II controls the on-off of the air inlet flow channel and the cavity II, the use by a user is facilitated, and meanwhile, the control valve I and the control valve II can be easily fixed in the faucet body, so that the purposes of convenience in installation and use by the user are achieved.

Preferably, one of the control valve includes a first shell, a first valve rod, a first moving ceramic chip and a first static ceramic chip, the first shell can be disassembled and connected to the first cavity, the side wall of the first shell is provided with a first connecting hole of the first cavity, the first valve rod is rotatably arranged in the first shell, the first moving ceramic chip is located in the first shell, the upper end of the first moving ceramic chip is connected with the inner end of the first valve rod, the lower end of the first moving ceramic chip is attached to the first static ceramic chip, the first static ceramic chip is detachably fixed to the first shell, the first static ceramic chip is provided with a second connecting hole of the liquid inlet flow channel, the first moving ceramic chip is provided with a third connecting hole which can communicate the second connecting hole with the first connecting hole.

According to the technical scheme, the first static ceramic chip is fixed in the first shell, the first valve rod is connected with the first movable ceramic chip, and the first valve rod is used for controlling the first movable ceramic chip to rotate; because the second connecting hole on the first static ceramic chip is always communicated with the liquid inlet flow channel, the third connecting hole on the first movable ceramic chip is always communicated with the first cavity through the first connecting hole; the valve rod I controls the movable ceramic chip I to rotate, so that the connecting hole II is communicated with the connecting hole III, the liquid inlet flow channel is communicated with the cavity I, and when the connecting hole II is not communicated with the connecting hole III, the liquid inlet flow channel is not communicated with the cavity I.

Preferably, the first housing is fixed in the first cavity in a threaded manner, and the outer end of the valve rod is detachably fixed with a wine inlet control handle.

Through the technical scheme, the first shell is fixed in the first cavity through threads, so that the first control valve is further convenient to assemble and disassemble; in addition, the wine inlet control handle is arranged, so that a user can control the rotation of the valve rod I through the wine inlet control handle.

Preferably, the lower end of the first shell is provided with a first sealing washer, the lower end of the first sealing washer is abutted against the bottom of the first cavity, and the first sealing washer is communicated with the liquid inlet flow channel and the connecting hole II; the end part of the first valve rod, which protrudes out of the first shell, is provided with a first limiting groove, a first clamp spring is arranged in the first limiting groove, and the lower end face of the first clamp spring abuts against the upper end face of the first shell.

Through the technical scheme, the lower end of the first shell is in contact with the first cavity through the first sealing washer, so that the working stability of the first control valve is ensured, the first control valve is not easy to damage, and the service life of the first control valve is prolonged; the first valve rod is axially fixed in the first shell through the clamp spring, so that the problem that the valve rod moves downwards is effectively solved.

Preferably, the second control valve comprises a second shell, a second valve rod, a second movable ceramic chip and a second static ceramic chip, the second shell is detachably connected in the second cavity, a fourth connecting hole communicated with the second cavity is formed in the side wall of the second shell, the second valve rod is rotatably arranged in the second shell, the second movable ceramic chip is located in the second shell, one end of the second movable ceramic chip is connected with the inner end of the second valve rod, the other end of the second movable ceramic chip is attached to the second static ceramic chip, the second static ceramic chip is detachably fixed in the second shell, a fifth connecting hole communicated with the air inlet channel is formed in the second static ceramic chip, and a sixth connecting hole communicated with the fifth connecting hole and the fourth connecting hole is formed in the second movable ceramic chip.

According to the technical scheme, the second static ceramic chip is fixed in the second shell, the second valve rod is connected with the second movable ceramic chip, and the second valve rod is used for controlling the second movable ceramic chip to rotate; because the connecting hole five on the static ceramic chip II is always communicated with the air inlet flow passage, the connecting hole six on the movable ceramic chip II is always communicated with the cavity II through the connecting hole four; the valve rod II controls the movable ceramic piece II to rotate, so that the connecting hole six is communicated with the connecting hole five, the air inlet channel is communicated with the cavity II, and when the connecting hole six is not communicated with the connecting hole five, the air inlet channel is not communicated with the cavity II.

Preferably, the second housing is in threaded connection with the second cavity, and the outer end of the second valve rod is detachably connected with an air inlet control hand wheel.

Through the technical scheme, the second shell is fixed in the second cavity through threads, so that the second control valve is further convenient to assemble and disassemble; in addition, the air inlet control hand wheel is arranged, so that a user can conveniently control the rotation of the second valve rod through the air inlet control hand wheel.

