CN216590101U - Mutually cut integral type and wash a tap - Google Patents

Abstract

The utility model provides a mutually-cutting integrated cup washing faucet, which comprises a faucet body provided with a water inlet interface, wherein the faucet body is also provided with a water distribution cavity and a water distribution cavity, the faucet body is also provided with a switching valve mounting part, and a switching valve core which selects the water inlet interface to be communicated with the water distribution cavity and the water distribution cavity is arranged in the switching valve mounting part; the faucet body is also provided with a water collecting disc, the water collecting disc is provided with a water outlet and a water outlet communicated with the water distribution cavity, and the water collecting disc is also provided with a slide valve sleeve of which the lower end is positioned in the water distribution cavity; a slide column is arranged in the slide valve sleeve, the upper end of the slide column extends out of the slide valve sleeve through a spring support, a flushing channel is arranged in the slide column from the upper end of the slide column to the lower end of the slide column, and the outer wall of the lower end of the slide column is provided with a water through hole connected with the flushing channel; the outer wall of the sliding column in the sliding valve sleeve is provided with a first water-tight ring and a second water-tight ring from top to bottom. The utility model has the advantages of compact structure, convenient installation and use, and the integration of the cup washer and the water tap.

Description

Mutually cut integral type and wash a tap

Technical Field

The utility model relates to a tap and cup washer field, concretely relates to each other cut integral type and wash cup tap.

Background

Present cup washing ware is the push type cup washing ware, and the occasion that has a plurality of cup washing ware often also need be equipped with tap and wash, for example occasions such as coffee shop, milk tea shop, dining room kitchen, this just leads to cup washing ware and tap to all can occupy certain space each other, still needs extra connection inlet tube each other simultaneously, no matter installation and later stage use all very inconvenient.

Most current counter basins only can be provided with one mounting hole for mounting a faucet, so that preferred mounting can be performed only between the faucet or a cup washer, or holes are formed again, if the cup washer and the faucet need to be mounted simultaneously, the counter basins with two mounting holes need to be mounted additionally most of the time, and the additional cost for mounting the cup washer and the faucet simultaneously is increased.

SUMMERY OF THE UTILITY MODEL

Based on the problem, the utility model aims to provide a to wash cup ware and tap unite two into one, compact structure, the integral type of cutting each other of being convenient for installation and use washes cup tap.

Aiming at the problems, the following technical scheme is provided: a mutual cutting integrated cup washing faucet comprises a faucet body provided with a water inlet interface, a water distribution cavity is further formed in the faucet body, a water distribution cavity is formed in the center of the water distribution cavity, a switching valve mounting portion is further arranged in the faucet body, and a switching valve core which enables the water inlet interface to be selected to be communicated with the water distribution cavity and the water distribution cavity is arranged in the switching valve mounting portion; the faucet body is also provided with a water collecting disc, the water collecting disc is provided with a water outlet and a water outlet communicated with the water distribution cavity, and the water collecting disc is also provided with a sliding valve sleeve which is integrated with the water collecting disc or is arranged separately and the lower end of the sliding valve sleeve is positioned in the water distribution cavity; a slide column is arranged in the slide valve sleeve, is supported by a spring, and is positioned above the water collecting plate, so that the upper end of the slide column extends out of the slide valve sleeve, a flushing channel is arranged in the slide column from the upper end of the slide column to the lower end of the slide column, and a water through hole connected with the flushing channel is arranged on the outer wall of the lower end of the slide column; a first watertight ring and a second watertight ring are arranged on the outer wall of the sliding column in the sliding valve sleeve from top to bottom (the second watertight ring can also be arranged at the lower end of the sliding column and is propped against the end face of the sliding valve sleeve for sealing); the water through hole is positioned between the first watertight ring and the second watertight ring and in the sliding valve sleeve before the sliding column is pressed downwards; the second water-tight ring is far away from the lower end of the sliding valve sleeve after the sliding column is pressed down, and meanwhile, the water through hole enters the water distribution cavity and is communicated with the water distribution cavity.

