CN114305177B - Shower cabinet - Google Patents

Abstract

The invention discloses a shower cabinet, which comprises a lifting seat and a wash platform; when the adjusting rod circumferentially rotates, the water supply temperature of the mixed water supply assembly can be changed; when the adjusting rod axially slides, the water supply quantity of the mixed water supply assembly can be changed. The invention can be used as a hand washing tank, and the height of the hand washing table is adjustable, so that the hand washing table is more comfortable and convenient to use; can be used as a shower, and when the wash platform moves to the upper limit position, only one set of cold and hot water pipe is required to be paved, so that the use is simple and convenient.

Description

Shower cabinet

Technical Field

The invention belongs to the technical field of bathroom sanitary ware, and particularly relates to a shower cabinet.

Background

The utility model discloses a bathroom cabinet with a shower head function, which is applied to a bathroom of a household, wherein a handheld shower head can be used as a shower head and a water tap of a hand basin, a user does not need to additionally install the water tap, the acquisition cost and the decoration cost are saved, and the space utilization rate of the bathroom is improved.

Above-mentioned patent is in the in-service use, because the gondola water faucet adopts the distributing type to go out water, and tap adopts the centralized type to go out water, when using the gondola water faucet as tap, need adjust the play water mode of gondola water faucet, otherwise have more water to dash the basin outside, use inconveniently, complex operation, simultaneously, basin fixed in position installs moreover on the bathroom cabinet, does not reduce too much bathroom space, and above-mentioned patent can not satisfy the in-service use demand to a certain extent when using.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: aiming at the defects existing in the prior art, the shower cabinet which occupies small space and can be used as a shower is provided.

The invention is realized by adopting the following technical scheme: a shower cabinet comprises a lifting seat and a wash platform longitudinally and slidably connected in front of the lifting seat; the upper part of the hand washing table is fixedly connected with a faucet; the lower part of the hand washing table is fixedly connected with a shower head; a mixed water supply assembly for supplying water to the faucet and the shower head respectively is arranged in the wash stand; and a water inlet and water passing seat for supplying cold water and hot water to the mixed water supply assembly is arranged in the wash basin.

The lifting seat is provided with a linkage adjusting component for controlling the water supply temperature and the water supply quantity of the mixed water supply component; the linkage adjusting assembly comprises a first linkage rod, a second linkage rod, a linkage pipe and an adjusting rod, wherein the first linkage rod is connected in the lifting seat in a sliding manner and used for controlling the water supply temperature of the mixed water supply assembly, the second linkage rod is connected in the lifting seat in a sliding manner and used for controlling the water supply amount of the mixed water supply assembly, the linkage pipe is connected in the lifting seat in a rotating manner and used for driving the first linkage rod to slide, and the adjusting rod is connected in the lifting seat in a sliding manner and used for driving the second linkage rod to slide; the adjusting rod circumferentially rotates to drive the linkage pipe to circumferentially rotate synchronously.

When the adjusting rod circumferentially rotates, the linkage pipe circumferentially rotates, and the first linkage rod slides, so that the water supply temperature of the mixed water supply assembly can be changed.

When the adjusting rod axially slides, the linkage pipe does not move, and the second linkage rod slides, so that the water supply amount of the mixed water supply assembly can be changed.

Compared with the prior art, the invention has the beneficial effects that: the hand washing device can be used as a hand washing groove, and the height of the hand washing table is adjustable, so that the hand washing device can be suitable for users with different heights, and is more comfortable and convenient to use; the shower head can be used as a shower, and when the wash platform moves to the upper limit position, the shower head can supply water, so that the shower head can be used as a shower, and only one set of cold and hot water pipes is required to be paved, thereby saving the construction cost; the foot washing machine can wash feet, when the hand washing platform moves to the lower limit position, the shower head can supply water to wash feet, water is prevented from splashing around, the hand washing machine does not need to be bent for a long time, and the use is simple and convenient.

Drawings

Fig. 1 is a schematic cross-sectional view of the present invention.