Preferably, a second sealing washer is arranged at one end, close to the air inlet flow channel, of the second shell, the second sealing washer abuts against the inner wall of the second cavity, and the second sealing washer is communicated with the air inlet flow channel and the fifth connecting hole; and the end part of the second valve rod, which protrudes out of the second shell, is provided with a second limiting groove, a second snap spring is arranged in the second limiting groove, and the inner end surface of the second snap spring is abutted against the outer end surface of the second shell.

Through the technical scheme, the inner end of the second shell is in contact with the second cavity through the second sealing washer, so that the stability of the second control valve during working is ensured, the second control valve is not easy to damage, and the service life of the second control valve is prolonged; the second valve rod is axially fixed in the second shell through the second clamp spring, so that the problem that the second valve rod can displace relative to the second shell is effectively solved.

Preferably, the first cavity is communicated with the second cavity through a connecting through hole.

Through the technical scheme, the first cavity and the second cavity are separately formed and are communicated through the connecting through hole, and the structural strength of the faucet body is effectively guaranteed.

Preferably, the exhaust runner is internally threaded with an exhaust rod, the exhaust rod is sleeved with a sealing ring, and the sealing ring can seal the exhaust runner.

Through above-mentioned technical scheme, the exhaust runner passes through the exhaust pole sealed, through rotating the opening and close of exhaust runner alright completion, the user of being convenient for uses.

Preferably, the lower end of the faucet body is in threaded connection with a bottle lifting mechanism, and the bottle lifting mechanism is communicated with the liquid outlet hole and the exhaust runner.

Through above-mentioned technical scheme, the setting of carrying the bottle mechanism, the user of being convenient for will wait to adorn the lower extreme that the wine container is fixed in leading body to guarantee leading body and wait to adorn the gas tightness between the wine container.

To sum up, the utility model discloses the beneficial effect who contrasts in prior art does:

1. the first control valve and the second control valve are respectively in threaded connection with the first cavity and the second cavity, so that the faucet body is convenient to assemble and disassemble;

2. the control valve I is used for controlling wine intake, the control valve II is used for controlling air intake, and the wine intake flow passage and the air intake flow passage are separately controlled, so that the wine intake system is convenient for users to use;

3. the first cavity and the second cavity are separately formed and communicated with each other through the connecting through hole, and the structural strength of the faucet body is effectively guaranteed.

Drawings

FIG. 1 is a schematic view of the external structure of a faucet body in the embodiment;

FIG. 2 is a schematic top view of FIG. 1;

FIG. 3 is a schematic sectional view of portion A-A of FIG. 2;

FIG. 4 is a schematic sectional view of section B-B of FIG. 2;

FIG. 5 is a schematic sectional view of section C-C of FIG. 2;

FIG. 6 is a schematic view showing an external structure of a control valve according to the embodiment;

FIG. 7 is an exploded view of a first control valve in the embodiment;

FIG. 8 is a schematic view of the full cross-section of FIG. 7;

FIG. 9 is a bottom schematic view of FIG. 7;

FIG. 10 is an exploded view of the second control valve in the embodiment;

FIG. 11 is an external view of the embodiment;

FIG. 12 is a schematic view of the full-section structure of FIG. 11, which is mainly used for showing the structure of the first cavity;

fig. 13 is another schematic full-section structure view of fig. 11, which is mainly used for showing the structure of the second cavity.

Reference numerals: 100. a faucet body; 110. a first cavity; 120. a second cavity; 130. a liquid inlet flow channel; 140. a mixing flow channel; 150. an air inlet channel; 151. a first pagoda joint; 160. a connecting through hole; 200. a first control valve; 210. a first shell; 211. a first connecting hole; 212. sealing washer one; 220. a first valve rod; 221. a wine inlet control handle; 222. a first limiting groove; 2221. a clamp spring I; 230. moving the ceramic sheet I; 231. connecting a hole III; 240. a first static ceramic chip; 241. a second connecting hole; 300. a second control valve; 310. a second shell; 311. a fourth connecting hole; 312. a second sealing washer; 320. a second valve rod; 321. an air inlet control hand wheel; 322. a second limiting groove; 3221. a second clamp spring; 330. moving the ceramic chip II; 331. a sixth connecting hole; 340. a second static ceramic chip; 341. connecting holes are formed; 400. a liquid outlet hole; 500. an exhaust flow passage; 510. an exhaust rod; 511. a seal ring; 512. an exhaust handle; 520. a wine outlet bolt; 530. a pagoda joint II; 600. carry bottle mechanism.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