In the structure, the function of the cup washer and the function of the water tap are combined into a whole, when the cup washer is used, the communication between the upstream water inlet interface and the downstream water distribution cavity or the water distribution cavity can be switched through the switching valve core, and when the cup washer is switched to be communicated with the water distribution cavity, water is discharged from the water outlet; when the cup washing device needs to be used, the switching valve core is switched to be communicated with the water distribution cavity, the sliding column is pressed by a cup or a hand at the moment, the sliding column drives the first watertight ring and the second watertight ring to move downwards, the second watertight ring is far away from the lower end of the sliding valve sleeve, the water through hole is communicated with the water distribution cavity, water in the water distribution cavity enters the flushing channel through the water hole and is sprayed out of the top of the sliding column to achieve the purpose of cup washing, and waste water after cup washing is collected by the water collecting disc and then is discharged from the water outlet; the structure utilizes the switching valve core to control the alternative switching of the water faucet and the cup washer, effectively ensures the water outlet flow rate when water is supplied respectively, and also solves the problems of overlarge space occupation, inconvenience in installation and use and the like caused by the split arrangement of the water faucet and the cup washer in the prior art.

The utility model discloses further set up to, the water-collecting tray bottom is fixed with adapter sleeve, adapter sleeve and the cooperation of pegging graft of joining in marriage the water cavity and make the water-collecting tray do circumferential direction for the tap body uses the adapter sleeve axis as the centre of a circle.

In the structure, the connecting sleeve is integrally connected with the water collecting disc, so that the water collecting disc is rotated while the water collecting disc is connected with the faucet body, the orientation of the water outlet and the water outlet is controlled, and the water collecting device is more convenient and faster to use.

The utility model is further arranged that at least one first sealing ring is arranged between the connecting sleeve and the inner wall of the water distribution cavity; one side of the first sealing ring far away from the interior of the cavity of the water distribution cavity is provided with an anti-falling outer groove, and the faucet body is provided with an anti-falling pin matched with the anti-falling outer groove.

In the structure, the first sealing ring is fixed on the connecting sleeve and used for sealing a gap between the outer wall of the connecting sleeve and the inner wall of the water distribution cavity to avoid water leaping; the anti-drop outer groove and the anti-drop pin are matched and used for limiting the axial position of the connecting sleeve, so that the connecting sleeve is prevented from dropping under the pushing of water pressure in the water distribution cavity; the anti-drop pin comprises a pin body matched with the anti-drop outer groove and a locking section screwed with the thread of the tap body, the anti-drop pin is preferably two in parallel arrangement at intervals, and the pin body is tangent with the bottom of the anti-drop outer groove at 180-degree positions in the circumferential direction of the anti-drop outer groove.

The utility model discloses further set up to, the delivery port is located the outlet below.

In the structure, the synchronous regulation of the water outlet and the water outlet is realized when the water collecting tray is rotationally regulated, and the water outlet is provided with the bubbler.

The utility model discloses further set up to, the traveller top is equipped with the clamp plate and the shower nozzle that links to each other with the wash way.

In the structure, the pressing plate is arranged at the top end of the sliding column, so that the pressing plate can be abutted against the cup opening of the cup to press the sliding column, and the spray head can be used for improving the water outlet pressure and improving the washing effect.

The utility model is further arranged in that the lower end of the sliding valve sleeve is provided with a closing section, the inner diameter of the closing section is smaller than that of the sliding valve sleeve, and the second water-tight ring is in adaptive sealing with the inner wall of the closing section or the end face of the lower end of the closing section; the spring is supported between the lower end face of the first watertight ring and the upper end face of the closing-in section.

In the above-mentioned structure, the spring can be cylinder spring or tower type spring, sets up binding off section and is convenient for it and first watertight ring terminal surface adaptation provide axial support for the spring to promote its play water that stops the washing way automatically on promoting the traveller after the state of pushing down the hand at the traveller.

The utility model discloses further set up as, the second watertight ring is kept away from the outer receipts mouth section of stretching out of traveller of first watertight ring one side and is equipped with the anticreep piece in outer extension position.

In the structure, the anti-dropping part is an outer clamp spring and provides axial fixation for the sliding column, so that the sliding column is prevented from being directly dropped upwards under the pushing of the spring and water pressure in a reset state.

The utility model discloses further set up to, first water is sealed to encircle, second water is sealed to encircle all is equipped with one at least outer slot, outer ditch inslot is equipped with the second sealing washer.

In the structure, the number of the outer grooves which are respectively optimized by the first watertight ring and the second watertight ring is two, and the corresponding second sealing rings and the outer grooves are arranged in an equal number, so that the water tightness is effectively ensured.