Fig. 2 is a schematic exploded view of the present invention.

Fig. 3 and 4 are schematic structural views of the lifting seat of the present invention.

Fig. 5 is a schematic cross-sectional view of the hand washing station of the present invention.

FIG. 6 is a schematic view of an exploded view of the positioning assembly of the present invention.

Fig. 7 is a schematic exploded view of the linkage adjustment assembly of the present invention.

Fig. 8 is an exploded view of the linkage assembly of the present invention.

Fig. 9 is a schematic view of the structure of the reversing assembly of the present invention.

Fig. 10 is a schematic cross-sectional view of the reversing box of the present invention.

Fig. 11 is an exploded view of the hybrid water supply assembly of the present invention.

Fig. 12 is a schematic exploded view of the adjustment assembly of the present invention.

Fig. 13 is a schematic view of the structure of the present invention using a shower function.

Fig. 14 is a schematic view of the structure of the invention for adjusting the position of the toilet table.

10. A lifting seat; 101. lifting sliding grooves; 1011. a communication groove; 102. a limit bump; 103. an adjustment notch; 1031. positioning the through hole; 104. adjusting the chute; 105. a limit fork plate; 11. a positioning plate; 111. positioning teeth; 112. adjusting the rack; 20. a hand washing table; 201. a water drain hole of the water tank; 202. adjusting the through hole; 203. a reversing through hole; 204. a guide post; 205. a spring pressing plate; 206. rotating the column; 207. positioning a communication port; 208. a water through seat communication port; 21. a shower head; 22. a water tap; 3a, a water inlet and water passage seat; 3b, a water outlet water through seat; 31. the sliding table is communicated; 4. a linkage adjustment assembly; 41. a first linkage rod; 411. a first interface; 412. adjusting the raised head; 42. a second linkage rod; 421. a second interface; 422. an extension column; 43. an adjusting rod; 431. adjusting the shifting block; 432. a first drive column; 44. a linkage tube; 441. a spiral groove; 442. a first driven hole; 5. a positioning assembly; 51. a positioning frame; 511. an extension plate; 5111. positioning columns; 512. a linkage head; 513. a U-shaped frame; 52. a driving plate; 521. a guide chute; 522. driving the chute; 523. a pushing block; 53. a first spring; 6. a mixed water supply assembly; 61. a mixing drum; 611. mixing a water inlet pipe; 62. an adjusting plate; 621. a water permeable hole; 622. a second driven hole; 63. a drive shaft; 631. a second drive column; 632. a sealing ball; 633. a mixing gear; 634. a driven shaft; 6341. a driven groove; 64. an upper cover; 641. a mixed water supply pipe; 642. a communication hole; 643. a conical seal hole; 7. an adjustment assembly; 71. a rotating disc; 711. a rotating groove; 712. a drive hole; 713. rotating the ear; 72. a handle; 721. a rotating lever; 722. a driving rod; 8. a reversing assembly; 81. a reversing box; 811. sealing the rotating column; 812. reversing the water inlet hole; 813. a shower head pipe; 814. a faucet tube; 82. a selector plate; 821. a reversing chute; 822. a gating port; 823. sealing the rotating tube; 83. a reversing lever; 831. reversing raised heads; 84. a second spring; 9. a linkage assembly; 91. a linkage gear; 911. an extension driven groove; 92. a plug block; 921. a first sliding groove; 922. a linkage column; 93. a plug-in column; 931. a second sliding groove; 932. a synchronization plate.

Detailed Description

Referring to fig. 1 to 14, a shower cabinet according to the present embodiment includes a lifting base 10 and a washing stand 20 longitudinally slidably connected to the front of the lifting base 10; the upper part of the wash platform 20 is fixedly connected with a faucet 22; a shower head 21 is fixedly connected to the lower part of the wash platform 20; a mixed water supply assembly 6 for supplying water to the faucet 22 and the shower head 21 is arranged in the wash stand 20; two symmetrically arranged water-through seats are arranged in the wash platform 20; the two water-passing seats are respectively a water inlet water-passing seat 3a for supplying cold water and hot water to the mixed water supply assembly 6 and a water outlet water-passing seat 3b for discharging water on the wash platform 20 outwards.