A filling tap, as shown in fig. 1 to 13, comprising a tap body 100, a first control valve 200 and a second control valve 300, wherein the lower end of the tap body 100 is provided with a liquid outlet hole 400, an exhaust channel 500 communicated with the outside is arranged in the liquid outlet hole 400, a wine outlet bolt 520 is connected to the exhaust channel 500 in a threaded manner, the wine outlet bolt 520 is communicated with the exhaust channel 500, and the tap body 100 is further provided with a first cavity 110 and a second cavity 120 which are communicated with each other; the faucet body 100 is further provided with a liquid inlet flow channel 130, a mixing flow channel 140 and an air inlet flow channel 150, the liquid inlet flow channel 130 and the mixing flow channel 140 are both communicated with the first cavity 110, the mixing flow channel 140 is communicated with the liquid outlet hole 400, and the air inlet flow channel 150 is communicated with the second cavity 120; the first control valve 200 is arranged in the first cavity 110 and can control the on-off of the liquid inlet flow channel 130 and the first cavity 110, and the second control valve 300 is arranged in the second cavity 120 and can control the on-off of the air inlet flow channel 150 and the second cavity 120.

Preferably, the first cavity 110 is communicated with the second cavity 120 through a connecting through hole 160.

The opening of the air inlet flow passage 150 is connected with a first pagoda joint 151 in a threaded manner, and the opening of the exhaust flow passage 500 is connected with a second pagoda joint 530 in a threaded manner.

The control valve I200 comprises a shell I210, a valve rod I220, a movable ceramic chip I230 and a static ceramic chip I240, the shell I210 is fixed in the cavity I110 in a threaded mode, a gap is reserved between the shell II 310 and the cavity I110, a connecting hole I211 communicated with the cavity I110 is formed in the side wall of the shell I210, the valve rod I220 is rotatably arranged in the shell I210, a wine inlet control handle 221 is fixed at the outer end of the valve rod I220 through screws, the movable ceramic chip I230 is located in the shell I210, the upper end of the movable ceramic chip I230 is clamped with the inner end of the valve rod I220, the lower end of the movable ceramic chip I230 is abutted to the static ceramic chip I240, the static ceramic chip I240 is inserted into the shell I210, a connecting hole II 241 communicated with the liquid inlet flow channel 130 is formed in the static ceramic chip I240, and a connecting hole III 231 capable.

The lower end of the first shell 210 is connected with a first sealing washer 212 through insertion or threads, the lower end of the first sealing washer 212 is tightly abutted against the bottom of the first cavity 110, and the first sealing washer 212 is communicated with the liquid inlet flow channel 130 and the second connecting hole 241; the end portion, protruding out of the first housing 210, of the first valve rod 220 is provided with a first limiting groove 222, a first snap spring 2221 is arranged in the first limiting groove 222, and the lower end face of the first snap spring 2221 can abut against the upper end face of the first housing 210.

The second control valve 300 comprises a second shell 310, a second valve rod 320, a second movable ceramic tile 330 and a second static ceramic tile 340, the second shell 310 is in threaded connection with the second cavity 120, a fourth connecting hole 311 communicated with the second cavity 120 is formed in the side wall of the second shell 310, the second valve rod 320 is rotatably arranged in the second shell 310, the second movable ceramic tile 330 is located in the second shell 310, one end of the second movable ceramic tile 330 is clamped with the inner end of the second valve rod 320, the other end of the second movable ceramic tile 330 is attached to the second static ceramic tile 340, the second static ceramic tile 340 is detachably fixed in the second shell 310, a fifth connecting hole 341 communicated with the air inlet channel 150 is formed in the second static ceramic tile 340, and a sixth connecting hole 331 capable of communicating the fifth connecting hole 341 with the fourth connecting hole 311.

The second shell 310 is clamped or in threaded connection with the second cavity 120, and the outer end of the second valve rod 320 is detachably connected with an air inlet control hand wheel 321 through a bolt.

One end of the second shell 310, which is close to the inlet flow channel 150, is provided with a second sealing washer 312, the second sealing washer 312 is tightly abutted against the inner wall of the second cavity 120, and the second sealing washer 312 is communicated with the inlet flow channel 150 and the fifth connecting hole 341; the end part of the second valve rod 320, which protrudes out of the second housing 310, is provided with a second limiting groove 322, a second snap spring 3221 is arranged in the second limiting groove 322, and the inner end surface of the second snap spring 3221 abuts against the outer end surface of the second housing 310.

The second control valve 300 and the first control valve 200 may be of the same construction.