The utility model discloses further set up to, the tap body still is equipped with the case installation department that is located between interface and the diverter valve installation department of intaking, the case installation department is equipped with the control valve core that is used for controlling the rivers break-make between interface and the diverter valve installation department of intaking.

In the structure, the control valve core can be used for independently controlling the on-off of water flow between the water inlet interface and the switching valve core.

The utility model discloses further set up to, when control valve core was the hot and cold water case, the interface of intaking was two and is cold water inlet and hot water import respectively.

In the structure, the traditional cup washing device is in a single-cooling mode, so that when a cold-hot water valve core is adopted, hot water supply can be realized through temperature adjustment, and the cup washing effect is improved; the cold and hot water valve core can adopt a swinging rotary type (a valve rod swings to control the on-off of mixed water, and a valve rod rotates to control the proportion of cold and hot water), a rotating pressing type (a central valve rod presses to control the on-off of mixed water, and an outer ring valve rod sleeve rotates to control the proportion of cold and hot water) and a concentric rotary type valve core (a central valve rod rotates to control the proportion of cold and hot water, and an outer ring valve rod sleeve rotates to control the on-off of mixed water); because the switching valve core is arranged, the on-off of the downstream water flow of the valve core can be controlled by directly utilizing the switching valve core, and the cold-hot water proportion of each use can not be influenced when the control valve core is a cold-hot water valve core.

The utility model discloses further set up to, the water-collecting tray is including encircleing the flange that the dish edge set up, the water that is used for discharging in the water-collecting tray on the flange is seted up to the outlet, the water-collecting tray upper surface helps improving drainage efficiency toward outlet direction slope.

In the structure, the water outlet extends towards the direction far away from the center of the water collecting tray, and the water collecting tray bottom surface at the position of the water outlet extending tail end is provided with the water dripping flange, so that water drops can be collected conveniently, and the water drops are prevented from flowing along the water collecting tray bottom surface towards the direction of the faucet body or along the outer edge of the water collecting tray bottom surface and dripping to other places.

The utility model is further arranged that when the sliding valve sleeve and the water collecting tray are arranged integrally, the sliding valve sleeve and the water collecting tray can be produced by adopting an injection molding mode; when the sliding valve sleeve and the water collecting disc are arranged in a split mode, the sliding valve sleeve is connected with the water collecting disc in a screwing mode through threads.

In the structure, the slide valve sleeve is preferably split, so that the slide valve sleeve is convenient to produce independently, and the surface quality of the inner wall of the slide valve sleeve is ensured, thereby ensuring the water tightness.

The utility model discloses further set up to, it is a plurality of to cross the water hole.

In the structure, the water passing holes are uniformly distributed along the circumferential direction of the sliding column, so that the flow is favorably improved.

The utility model discloses further set up to, divide the water cavity to constitute through the water distribution cover that is fixed in the water distribution cavity, the slide valve cover lower extreme is inserted and is located in the water distribution cover.

In the structure, the lower end of the sliding valve sleeve is provided with a third sealing ring which is used for being matched and sealed with the water distribution sleeve.

The utility model has the advantages that: the cup washer function and the faucet function are combined into a whole, when the cup washer is used, the communication between an upstream water inlet interface and a downstream water distribution cavity or a water distribution cavity can be switched through a switching valve core, and when the cup washer is switched to be communicated with the water distribution cavity, water is discharged from a water outlet; when the cup washing device needs to be used, the switching valve core is switched to be communicated with the water distribution cavity, the sliding column is pressed by a cup or a hand at the moment, the sliding column drives the first watertight ring and the second watertight ring to move downwards, the second watertight ring is far away from the lower end of the sliding valve sleeve, the water through hole is communicated with the water distribution cavity, water in the water distribution cavity enters the flushing channel through the water hole and is sprayed out of the top of the sliding column to achieve the purpose of cup washing, and waste water after cup washing is collected by the water collecting disc and then is discharged from the water outlet; the structure utilizes the switching valve core to control the alternative switching of the water faucet and the cup washer, effectively ensures the water outlet flow rate when water is supplied respectively, and also solves the problems of overlarge space occupation, inconvenience in installation and use and the like caused by the split arrangement of the water faucet and the cup washer in the prior art.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the water collecting tray and the faucet body in a separated state.

