CN110886348A - Integrated control switch for controlling water outlet and water drainage of water tank - Google Patents

Abstract

The invention discloses an integrated control switch for controlling water outlet and water drainage of a water tank, which comprises a switch control part arranged on the water tank, wherein the switch control part is arranged on the water tank and controls the closing and opening of a hot water inlet pipe or/and a cold water inlet pipe for supplying water to a faucet; the switch control part is provided with a tap valve body switch for controlling the closing or opening of the hot water inlet pipe or/and the cold water inlet pipe, and the switch control part is also provided with a drainage control switch for respectively controlling each drainage hydrophone to open or close the drainage outlet; a linkage control component for driving each drainage hydrophone to open or close a water outlet is also arranged between the drainage control switch and each drainage hydrophone on the water tank; the basin mesa is controlled the space sparingly in the realization, controls convenience, reliability height.

Description

Integrated control switch for controlling water outlet and water drainage of water tank

[ technical field ] A method for producing a semiconductor device

The invention relates to a valve core control technology, in particular to an integrated control switch for controlling water outlet and drainage of a water tank.

[ background of the invention ]

Modern people have higher and higher requirements on details of life, especially on toilets and kitchens, and the upgrading of bathroom products is endlessly realized. The drainer is a drainage device positioned at a drainage outlet of a wash basin, a bathtub or a vegetable washing sink, the prior drainer has various and various structures, is provided with an original plug, a bouncing type, a flap type and a lifting rod (wire) type, but has no way to solve some problems in actual use and nursing, such as: when sewage is stored in the basin, the water can be drained by pressing the water outlet hole with hands, such as bouncing and turning, and the basin is not sanitary; and the bouncing type and the lifting rod (wire) type are inflexible to control and easy to block due to structural reasons, and the water outlet is easy to be wound with hair or garbage of thin wire type to block the whole flow passage, so that the service life of the drainer is short and dirt is not easy to clean.

It is well known that a wash basin, a bathtub or a vegetable washing sink is mainly composed of a sink body and a drainer, wherein the drainer is embedded at a drain outlet at the bottom of the sink, on one hand, the drainer is used for sealing the sink body and facilitating water storage in the sink body, and on the other hand, the drainer is used for communicating a channel between the sink body and a sewer pipe. When the water in the water tank body is polluted (the water left by cleaning fruits and vegetables or tableware) in the use process of the water tank body which is provided with the original plug, has the bouncing type and has the turning plate type, the water drainer needs to be manually opened to drain the water in the water tank body into a sewer pipeline, but the operation of the water drainer needs a user to stretch hands into water to be pulled out or inserted, so that the water drainer is very unhygienic, and is very inconvenient to operate particularly in winter or under the condition that the water in the water tank is dirty. Modern people have continuously expanded requirements on health, environmental protection, safety and intelligence of kitchens or bathrooms, and the requirements on upgrading and updating of kitchens or bathrooms are particularly urgent, so that a control switch which has good performance, is clean and convenient to control the opening and closing of a water outlet device of a water tank is selected, and the control switch is very important for building a comfortable and warm kitchen or bathroom.

[ summary of the invention ]

The integrated control switch for controlling the water outlet and the water drainage of the water tank realizes the automatic integrated control of the water supply of the water faucet and the water drainage of the cavity of the water tank body through the integrated switch control part, is convenient to operate and control, has high reliability, and saves the operation space of the table board of the water tank.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an integrated control switch for controlling water outlet and water discharge of a water tank comprises a switch control part arranged on the water tank, wherein the switch control part is arranged on the water tank and controls the closing and opening of a hot water inlet pipe or/and a cold water inlet pipe for supplying water to a faucet;

the switch control part is provided with a tap valve body switch for controlling the closing or opening of the hot water inlet pipe or/and the cold water inlet pipe, and the switch control part is also provided with a drainage control switch for respectively controlling each drainage hydrophone to open or close the drainage outlet;

and a linkage control component for driving each drainage hydrophone to open or close a water outlet is also arranged between the drainage control switch and each drainage hydrophone on the water tank.

Furthermore, a faucet valve body switch on the switch control part and the water discharge control switch are integrally installed and connected.