As other schemes, the first control valve 200 and the second control valve 300 can use standard components such as a common quick-opening valve core or a slow-opening valve core in the prior art, so that the processing cost is reduced.

An exhaust rod 510 is clamped or connected in the exhaust flow channel 500 in a threaded manner, the exhaust rod 510 is used for blocking the exhaust flow channel 500, so that the exhaust flow channel 500 is closed, a sealing ring 511 is sleeved on the exhaust rod 510, and the sealing ring 511 can seal the exhaust flow channel 500; the outer end of the exhaust rod 510 is clamped or welded with an exhaust handle 512.

The lower end of the tap body 100 is in threaded connection with a bottle lifting mechanism 600, the bottle lifting mechanism 600 is preferably a bottle lifting mechanism disclosed in the publication number CN206307993U, and the bottle lifting mechanism 600 is communicated with the liquid outlet hole 400 and the exhaust flow channel 500.

The working principle of the filling faucet is as follows:

the beer can is connected to the liquid inlet flow channel 130 through the connecting pipe, an external air source is connected to the air inlet flow channel 150 through a first pagoda connector 151, a to-be-filled wine container is clamped in the bottle lifting mechanism 600, the to-be-filled wine container is fixed to the lower end of the faucet body 100 by rotating the bottle lifting mechanism 600, and the to-be-filled wine container is communicated with the liquid outlet hole 400.

When wine is poured, the second valve rod 320 is rotated through the air inlet control hand wheel 321, the inlet flow channel 150 is communicated with the second cavity 120 through the connecting hole six 331 in the second movable ceramic chip 330, gas (carbon dioxide) in an external gas source can sequentially enter a container to be filled through the inlet flow channel 150, the second cavity 120, the connecting through hole 160, the first cavity 110, the mixing flow channel 140 and the liquid outlet hole 400, and at the moment, the first control valve 200 is in a closed state, and the exhaust flow channel 500 is blocked.

After the gas in the wine container is filled, the second valve rod 320 is rotated reversely by the second air inlet control hand wheel 321, so that the second cavity 120 is separated from the air inlet flow channel 150 by the second movable ceramic sheet 330, namely the second control valve 300 is closed; meanwhile, the first ceramic piece 230 is rotated through the wine inlet control handle 221, so that the third connecting hole 231 on the first ceramic piece 230 communicates the liquid inlet flow channel 130 with the second cavity 120, the exhaust handle 512 drives the exhaust rod 510 to rotate, so that the container to be filled with wine is communicated with the outside through the exhaust flow channel 500, and beer sequentially enters the container to be filled through the liquid inlet flow channel 130, the first cavity 110, the mixing flow channel 140 and the liquid outlet hole 400; because the gas (carbon dioxide) is heavier than the air, the gas in the wine container to be filled is gradually extruded out of the wine container to be filled in the process that the beer enters the wine container to be filled, so that the generation of foam in the process that the beer is filled into the wine container to be filled is avoided, and on the other hand, the beer is only contacted with the gas in the wine container to be filled and is not contacted with the air in the filling process of the beer, so that the problem of deterioration of the beer after being contacted with the air can be effectively avoided.

After beer filling is finished, the movable ceramic piece I230 is rotated reversely by the beer inlet control handle 221, so that the movable ceramic piece I230 separates the liquid inlet flow channel 130 from the cavity I110, the exhaust handle 512 drives the exhaust rod 510 to rotate reversely, and the exhaust rod 510 blocks the exhaust flow channel 500; then, the bottle lifting mechanism 600 is rotated to separate the wine container from the lower end of the faucet body 100, so that the filled wine container can be taken down from the bottle lifting mechanism 600.

The liquid inlet flow channel 130 and the air inlet flow channel 150 are respectively controlled through the first control valve 200 and the second control valve 300, so that the use by a user is facilitated; meanwhile, the first control valve 200 and the second control valve 300 can be made of standard parts, and the first control valve 200 or the second control valve 300 can be screwed into the faucet body 100 as a single part in the assembling process of the filling faucet, so that the assembling of the filling faucet is facilitated.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (10)

1. A filling tap, characterized in that: the novel faucet comprises a faucet body (100), a first control valve (200) and a second control valve (300), wherein a liquid outlet hole (400) is formed in the lower end of the faucet body (100), an exhaust channel (500) communicated with the outside is formed in the liquid outlet hole (400), and a first cavity (110) and a second cavity (120) communicated with each other are formed in the faucet body (100); the faucet body (100) is further provided with a liquid inlet flow channel (130), a mixing flow channel (140) and an air inlet flow channel (150), the liquid inlet flow channel (130) and the mixing flow channel (140) are both communicated with the first cavity (110), the mixing flow channel (140) is communicated with the liquid outlet hole (400), and the air inlet flow channel (150) is communicated with the second cavity (120); the first control valve (200) is arranged in the first cavity (110) and can control the on-off of the liquid inlet flow channel (130) and the first cavity (110), and the second control valve (300) is arranged in the second cavity (120) and can control the on-off of the air inlet flow channel (150) and the second cavity (120).