Fig. 3 is the first perspective three-dimensional structure schematic diagram of sectioning before the strut is pressed.

Fig. 4 is the first perspective three-dimensional structure schematic diagram of dissecting after the strut is pressed.

Fig. 5 is the second sectioning angle of view spatial structure schematic diagram before the strut is pressed.

Fig. 6 is the second sectioning angle of view spatial structure schematic diagram after the strut is pressed.

Fig. 7 is a schematic view of the explosion full-section three-dimensional structure of the present invention.

The reference numbers in the figures mean: 10-a tap body; 11-water inlet interface; 12-water distribution cavity; 13-a water diversion cavity; 131-water distribution sleeve; 14-a switching valve mounting portion; 141-switching valve core; 15-anti-drop pin; 151-pin body; 152-a locking section; 16-a spool mounting portion; 161-control valve core; 20-a water collecting tray; 201-connecting sleeve; 202-a first seal ring; 203-anti-drop outer groove; 204-a rib; 205-drip lip; 21-a water outlet; 22-a water outlet; 221-a bubbler; 23-a slide valve sleeve; 231-a mouth-closing section; 232-third sealing ring; 24-a spring; 30-a traveler; 301-a release prevention element; 31-a flushing channel; 32-water through holes; 33-a first water-tight ring; 34-a second water-tight ring; 35-a second sealing ring; 40-pressing plate; 50-spray head.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1 to 7, the mutually-cutting integrated cup-washing faucet shown in fig. 1 to 7 includes a faucet body 10 provided with a water inlet port 11, the faucet body 10 is further provided with a water distribution chamber 12, a water distribution chamber 13 is disposed in the center of the water distribution chamber 12, the faucet body 10 is further provided with a switching valve mounting portion 14, and a switching valve core 141 which selects one of the water inlet port 11 to communicate with the water distribution chamber 12 and the water distribution chamber 13 is disposed in the switching valve mounting portion 14; the faucet body 10 is further provided with a water collecting tray 20, the water collecting tray 20 is provided with a water outlet 21 and a water outlet 22 communicated with the water distribution cavity 12, and the water collecting tray 20 is further provided with a sliding valve sleeve 23 which is integrated with or separated from the water collecting tray 20 and the lower end of which is positioned in the water distribution cavity 13; a slide column 30 which is supported by a spring 24 and enables the upper end of the slide column to extend out of the slide valve sleeve 23 and is positioned above the water collecting plate 20 is arranged in the slide valve sleeve 23, a flushing channel 31 which is arranged from the upper end of the slide column 30 to the lower end of the slide column 30 is arranged in the slide column 30, and a water through hole 32 connected with the flushing channel 31 is arranged on the outer wall of the lower end of the slide column 30; a first water-tight ring 33 and a second water-tight ring 34 are arranged on the outer wall of the sliding column 30 in the sliding valve sleeve 23 from top to bottom (the second water-tight ring 34 can also be arranged at the lower end of the sliding column 30 and is sealed against the end face of the sliding valve sleeve 23); the water through hole 32 before the sliding column 30 is pressed down is positioned between the first water-tight ring 33 and the second water-tight ring 34 and is positioned in the sliding valve sleeve 23; the second water-tight ring 34 is far away from the lower end of the slide valve sleeve 23 after the slide column 30 is pressed down, and simultaneously the water through hole 32 enters the water dividing cavity 13 to be communicated with the water dividing cavity 13.

In the structure, the function of the cup washer and the function of the water tap are combined into a whole, when the cup washer is used, the communication between the upstream water inlet interface 11 and the downstream water distribution cavity 12 or the water distribution cavity 13 can be switched through the switching valve core 141, and when the cup washer is switched to be communicated with the water distribution cavity 12, water is discharged from the water outlet 22; when the cup washing device needs to be used, the switching valve core 141 is switched to be communicated with the water diversion cavity 13, the sliding column 30 is pressed by a cup or a hand at the moment, the sliding column 30 drives the first water-tight ring 33 and the second water-tight ring 34 to move downwards, the second water-tight ring 34 is far away from the lower end of the sliding valve sleeve 23, the water through hole 32 is communicated with the water diversion cavity 13, at the moment, water in the water diversion cavity 13 enters the flushing channel 31 through the water hole 32 and is sprayed out from the top of the sliding column 30 to realize the cup washing purpose, and waste water after cup washing is collected by the water collecting disc 20 and then is discharged from the water outlet 21; the structure utilizes the switching valve core 141 to control the alternative switching of the water faucet and the cup washer, effectively ensures the water outlet flow rate when water is supplied respectively, and also solves the problems of overlarge space occupation, inconvenient installation and use and the like caused by the split arrangement of the water faucet and the cup washer in the prior art.