Furthermore, the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover which is respectively communicated with the hot water inlet pipe or/and the cold water inlet pipe;

the launching control switch comprises a launching switch knob, a guide sliding sleeve and at least one lifting traction rod, wherein the valve core body is respectively provided with a guide hole which is in sliding fit with each lifting traction rod along the axial direction, the top end of each lifting traction rod is connected with a thrust rod which extends out of the guide hole along the radial direction of the valve core body, the corresponding valve core body is radially provided with a sliding chute which is communicated with the guide hole and is convenient for the thrust rod on each lifting traction rod to slide along the sliding chute, the guide sliding sleeve is arranged at the inner side of the launching switch knob and sleeved on the valve core body together, and the circumferential outer wall of the guide sliding sleeve is axially provided with an inclined cambered surface groove which is in sliding contact with the thrust rods on all the lifting traction rods and pulls the lifting traction rods to move up and down when the launching switch knob;

the lower end of each lifting traction rod is respectively connected with the linkage control component corresponding to each drainage drainer, and the drainage outlet at the bottom of each drainage drainer is opened through linkage.

Furthermore, the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover respectively communicated with the hot water inlet pipe and the cold water inlet pipe;

the launching control switch comprises a launching switch knob, a guide sliding sleeve and two lifting traction rods, wherein the launching switch knob adopts a single control handle, the valve core body is respectively provided with two guide holes in sliding fit with the lifting traction rods along the axial direction, the top end of each lifting traction rod is connected with a thrust rod extending out of the corresponding guide hole along the radial direction of the valve core body, the corresponding valve core body is radially provided with a sliding groove communicated with the guide holes and facilitating the sliding of the thrust rod on the lifting traction rod along the sliding groove, the guide sliding sleeve is installed on the inner side of the launching switch knob and sleeved on the valve core body together, the circumferential outer wall of the guide sliding sleeve is provided with inclined cambered grooves symmetrically opened along the axial direction, the inclined cambered grooves are respectively in sliding contact with the thrust rods on the two lifting traction rods, the launching switch knob drives the guide sliding sleeve to synchronously rotate, and when the guide sliding sleeve rotates clockwise, the inclined plane on the right, The lifting traction rod on the right side of the valve core body is pushed to rise, and when the guide sliding sleeve rotates anticlockwise, the inclined surface on the left side of the inclined cambered groove pushes the lifting traction rod on the left side of the valve core body to rise;

the lower ends of the two lifting traction rods are respectively connected with a linkage control assembly corresponding to each drainage drainer in the two cavities on the water tank body, the drainage outlets of the two drainage drainers on the water tank are controlled to be closed simultaneously when the drainage switch knob and the guide sliding sleeve are positioned at the middle position between the two lifting traction rods, and the drainage outlets of the corresponding drainage drainers are controlled to be opened in a linkage manner through the corresponding linkage control assemblies by pulling one of the two lifting traction rods when the drainage switch knob and the guide sliding sleeve rotate clockwise or anticlockwise.

Furthermore, the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover respectively communicated with the hot water inlet pipe and the cold water inlet pipe;

the launching control switch comprises an upper handle launching switch knob, a lower handle launching switch knob, an upper side guide sliding sleeve, a lower side guide sliding sleeve, an upper handle lifting traction rod and a lower handle lifting traction rod, and the valve core body is respectively provided with guide holes which are in sliding fit with the upper handle lifting traction rod and the lower handle lifting traction rod along the axial direction;

the top end of the upper handle lifting traction rod is respectively connected with an upper handle thrust rod extending from the guide hole along the radial direction of the valve core body, the top end of the lower handle lifting traction rod is respectively connected with a lower handle thrust rod extending from the guide hole along the radial direction of the valve core body, and the corresponding valve core body is respectively provided with a chute which is communicated with the respective guide hole and is convenient for the upper handle thrust rod or the lower handle thrust rod to slide along the inner part of the chute;

the upper side guide sliding sleeve is arranged on the inner side of the upper handle launching switch knob and is sleeved on the upper side of the valve core body, and the lower side guide sliding sleeve is arranged on the inner side of the lower handle launching switch knob and is sleeved on the lower handle on the upper side of the valve core body on the lower side of the upper side guide sliding sleeve;

the circumferential outer walls of the upper guide sliding sleeve and the lower guide sliding sleeve are respectively provided with a unidirectional inclined cambered surface groove which is arranged in a unidirectional inclined manner along the axial direction, and the unidirectional inclined cambered surface grooves are respectively in sliding contact with an upper handle thrust rod on the upper handle lifting traction rod and a lower handle thrust rod on the lower handle lifting traction rod;