2. The filling faucet of claim 1, wherein: the first control valve (200) comprises a first shell (210), a first valve rod (220), a first movable ceramic chip (230) and a first static ceramic chip (240), the first shell (210) is detachably connected with the first cavity (110), the side wall of the first shell (210) is provided with a first connecting hole (211) communicated with the first cavity (110), the first valve rod (220) is rotatably arranged in the first shell (210), the first movable ceramic chip (230) is positioned in the first shell (210), the upper end of the first movable ceramic chip (230) is connected with the inner end of the first valve rod (220), the lower end of the first movable ceramic chip (230) is attached to the first static ceramic chip (240), the first static ceramic chip (240) is detachably fixed in the first shell (210), a second connecting hole (241) communicated with the liquid inlet channel (130) is formed in the first static ceramic chip (240), and the first movable ceramic chip (230) is provided with a second connecting hole (241) and a first connecting hole (211) And a third connecting hole (231) communicated with the first connecting hole.

3. The filling faucet of claim 2, wherein: the first shell (210) is fixed in the first cavity (110) in a threaded mode, and the outer end of the first valve rod (220) is detachably fixed with a wine inlet control handle (221).

4. The filling faucet of claim 2, wherein: the lower end of the first shell (210) is provided with a first sealing washer (212), the lower end of the first sealing washer (212) is tightly abutted against the bottom of the first cavity (110), and the first sealing washer (212) is communicated with the liquid inlet flow channel (130) and the second connecting hole (241); the end part of the first valve rod (220) protruding out of the first shell (210) is provided with a first limiting groove (222), a first clamp spring (2221) is arranged in the first limiting groove (222), and the lower end face of the first clamp spring (2221) abuts against the upper end face of the first shell (210).

5. The filling faucet of claim 1, wherein: the second control valve (300) comprises a second housing (310), a second valve rod (320), a second movable ceramic chip (330) and a second static ceramic chip (340), the second housing (310) is detachably connected in the second cavity (120), a fourth connecting hole (311) communicated with the second cavity (120) is formed in the side wall of the second housing (310), the second valve rod (320) is rotatably arranged in the second housing (310), the second movable ceramic chip (330) is positioned in the second housing (310), one end of the second movable ceramic chip (330) is connected with the inner end of the second valve rod (320), the other end of the second movable ceramic chip (330) is attached to the second static ceramic chip (340), the second static ceramic chip (340) is detachably fixed in the second housing (310), and a fifth connecting hole (341) communicated with the air inlet pipeline (150) is formed in the second static ceramic chip (340), and a connecting hole six (331) which can communicate the connecting hole five (341) with the connecting hole four (311) is formed in the movable ceramic piece two (330).

6. The filling faucet of claim 5, wherein: the second housing (310) is in threaded connection with the second cavity (120), and the outer end of the second valve rod (320) is detachably connected with an air inlet control hand wheel (321).

7. The filling faucet of claim 5, wherein: one end, close to the air inlet flow channel (150), of the second shell (310) is provided with a second sealing gasket (312), the second sealing gasket (312) is abutted against the inner wall of the second cavity (120), and the second sealing gasket (312) is communicated with the air inlet flow channel (150) and the connecting hole (341); a second limiting groove (322) is formed in the end portion, protruding out of the second housing (310), of the second valve rod (320), a second snap spring (3221) is arranged in the second limiting groove (322), and the inner end face of the second snap spring (3221) abuts against the outer end face of the second housing (310).

8. The filling faucet of claim 1, wherein: the first cavity (110) is communicated with the second cavity (120) through a connecting through hole (160).

9. The filling faucet of claim 1, wherein: exhaust runner (500) female connection has exhaust pole (510), the cover is equipped with sealing washer (511) on exhaust pole (510), sealing washer (511) can with exhaust runner (500) are sealed.

10. The filling faucet of claim 1, wherein: the lower end of the faucet body (100) is in threaded connection with a bottle lifting mechanism (600), and the bottle lifting mechanism (600) is communicated with the liquid outlet hole (400) and the exhaust flow channel (500).

Images