In this embodiment, a connection sleeve 201 is fixed at the bottom of the water collection tray 20, and the connection sleeve 201 is inserted into the water distribution cavity 12 and makes the water collection tray 20 rotate circumferentially relative to the faucet body 10 around the axis of the connection sleeve 201.

In the above structure, the connection sleeve 201 is integrally connected with the water collection tray 20, so that the rotation of the water collection tray 20 is realized while the connection between the water collection tray 20 and the faucet body 10 is ensured, thereby controlling the orientation of the water outlet 21 and the water outlet 22, and facilitating the use of the faucet.

In this embodiment, at least one first sealing ring 202 is disposed between the connecting sleeve 201 and the inner wall of the water distribution cavity 12; an anti-dropping outer groove 203 is formed in one side, far away from the inner part of the cavity of the water distribution cavity 12, of the first sealing ring 202, and the faucet body 10 is provided with an anti-dropping pin 15 matched with the anti-dropping outer groove 203.

In the above structure, the first sealing ring 202 is fixed on the connecting sleeve 201 and is used for sealing a gap between the outer wall of the connecting sleeve 201 and the inner wall of the water distribution cavity 12 to avoid water leakage; the anti-falling outer groove 203 and the anti-falling pin 15 are matched and used for limiting the axial position of the connecting sleeve 201, so that the connecting sleeve 201 is prevented from falling off under the pushing of water pressure in the water distribution cavity 12; the anti-dropping pin 15 comprises a pin body 151 matched with the anti-dropping outer groove 203 and a locking section 152 screwed with the tap body 10, preferably two anti-dropping pins 15 are arranged in parallel at intervals, and the pin body 151 is tangent with the bottom of the anti-dropping outer groove 203 at 180 degrees of the circumferential direction of the anti-dropping outer groove 203.

In this embodiment, the water outlet 22 is located below the water outlet 21.

In the above structure, the synchronous adjustment of the water outlet 22 and the water outlet 21 is realized when the water collecting tray 20 is adjusted by rotation, and the water outlet 22 is provided with the bubbler 221.

In this embodiment, the top of the sliding column 30 is provided with a pressing plate 40 and a spray head 50 connected with the flushing channel 31.

In the above structure, the pressing plate 40 is disposed at the top end of the sliding column 30, so that the pressing plate 40 can abut against the rim of the cup to press the sliding column 30, and the nozzle 50 can be used to increase the water outlet pressure and improve the washing effect.

In this embodiment, a closing section 231 is arranged at the lower end of the slide valve sleeve 23, the inner diameter of the closing section 231 is smaller than that of the slide valve sleeve 23, and the second water-tight ring 34 is in fit sealing with the inner wall of the closing section 231 or the end surface of the lower end of the closing section 231; the spring 24 is supported between the lower end face of the first watertight ring 33 and the upper end face of the closing section 231.

In the above structure, the spring 24 may be a cylindrical spring or a tower spring, and the closing section 231 is disposed so that it and the end face of the first watertight ring 33 are adapted to provide axial support for the spring 24, so as to push the spool 30 to move upward to automatically stop the water outlet of the flushing channel 30 after the spool 30 is released from the pressing state.

In this embodiment, the sliding column 30 of the second watertight ring 34 on the side away from the first watertight ring 33 extends out of the receiving section 231 and is provided with the anti-falling part 301 at the extending part.

In the above structure, the anti-slip member 301 is an external clamp spring, and provides axial fixation for the sliding column 30, so as to prevent the sliding column 30 from directly dropping out under the pushing of the spring 24 and the water pressure in the reset state.

In this embodiment, the first water-tight ring 33 and the second water-tight ring 34 are both provided with at least one outer groove, and the second sealing ring 35 is arranged in the outer groove.