A water tank is formed at the upper end of the washing table 20; a water tank drain hole 201 which is used for discharging water in the water tank and is communicated with the water outlet water through seat 3b is formed in the bottom of the water tank; the interior of the washing station 20 is a cavity; the water through seat is fixedly connected in the cavity; the inner wall of the wash platform 20 facing the lifting seat 10 is formed with two water passing seat communication ports 208 symmetrically arranged for allowing the corresponding water passing seat to penetrate into the lifting seat 10.

One end of the lifting seat 10 facing the wash platform 20 is formed with two lifting sliding grooves 101 which are longitudinally arranged and are symmetrical to each other; each lifting chute 101 is respectively connected with the corresponding water through seat in a sliding manner; the two opposite inner walls of the lifting chute 101 are respectively formed with a longitudinally arranged communication groove 1011 communicated with the inside of the lifting seat 10; the two ends of the water through seat are respectively provided with a communication sliding table 31 which is in sliding connection with the corresponding communication groove 1011.

The water inlet water through seat 3a is positioned in the cavity and fixedly connected with a cold water pipe and a hot water pipe; the water inlet water passing seat 3a is positioned in the lifting seat 10 and is fixedly connected with a cold water delivery pipe communicated with the cold water pipe and used for supplying cold water to the water inlet water passing seat 3a and a hot water delivery pipe communicated with the hot water pipe and used for supplying hot water to the water inlet water passing seat 3 a; the cold water delivery pipe and the hot water delivery pipe are respectively communicated with corresponding external water supply pipes.

The water outlet water through seat 3b is positioned in the cavity and fixedly connected with a drain pipe; the drain pipe is communicated with the water tank drain hole 201 through a first hose; the water outlet water passing seat 3b is positioned in the lifting seat 10 and is fixedly connected with a water draining and conveying pipe communicated with the water draining pipe; the water draining and conveying pipe is communicated with a corresponding external sewage draining pipe.

A linkage adjusting component 4 for controlling the water supply temperature and the water supply amount of the mixed water supply component 6 is arranged on the lifting seat 10 towards the middle part of one side of the wash stand 20; the linkage adjusting assembly 4 comprises a first linkage rod 41 which is longitudinally and slidably connected in the lifting seat 10 and is used for controlling the water supply temperature of the mixed water supply assembly 6, a second linkage rod 42 which is longitudinally and slidably connected in the lifting seat 10 and is used for controlling the water supply amount of the mixed water supply assembly 6, a linkage pipe 44 which is longitudinally and rotatably connected in a rotating shaft in the lifting seat 10 and is used for driving the first linkage rod 41 to longitudinally slide, and a longitudinally and slidably connected adjusting rod 43 which is longitudinally and slidably connected in the lifting seat 1 and is used for driving the second linkage rod 42 to longitudinally slide; the adjusting rod 43 rotates circumferentially to drive the linkage tube 44 to rotate circumferentially synchronously.

Two symmetrically arranged adjusting sliding grooves 104 which are respectively connected with the first linkage rod 41 and the second linkage rod 42 in a longitudinal sliding way are formed in the lifting seat 10; an adjusting notch 103 which is concave inwards is formed in the middle of one side of the outer wall of the lifting seat 10 facing the wash platform 20; the upper and lower ends in the adjusting recess 103 are respectively formed with a positioning through hole 1031 which is longitudinally and coaxially arranged and is slidably connected with the adjusting rod 43; the lower end of the linkage pipe 44 is propped against the upper end of the adjusting notch 103; a limiting fork plate 105 propped against the upper end of the linkage pipe 44 is formed in the lifting seat 10; the linkage tube 44 is only rotatable circumferentially and cannot move longitudinally.