the upper handle launching switch knob drives the upper side guide sliding sleeve to synchronously rotate, the lower handle launching switch knob drives the lower side guide sliding sleeve to synchronously rotate, the inclined plane of the one-way inclined cambered groove respectively pushes the upper handle lifting traction rod and the lower handle lifting traction rod to respectively lift when the upper side guide sliding sleeve and the lower side guide sliding sleeve respectively rotate clockwise, and the inclined plane of the one-way inclined cambered groove respectively releases thrust when the upper side guide sliding sleeve and the lower side guide sliding sleeve respectively rotate anticlockwise so that the upper handle lifting traction rod and the lower handle lifting traction rod respectively descend and reset after the thrust is released;

the lower ends of the upper handle lifting traction rod and the lower handle lifting traction rod are respectively connected with the linkage control components corresponding to the two drainage hydrophones on the water tank, the upper handle launching switch knob, the upper side guide sliding sleeve and the upper handle lifting traction rod independently control the closing and opening of the drainage outlet of one cavity corresponding to the drainage hydrophone on the water tank through the linkage control components, the lower handle launching switch knob, the lower side guide sliding sleeve and the lower handle lifting traction rod independently control the closing and opening of the drainage outlet of the other cavity corresponding to the drainage hydrophone on the water tank through the linkage control components, and the upper handle launching switch knob and the lower handle launching switch knob independently control the drainage outlets of the cavities corresponding to the drainage hydrophones on the water tank independently and independently without correlation.

Furthermore, the linkage control assembly is a wire-controlled pulling steel wire rope and an L-shaped touch control piece which drive each drainage device to open or close the drainage port.

The invention has the beneficial effects that:

the integrated switch control part is respectively provided with a faucet valve body switch for controlling the water supply of the faucet and a drainage control switch for controlling the drainage of each drainage drainer, so that the automatic comprehensive control of the water supply and the drainage is realized.

The drainage control switch and the linkage control assembly form a linkage system to control the sealing cover of each drainage hydrophone to open or close the drainage port, so that the drainage control switch is convenient to operate, automatic drainage of each cavity of the water tank body corresponding to each drainage hydrophone is facilitated, especially in winter or under the condition that the water body in the water tank is dirty, hands are prevented from being frozen or dirtied by the water body, the use comfort of a user is improved, and cleanness in the use process are guaranteed.

[ description of the drawings ]

Fig. 1 is an enlarged schematic perspective view of a first embodiment of the present invention;

FIG. 2 is an enlarged schematic view of an explosive structure according to a first embodiment of the present invention;

FIG. 3 is a schematic perspective view of a drainer according to an embodiment of the present invention;

FIG. 4 is a schematic front view of a drainer according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of an explosive structure according to a second embodiment of the present invention;

FIG. 6 is a schematic perspective view of a drainer according to a second embodiment of the present invention;

fig. 7 is an enlarged schematic perspective view of a water tank body according to a second embodiment of the present invention.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

An integrated control switch for controlling water outlet and water discharge of a sink, as shown in fig. 1 to 4, includes a switch control part 1 installed on the sink, the switch control part 1 being installed on the sink and controlling the closing and opening of water supply to a faucet 4 by a hot water inlet pipe 2 and a cold water inlet pipe 3; a faucet valve body switch 5 for controlling the closing or opening of the hot water inlet pipe 2 and the cold water inlet pipe 3 is arranged on the switch control part 1, and a drainage control switch 6 for respectively controlling each drainage water device to open or close a drainage outlet is also arranged on the switch control part 1; a linkage control component 8 for driving each drainage hydrophone 7 to open or close the drainage port 70 is further arranged between the drainage control switch 6 and each drainage hydrophone 7 at the drainage port of the water tank, wherein a faucet valve body switch 5 on the switch control part 1 is integrally connected with the drainage control switch 6.

Of course, different from this embodiment, the sink is provided with a cavity for storing water, the bottom of the cavity on the sink body is provided with a drain outlet for draining water, and the switch control part is installed on the sink and controls the on/off of the hot water inlet pipe or the cold water inlet pipe, or the water supply from a single water source to the faucet.