In the above structure, the number of the outer grooves of the first watertight ring 33 and the second watertight ring 34 is preferably two, and the corresponding second sealing rings 35 are arranged in equal number with the outer grooves, so that the water tightness is effectively ensured.

In this embodiment, the faucet body 10 is further provided with a valve core mounting portion 16 located between the water inlet port 11 and the switching valve mounting portion 14, and the valve core mounting portion 16 is provided with a control valve core 161 for controlling on-off of water flow between the water inlet port 11 and the switching valve mounting portion 14.

In the above structure, the control valve core 161 can be used to control the on-off of the water flow between the water inlet port 11 and the switching valve core 141.

In this embodiment, when the control valve core 161 is a cold/hot water valve core, the number of the water inlet ports 11 is two, and the two ports are respectively a cold water inlet and a hot water inlet.

In the structure, the traditional cup washing device is in a single-cooling mode, so that when a cold-hot water valve core is adopted, hot water supply can be realized through temperature adjustment, and the cup washing effect is improved; the cold and hot water valve core can adopt a swinging rotary type (a valve rod swings to control the on-off of mixed water, and a valve rod rotates to control the proportion of cold and hot water), a rotating pressing type (a central valve rod presses to control the on-off of mixed water, and an outer ring valve rod sleeve rotates to control the proportion of cold and hot water) and a concentric rotary type valve core (a central valve rod rotates to control the proportion of cold and hot water, and an outer ring valve rod sleeve rotates to control the on-off of mixed water); because the switching valve core 141 is arranged, the switching valve core 141 can be directly used for controlling the on-off of the water flow at the downstream of the control valve core 161, and the cold-hot water proportion of each use can not be influenced when the control valve core 161 is a cold-hot water valve core.

In this embodiment, the water collecting tray 20 includes a rib 204 disposed around the tray edge, the water outlet 21 is opened on the rib 204 for discharging the water in the water collecting tray 20, and the upper surface of the water collecting tray 20 is inclined toward the water outlet 21 to improve the water discharging efficiency.

In the above structure, the water outlet 21 extends toward the direction away from the center of the water collecting tray 20, and the bottom surface of the water collecting tray 20 at the extending end of the water outlet 21 is provided with the dripping rib 205, so as to collect water drops, and prevent the water drops from flowing along the bottom surface of the water collecting tray 20 toward the faucet body 10 or along the outer edge of the bottom surface of the water collecting tray 20 and dripping to other places.

In this embodiment, when the slide valve sleeve 23 and the water collecting tray 20 are integrally arranged, the two can be produced by injection molding; when the slide valve sleeve 23 is separated from the water collecting tray 20, the slide valve sleeve 23 is screwed with the water collecting tray 20 through threads.

In the structure, the slide valve sleeve 23 is preferably split, so that the slide valve sleeve is convenient to produce independently, and the surface quality of the inner wall of the slide valve sleeve 23 is ensured, thereby ensuring the water tightness.

In this embodiment, there are a plurality of the water through holes 32.

In the above structure, the water through holes 32 are uniformly distributed along the circumferential direction of the sliding column 30, which is beneficial to improving the flow rate.

In this embodiment, the water distribution chamber 13 is formed by a water distribution sleeve 131 fixed in the water distribution chamber 12, and the lower end of the slide valve sleeve 23 is inserted into the water distribution sleeve 131.

In the above structure, the lower end of the slide valve sleeve 23 is provided with a third sealing ring 232 adapted and sealed with the water diversion sleeve 131.