The middle part of the periphery of the adjusting rod 43 is positioned in the adjusting notch 103 and is provided with a spherical adjusting dial block 431; a first driving post 432 for driving the linkage pipe 44 to rotate circumferentially is formed on the periphery of the adjusting rod 43 above the adjusting notch 103; a first driven hole 442 penetrating the linkage pipe 44 and longitudinally slidably connected to the first driving post 432 is formed at the central position of the upper end of the linkage pipe 44; the cross sections of the first driving post 432 and the first driven hole 442 are non-circular structures with the same shape, the first driving post 432 rotates to drive the first driven hole 442 to rotate circumferentially synchronously, and the first driving post 432 can slide longitudinally in the first driven hole 442.

The outer wall of the linkage pipe 44 is provided with a spiral groove 441 along the spiral line direction; an adjusting projection 412 slidably connected to the spiral groove 441 is formed on a side of the first linkage rod 41 facing the linkage tube 44; the second linkage rod 42 is located at the upper and lower ends of the adjusting rod 43 at one side of the adjusting rod 43, and extension posts 422 fixedly connected with the adjusting rod 43 are respectively formed at the upper and lower ends of the adjusting rod 43.

When the adjusting rod 43 rotates circumferentially, the first driving post 432 rotates to drive the first driven hole 442 to rotate and further to enable the linkage pipe 44 to rotate circumferentially, the linkage pipe 44 rotates circumferentially to drive the spiral groove 441 to rotate, the spiral groove 441 rotates to drive the adjusting lug 412 to slide longitudinally and further to enable the first linkage rod 41 to slide, and then the water supply temperature of the mixed water supply assembly 6 can be changed.

When the adjusting rod 43 axially slides, the linkage pipe 44 does not move, and the adjusting rod 43 moves to drive the extending column 422 to move so as to enable the second linkage rod 42 to slide, so that the water supply amount of the mixed water supply assembly 6 can be changed.

When the wash platform 20 is positioned at the upper limit position, the shower head 21 sprays water to perform shower; when the wash platform 20 is positioned at the lower limit position, the shower head 21 can shower water to flush feet, the shower water position is low, clothes can not be splashed, and meanwhile, the wash platform can be used without bending down, so that the wash platform is simple and convenient to use; when the washing stand 20 is positioned at the middle, the water tap 22 can perform washing or the like; the water-saving shower can be used as a wash stand and a shower, is simple to operate and use, is convenient for life, occupies small space as a whole, and saves construction cost by only using one group of cold and hot water pipes.

The mixed water supply assembly 6 comprises a longitudinally arranged mixing drum 61 fixedly connected in the washing table 20 and communicated with the water inlet water through seat 3a, a regulating disc 62 which is rotationally connected in the mixing drum 61 and longitudinally arranged for controlling the water supply temperature, a driving shaft 63 which is longitudinally and slidingly connected in the mixing drum 61 and used for controlling the water supply amount, and an upper sealing cover 64 fixedly connected at the upper end of the mixing drum 61 and respectively communicated with the faucet 22 and the shower head 21; the driving shaft 63 rotates circumferentially to drive the adjusting disk 62 to rotate circumferentially synchronously.

A second driven hole 622 is formed at the central position of the upper end of the adjusting disc 62; a second driving column 631 which is longitudinally and slidably connected with the second driven hole 622 is formed below the upper cover 64 at the central position of the lower end of the driving shaft 63; the cross section of the second driven hole 622 and the cross section of the second driving post 631 are in a non-circular structure with the same shape, the second driving post 631 rotates circumferentially to drive the second driven hole 622 to rotate circumferentially, and the second driving post 631 can slide longitudinally in the second driven hole 622.

A linkage assembly 9 which can drive the driving shaft 63 to rotate circumferentially and slide axially is arranged in the wash platform 20; the linkage assembly 9 comprises a linkage gear 91 which is rotationally connected in the washing platform 20 and is in transmission connection with the driving shaft 63 and is used for driving the driving shaft 63 to circumferentially rotate, an inserting block 92 which is longitudinally and slidably connected in the washing platform 20 and is used for driving the linkage gear 91 to circumferentially rotate, and an inserting column 93 which is longitudinally and slidably connected in the washing platform 20 and is used for driving the driving shaft 63 to axially slide; the first linkage rod 41 can drive the plug-in block 92 to synchronously slide longitudinally; the second linkage rod 42 can drive the plug-in post 93 to slide longitudinally synchronously.