As shown in fig. 1 to 4, a wire-controlled pulling wire rope 80 and a touch control member 81 for driving the sealing cover in each drainage hydrophone 7 to open or close the water outlet 70 are further respectively arranged between the switch control part 1 and each drainage hydrophone 7, the touch control member 81 is respectively arranged at the bottom of each drainage hydrophone 7 and drives the sealing cover (not shown) to open or close the water outlet 70, one end of each wire-controlled pulling wire rope 80 is connected to the drainage control switch 6, the other end of each wire-controlled pulling wire rope 80 is respectively connected to the touch control member 81 in each drainage hydrophone 7, and the drainage control switch 6 respectively pulls the touch control member 81 linked under each wire-controlled pulling wire rope 80 to touch the sealing cover. The touch control part 81 is an L-shaped deflection part, a center positioning shaft is arranged at the center of the bottom end of the sealing cover in a downward extending mode, the sealing cover is inserted into the upper side of the water outlet 70 of the cylindrical drainage hydrophone 7 through the center positioning shaft, the touch control part 81 is connected to the bottom of the drainage hydrophone 7 through a fulcrum rotating shaft, the wire-controlled traction steel wire rope 80 drives the touch control part 81 to be linked, and the water outlet 70 of each drainage hydrophone 7 is opened by touching the center positioning shaft at the bottom end of the sealing cover through the touch control part 81.

Of course, the linkage control component 8 may also be an electric drive component for controlling the opening or closing of the water outlet of each drainage hydrophone, when the linkage control component is an electric drive component, the water control switch triggers the signal receiving part arranged on the electric drive component through a travel switch or a pull steel rope, and then the valve cover of each drainage hydrophone is driven to open or close through a switch electromagnetic valve or an action motor arranged on the electric drive component, so as to accomplish the opening and closing control of each drainage hydrophone.

As shown in fig. 1 and fig. 2, the faucet valve body switch 5 includes a cylindrical valve core 50 and a faucet switch knob 51 installed at the top end of the valve core 50, and the bottom end of the valve core 50 is provided with a pipeline connecting end cover 52 communicated with the hot water inlet pipe 2 and the cold water inlet pipe 3 respectively and a positioning ring 53 for installing and fixing the drainage control switch 6; of course, a cavity for storing water is arranged on the corresponding water tank, and a pipeline connecting end cover which is respectively communicated with a hot water inlet pipe or a cold water inlet pipe or a single water source is arranged at the bottom end of the valve core body.

Continuing as shown in fig. 1 and 2, the launching control switch 6 includes a launching switch knob 60, a guide sliding sleeve 61 and two lifting traction rods 62, the launching switch knob 60 adopts a single control handle, the valve core body 50 is respectively provided with two guide holes 500 which are in sliding fit with the lifting traction rods 62 along the axial direction, the top ends of the two lifting traction rods 62 are respectively connected with thrust rods 63 which extend from the guide holes 500 along the radial direction of the valve core body 50, the corresponding valve core body 50 is radially provided with sliding grooves 501 which are communicated with the guide holes 500 and are convenient for the thrust rods 63 on the lifting traction rods 62 to slide along the inner sides thereof, the guide sliding sleeve 61 is mounted inside the launching switch knob 60 and is sleeved on the valve core body 50, the circumferential outer wall of the guide sliding sleeve 61 is provided with inclined cambered surface grooves 610 which are symmetrically opened along the axial direction, the inclined cambered surface grooves 610 are respectively in sliding contact with the thrust rods on the two lifting traction rods 62, the lower water switch knob 60 drives the guide sliding sleeve 61 to rotate synchronously, when the guide sliding sleeve 61 rotates clockwise, the inclined surface a at the right side of the inclined arc surface groove 610 pushes the lifting traction rod 62 at the right side of the valve core body 50 to rise, and when the guide sliding sleeve 61 rotates anticlockwise, the inclined surface b at the left side of the inclined arc surface groove 610 pushes the lifting traction rod 62 at the left side of the valve core body 50 to rise.