The utility model has the advantages that: the cup washer function and the water tap function are combined into a whole, when the cup washer is used, the communication between the upstream water inlet interface 11 and the downstream water distribution cavity 12 or the water distribution cavity 13 can be switched through the switching valve core 141, and when the cup washer is switched to be communicated with the water distribution cavity 12, water is discharged from the water outlet 22; when the cup washing device needs to be used, the switching valve core 141 is switched to be communicated with the water diversion cavity 13, the sliding column 30 is pressed by a cup or a hand at the moment, the sliding column 30 drives the first water-tight ring 33 and the second water-tight ring 34 to move downwards, the second water-tight ring 34 is far away from the lower end of the sliding valve sleeve 23, the water through hole 32 is communicated with the water diversion cavity 13, at the moment, water in the water diversion cavity 13 enters the flushing channel 31 through the water hole 32 and is sprayed out from the top of the sliding column 30 to realize the cup washing purpose, and waste water after cup washing is collected by the water collecting disc 20 and then is discharged from the water outlet 21; the structure utilizes the switching valve core 141 to control the alternative switching of the water faucet and the cup washer, effectively ensures the water outlet flow rate when water is supplied respectively, and also solves the problems of overlarge space occupation, inconvenient installation and use and the like caused by the split arrangement of the water faucet and the cup washer in the prior art.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations of the above assumption should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a mutually cut integral type and wash a cup tap, is including the tap body that is equipped with into water interface, its characterized in that: the faucet body is also provided with a water distribution cavity, a water distribution cavity is arranged in the center of the water distribution cavity, the faucet body is also provided with a switching valve mounting part, and a switching valve core which selects a water inlet interface to be communicated with the water distribution cavity and the water distribution cavity is arranged in the switching valve mounting part; the faucet body is also provided with a water collecting disc, the water collecting disc is provided with a water outlet and a water outlet communicated with the water distribution cavity, and the water collecting disc is also provided with a sliding valve sleeve which is integrated with the water collecting disc or is arranged separately and the lower end of the sliding valve sleeve is positioned in the water distribution cavity; a slide column is arranged in the slide valve sleeve, is supported by a spring, and is positioned above the water collecting plate, so that the upper end of the slide column extends out of the slide valve sleeve, a flushing channel is arranged in the slide column from the upper end of the slide column to the lower end of the slide column, and a water through hole connected with the flushing channel is arranged on the outer wall of the lower end of the slide column; the sliding column is provided with a first water-tight ring and a second water-tight ring from top to bottom; the water through hole is positioned between the first watertight ring and the second watertight ring and in the sliding valve sleeve before the sliding column is pressed downwards; the second water-tight ring is far away from the lower end of the sliding valve sleeve after the sliding column is pressed down, and meanwhile, the water through hole enters the water distribution cavity and is communicated with the water distribution cavity.

2. The integrated, mutually cutting, cup washing faucet of claim 1, wherein: and a connecting sleeve is fixed at the bottom of the water collecting tray, and the connecting sleeve is in splicing fit with the water distribution cavity and enables the water collecting tray to rotate circumferentially relative to the faucet body by taking the axis of the connecting sleeve as a circle center.

3. The integrated, mutually cutting, cup washing faucet of claim 2, wherein: at least one first sealing ring is arranged between the connecting sleeve and the inner wall of the water distribution cavity; one side of the first sealing ring far away from the interior of the cavity of the water distribution cavity is provided with an anti-falling outer groove, and the faucet body is provided with an anti-falling pin matched with the anti-falling outer groove.

4. The integrated, mutually cutting, cup washing faucet of claim 1, wherein: the water outlet is positioned below the water outlet.

5. The integrated, mutually cutting, cup washing faucet of claim 1, wherein: and the top end of the sliding column is provided with a pressing plate and a spray head connected with the flushing channel.

6. The integrated, mutually cutting, cup washing faucet of claim 1, wherein: the lower end of the sliding valve sleeve is provided with a closing section, the inner diameter of the closing section is smaller than that of the sliding valve sleeve, and the second water-tight ring is in fit sealing with the inner wall of the closing section or the end face of the lower end of the closing section; the spring is supported between the lower end face of the first watertight ring and the upper end face of the closing-in section.

7. The integrated, mutually cutting, cup washing faucet of claim 6, wherein: the sliding column of the second watertight ring, which is far away from one side of the first watertight ring, extends out of the extension section and is provided with an anti-falling part at the extension section.

8. The integrated, mutually cutting, cup washing faucet of claim 1, wherein: the first water-tight ring and the second water-tight ring are both provided with at least one outer groove, and a second sealing ring is arranged in each outer groove.

9. An integral, mutually cutting cup faucet as claimed in any one of claims 1 to 8, wherein: the tap body still is equipped with the case installation department that is located between interface and the diverter valve installation department of intaking, the case installation department is equipped with the control case that is used for controlling the rivers break-make between interface and the diverter valve installation department of intaking.

10. The integrated, mutually cutting, cup washing faucet of claim 9, wherein: when the control valve core is a cold and hot water valve core, the two water inlet ports are respectively a cold water inlet and a hot water inlet.

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