The rotation shaft of the linkage gear 91 is disposed in the front-rear direction; a rotation hole is formed in the center of the linkage gear 91 facing to one side of the lifting seat 10; a rotation column 206 rotatably connected with the rotation hole is formed at the center of the inner wall of the wash platform 20, which is close to the lifting seat 10; an extension driven groove 911 extending outwards is formed on the outer wall of the linkage gear 91; a coupling post 922 connected to the extended driven groove 911 is formed at a central position of the insertion block 92 toward one side of the coupling gear 91; the linkage post 922 is located in the extended driven groove 911, and the plug 92 slides longitudinally to drive the extended driven groove 911 to move longitudinally, so that the linkage gear 91 rotates circumferentially.

A mixing gear 633 which is in transmission connection with the linkage gear 91 is fixedly connected to the periphery of the driving shaft 63 above the upper sealing cover 64; the outer wall of the plugging column 93 is positioned at the upper and lower ends of the mixing gear 633 and is respectively formed with a synchronizing plate 932 which is propped against the mixing gear 633; the plug-in post 93 slides longitudinally such that the synchronization plate 932 moves the mixing gear 633 longitudinally, thereby axially moving the drive shaft 63.

When the first linkage rod 41 drives the plug-in blocks 92 to slide synchronously, the plug-in blocks 92 slide to drive the linkage gears 91 to rotate, and the linkage gears 91 rotate to drive the mixing gears 633 to rotate circumferentially so as to enable the driving shaft 63 to rotate circumferentially, so that the water supply temperature of the mixed water supply assembly 6 is changed. When the second linkage rod 42 drives the plug-in post 93 to slide synchronously, the linkage gear 91 does not rotate, and the plug-in post 93 moves to drive the synchronous plate 932 to move so that the driving shaft 63 slides axially, thereby changing the water supply amount of the mixed water supply assembly 6.

The washing platform 20 can slide upwards to the upper limit position or the lower limit position, the water supply amount and the water supply temperature of the mixed water outlet assembly 6 can be adjusted through the adjusting dial block 431, and the adjusting dial block 431 is rotated without bending or lifting, so that the use is simple and convenient.

A reversing assembly 8 for switching the water supply direction of the mixed water supply assembly 6 is arranged in the wash stand 20; the reversing assembly 8 comprises a reversing box 81 fixedly connected in the hand washing table 20, a gating disc 82 rotatably connected to the outer wall of the reversing box 81 and arranged along the front-back direction, and reversing rods 83 longitudinally and slidably connected to the two ends of the hand washing table 20, penetrating out of the hand washing table 20 respectively, and used for driving the gating disc 82 to rotate; the lifting seat 10 is formed with a limit bump 102 which can be abutted against the reversing lever 83 to drive the reversing lever 83 to slide at the upper end and the lower end of one side of the wash platform 20.

A sealing rotating column 811 is formed at the center of one end of the reversing box 81 facing the gate plate 82; a sealing rotating pipe 823 which is rotationally connected with the sealing rotating column 811 is formed at the central position of one end of the gating disc 82 facing the reversing box 81; a reversing chute 821 is formed at one end of the gating plate 82 away from the reversing box 81 along the radial direction of the gating plate 82; a reversing raised head 831 which is in sliding connection with the reversing chute 821 is formed on one side of the reversing lever 83 facing the gating plate 82; the upper and lower ends of the washing stand 20 are respectively formed with a reversing through hole 203 for allowing the reversing lever 83 to pass through; a second spring 84 for holding the reversing lever 83 in the initial position is provided between the reversing lever 83 and the washing station 20.