Furthermore, as shown in fig. 3 and 4, the lower ends of the two lifting pull rods 62 are respectively connected with the wire-controlled pull wire rope 80 corresponding to each drainage hydrophone 7 in the two cavities on the water tank, when the drainage switch knob 60 and the guide sliding sleeve 61 are located at the middle position between the two lifting pull rods 62, the drainage ports 70 of the drainage hydrophones 7 corresponding to the two cavities on the water tank are controlled to be closed simultaneously, when the drainage switch knob 60 and the guide sliding sleeve 61 rotate clockwise, the lifting pull rod 62 on the right side of the valve core body 50 is pulled to rise through the inclined surface on the right side of the guide sliding sleeve 6l, the wire-controlled pull wire rope 80 on the right side drives the contact control part 81 to jack up the sealing cover of the drainage hydrophone 7 in the cavity on one side on the water tank, and the drainage port. When the launching switch knob 60 and the guide sliding sleeve 61 rotate anticlockwise, the inclined surface on the left side of the guide sliding sleeve 61 pulls the lifting traction rod 62 on the left side of the valve core body 50 to rise, and the wire control traction steel wire rope 80 on the left side drives the contact control 81 to jack up the sealing cover of the launching device 7 in the cavity on the other side of the water tank, so that the opening of the water outlet on the cavity on the other side of the water tank is controlled.

Example two

As shown in fig. 5 to 7, the difference between this embodiment and the first embodiment is that the lower water control switch 6 includes an upper handle lower water switch knob 60 ', a lower handle lower water switch knob 61', an upper guide sliding sleeve 62 ', a lower guide sliding sleeve 63', an upper handle lifting pull rod 64 'and a lower handle lifting pull rod 65', and the valve core body 50 is axially provided with guide holes 500 slidably engaged with the upper handle lifting pull rod 64 'and the lower handle lifting pull rod 65', respectively; the top end of the upper handle lifting and pulling rod 64 'is respectively connected with an upper handle thrust rod 640' extending from the guide hole along the radial direction of the valve core body 50, the top end of the lower handle lifting and pulling rod 65 'is respectively connected with a lower handle thrust rod 650' extending from the guide hole 500 along the radial direction of the valve core body 50, and the corresponding valve core body 50 is respectively provided with a sliding groove 501 which is communicated with the respective guide hole and is convenient for the upper handle thrust rod 640 'or the lower handle thrust rod 650' to slide along the inner part thereof along the radial direction.

As shown in fig. 5 to 7, the upper guide sliding sleeve 62 ' is mounted inside the upper handle lower water switch knob 60 ' and is sleeved on the upper side of the valve core body 50, and the lower guide sliding sleeve 63 ' is mounted inside the lower handle lower water switch knob 61 ' and is sleeved on the upper side lower handle of the valve core body 50 on the lower side of the upper guide sliding sleeve 62 '; the bottom ends of the upper guide sliding sleeve 62 'and the lower guide sliding sleeve 63' are respectively provided with an upper positioning ring 66 'and a lower positioning ring 67' which are sleeved on the valve core body 50 and used for respectively installing and fixing the upper handle lower water switch knob 60 'and the lower handle lower water switch knob 61'; the circumferential outer walls of the upper guide sliding sleeve 62 'and the lower guide sliding sleeve 63' are respectively provided with a unidirectional inclined cambered surface groove c which is arranged in a unidirectional inclined manner along the axial direction, and the unidirectional inclined cambered surface grooves c are respectively in sliding contact with an upper handle thrust rod 640 'on the upper handle lifting traction rod 64' and a lower handle thrust rod 650 'of the lower handle lifting traction rod 65'.

When the multifunctional lifting pulling device is used, the upper handle launching switch knob 60 'drives the upper side guide sliding sleeve 62' to synchronously rotate, the lower handle launching switch knob 61 'drives the lower side guide sliding sleeve 63' to synchronously rotate, when the upper side guide sliding sleeve 62 'and the lower side guide sliding sleeve 63' respectively rotate clockwise, the inclined planes of the one-way inclined cambered grooves respectively push the upper handle lifting pulling rod 64 'and the lower handle lifting pulling rod 65' to respectively lift, and when the upper side guide sliding sleeve 62 'and the lower side guide sliding sleeve 63' respectively rotate anticlockwise, the inclined planes of the one-way inclined cambered grooves respectively remove the thrust, and then the upper handle lifting pulling rod 64 'and the lower handle lifting pulling rod 65' respectively descend and reset.

The lower ends of the upper handle lifting traction rod 64 'and the lower handle lifting traction rod 65' are respectively connected with a wire-controlled traction steel wire rope 80 corresponding to each drainage hydrophone 7 in the two cavities 20 on the water tank body 2, the upper handle launching switch knob 60 ', the upper side guide sliding sleeve 62' and the upper handle lifting pull rod 64 'independently control the closing and opening of the water outlet 70 of the water drainage device 7 corresponding to one cavity on the water tank through the wire-controlled pull wire rope 80, the lower handle launching switch knob 61', the lower side guide sliding sleeve 63 'and the lower handle lifting pull rod 65' independently control the closing and opening of the water outlet 70 of the water drainage device 7 corresponding to the other cavity on the water tank through the wire-controlled pull wire rope 80, the upper handle launching switch knob 60 'and the lower handle launching switch knob 61' are independently and independently connected and controlled with each other for the drainage port 70 of the drainage launching device 7 corresponding to each cavity on the water tank.

The automatic integrated control of water supply and drainage is realized, and compared with various control switches installed on the water tank table-board in the prior art, the control space of the water tank table-board is effectively saved, the installation interfaces are reduced, the pollution of the water tank table-board is reduced, and the cleanness of the water tank table-board is effectively increased.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally arranged when the products of the present invention are used, and are used for convenience of description and simplicity of description only, and do not indicate or imply that the devices or elements indicated 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 above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the invention, and all equivalent changes in shape, structure and principle of the invention should be covered by the protection scope of the present invention.

Claims (6)

1. An integrated control switch for controlling water outlet and water discharge of a water tank comprises a switch control part arranged on the water tank, wherein the switch control part is arranged on the water tank and controls the closing and opening of a hot water inlet pipe or/and a cold water inlet pipe for supplying water to a faucet; the method is characterized in that:

the switch control part is provided with a tap valve body switch for controlling the closing or opening of the hot water inlet pipe or/and the cold water inlet pipe, and the switch control part is also provided with a drainage control switch for respectively controlling each drainage hydrophone to open or close the drainage outlet;

and a linkage control component for driving each drainage hydrophone to open or close a water outlet is also arranged between the drainage control switch and each drainage hydrophone on the water tank.

2. An integrated control switch for sink drain and drain control as claimed in claim 1, wherein: the faucet valve body switch on the switch control part is integrally connected with the water discharge control switch in an installing mode.

3. An integrated control switch for sink drain and drain control as claimed in claims 1 and 2, wherein: the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover which is respectively communicated with the hot water inlet pipe or/and the cold water inlet pipe;

the launching control switch comprises a launching switch knob, a guide sliding sleeve and at least one lifting traction rod, wherein the valve core body is respectively provided with a guide hole which is in sliding fit with each lifting traction rod along the axial direction, the top end of each lifting traction rod is connected with a thrust rod which extends out of the guide hole along the radial direction of the valve core body, the corresponding valve core body is radially provided with a sliding chute which is communicated with the guide hole and is convenient for the thrust rod on each lifting traction rod to slide along the sliding chute, the guide sliding sleeve is arranged at the inner side of the launching switch knob and sleeved on the valve core body together, and the circumferential outer wall of the guide sliding sleeve is axially provided with an inclined cambered surface groove which is in sliding contact with the thrust rods on all the lifting traction rods and pulls the lifting traction rods to move up and down when the launching switch knob;

the lower end of each lifting traction rod is respectively connected with the linkage control component corresponding to each drainage drainer, and the drainage outlet at the bottom of each drainage drainer is opened through linkage.

4. An integrated control switch for sink drain and drain control as claimed in claim 1 or 2, wherein: the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover which is respectively communicated with the hot water inlet pipe and the cold water inlet pipe;

the launching control switch comprises a launching switch knob, a guide sliding sleeve and two lifting traction rods, wherein the launching switch knob adopts a single control handle, the valve core body is respectively provided with two guide holes in sliding fit with the lifting traction rods along the axial direction, the top end of each lifting traction rod is connected with a thrust rod extending out of the corresponding guide hole along the radial direction of the valve core body, the corresponding valve core body is radially provided with a sliding groove communicated with the guide holes and facilitating the sliding of the thrust rod on the lifting traction rod along the sliding groove, the guide sliding sleeve is installed on the inner side of the launching switch knob and sleeved on the valve core body together, the circumferential outer wall of the guide sliding sleeve is provided with inclined cambered grooves symmetrically opened along the axial direction, the inclined cambered grooves are respectively in sliding contact with the thrust rods on the two lifting traction rods, the launching switch knob drives the guide sliding sleeve to synchronously rotate, and when the guide sliding sleeve rotates clockwise, the inclined plane on the right, The lifting traction rod on the right side of the valve core body is pushed to rise, and when the guide sliding sleeve rotates anticlockwise, the inclined surface on the left side of the inclined cambered groove pushes the lifting traction rod on the left side of the valve core body to rise;

the lower ends of the two lifting traction rods are respectively connected with a linkage control assembly corresponding to each drainage drainer in the two cavities on the water tank body, the drainage outlets of the two drainage drainers on the water tank are controlled to be closed simultaneously when the drainage switch knob and the guide sliding sleeve are positioned at the middle position between the two lifting traction rods, and the drainage outlets of the corresponding drainage drainers are controlled to be opened in a linkage manner through the corresponding linkage control assemblies by pulling one of the two lifting traction rods when the drainage switch knob and the guide sliding sleeve rotate clockwise or anticlockwise.

5. An integrated control switch for sink drain and drain control as claimed in claim 1 or 2, wherein: the faucet valve body switch comprises a cylindrical valve core body and a faucet switch knob arranged at the top end of the valve core body, and the bottom end of the valve core body is provided with a pipeline connecting end cover which is respectively communicated with the hot water inlet pipe and the cold water inlet pipe;

the launching control switch comprises an upper handle launching switch knob, a lower handle launching switch knob, an upper side guide sliding sleeve, a lower side guide sliding sleeve, an upper handle lifting traction rod and a lower handle lifting traction rod, and the valve core body is respectively provided with guide holes which are in sliding fit with the upper handle lifting traction rod and the lower handle lifting traction rod along the axial direction;

the top end of the upper handle lifting traction rod is respectively connected with an upper handle thrust rod extending from the guide hole along the radial direction of the valve core body, the top end of the lower handle lifting traction rod is respectively connected with a lower handle thrust rod extending from the guide hole along the radial direction of the valve core body, and the corresponding valve core body is respectively provided with a chute which is communicated with the respective guide hole and is convenient for the upper handle thrust rod or the lower handle thrust rod to slide along the inner part of the chute;

the upper side guide sliding sleeve is arranged on the inner side of the upper handle launching switch knob and is sleeved on the upper side of the valve core body, and the lower side guide sliding sleeve is arranged on the inner side of the lower handle launching switch knob and is sleeved on the lower handle on the upper side of the valve core body on the lower side of the upper side guide sliding sleeve;

the circumferential outer walls of the upper guide sliding sleeve and the lower guide sliding sleeve are respectively provided with a unidirectional inclined cambered surface groove which is arranged in a unidirectional inclined manner along the axial direction, and the unidirectional inclined cambered surface grooves are respectively in sliding contact with an upper handle thrust rod on the upper handle lifting traction rod and a lower handle thrust rod on the lower handle lifting traction rod;

the upper handle launching switch knob drives the upper side guide sliding sleeve to synchronously rotate, the lower handle launching switch knob drives the lower side guide sliding sleeve to synchronously rotate, the inclined plane of the one-way inclined cambered groove respectively pushes the upper handle lifting traction rod and the lower handle lifting traction rod to respectively lift when the upper side guide sliding sleeve and the lower side guide sliding sleeve respectively rotate clockwise, and the inclined plane of the one-way inclined cambered groove respectively releases thrust when the upper side guide sliding sleeve and the lower side guide sliding sleeve respectively rotate anticlockwise so that the upper handle lifting traction rod and the lower handle lifting traction rod respectively descend and reset after the thrust is released;

the lower ends of the upper handle lifting traction rod and the lower handle lifting traction rod are respectively connected with the linkage control components corresponding to the two drainage hydrophones on the water tank, the upper handle launching switch knob, the upper side guide sliding sleeve and the upper handle lifting traction rod independently control the closing and opening of the drainage outlet of one cavity corresponding to the drainage hydrophone on the water tank through the linkage control components, the lower handle launching switch knob, the lower side guide sliding sleeve and the lower handle lifting traction rod independently control the closing and opening of the drainage outlet of the other cavity corresponding to the drainage hydrophone on the water tank through the linkage control components, and the upper handle launching switch knob and the lower handle launching switch knob independently control the drainage outlets of the cavities corresponding to the drainage hydrophones on the water tank independently and independently without correlation.

6. An integrated control switch for sink drain and drain control as claimed in claim 1, wherein: the linkage control component is a wire-controlled pulling steel wire rope and an L-shaped touch control component which drive each drainage hydrophone to open or close the drainage port.

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