Two reversing water inlets 812 communicated with the shower head 21 are formed on the outer wall of the reversing box 81, which is close to the gating plate 82; a tap tube 814 communicated with the tap 22 is formed on the outer wall of the reversing box 81 close to the gating plate 82; the gate plate 82 can seal the reversing inlet 812, the faucet tube 814; a gate 822 which can be communicated with the reversing water inlet 812 and the tap pipe 814 is formed on one end of the gate plate 82 far away from the reversing box 81; the mixed water supply assembly 6 supplies water to the gate 822.

Both the reversing water inlet holes 812 are communicated with the interior of the reversing box 81; one end of the reversing box 81 far away from the selector plate 82 is formed with a shower head pipe 813 communicated with the interior of the reversing box 81; the shower head pipe 813 communicates with the shower head 21 through a second hose; the faucet tube 814 communicates with the faucet 22 through a third hose; when the reversing lever 83 is in the initial position, the gate 822 is in communication with only the faucet tube 814.

When the washing stand 20 is positioned at the non-both end limit positions, the limit projection 102 is not in contact with the reversing lever 83, the reversing lever 83 is positioned at the initial position, the gate 822 is only communicated with the faucet tube 814, and the mixed water supply assembly 6 can only supply water to the faucet 22.

When the washing stand 20 is located at the upper end or the lower end limit position, the limit projection 102 abuts against the reversing lever 83, so that the reversing lever 83 is located at the end limit position, the gate 822 is only communicated with the reversing water inlet 812, and the mixed water supply assembly 6 can only supply water to the shower head 21.

By moving the position of the hand washing stand 20, the water supply direction of the mixed water supply assembly 6 can be conveniently switched, no new operation steps are added, and the use is simple and convenient.

A positioning assembly 5 for fixing the wash platform 20 and the lifting seat 10 relative to each other is installed in the wash platform 20; the positioning assembly 5 comprises a positioning frame 51 which is connected in the wash platform 20 in a sliding way along the front-back direction and two symmetrically arranged driving plates 52 which are connected in the wash platform 20 in a sliding way along the left-right direction and are used for driving the positioning frame 51 to slide; a positioning plate 11 is fixedly connected to one side of the lifting seat 10 facing the wash platform 20; the positioning frame 51 is formed with a plurality of positioning columns 5111 which are uniformly arranged longitudinally and can be clamped with the positioning plate 11 toward one side of the lifting seat 10.

The lower end of each driving plate 52 is respectively formed with a guiding chute 521 along the left-right direction; the inner bottom of the washing table 20 is formed with a plurality of guide posts 204 slidably connected with the guide sliding grooves 521 respectively; positioning communication ports 207 which are communicated with the inside of the washing table 20 are respectively formed at the lower ends of the left and right side walls of the washing table 20; one end of each driving plate 52, which is close to the adjacent positioning communication port 207, is respectively formed with a pushing block 523 which is slidably connected with the positioning communication port 207; each pushing block 523 passes through the corresponding positioning communication port 207.

One end of each driving plate 52 far away from the corresponding pushing block 523 is respectively formed with a driving chute 522 which is obliquely arranged; linkage heads 512 which are slidably connected with the corresponding driving chute 522 are respectively formed at the lower end of the positioning frame 51 near the left and right sides; two symmetrically arranged first springs 53 for sliding the positioning frame 51 backward are arranged between the positioning frame 51 and the toilet table 20; the inner bottom end of the hand washing table 20 is formed with two spring pressing plates 205 respectively propped against the corresponding first springs 53; in a natural state, the first spring 53 makes the positioning frame 51 located at a rear limit position, and the driving plate 52 located at an outer limit position; depressing the pushing block 523 causes the two driving plates 52 to move toward each other to the inner limit position, and the driving chute 522 drives the linkage head 512 to move, so that the positioning frame 51 moves to the front limit position.

The positioning frame 51 is formed with extension plates 511 extending into the lifting seat 10 at the left and right ends of one side of the lifting seat 10; the positioning posts 5111 are formed on the side of the extension plate 511 facing the adjacent extension plate 511 in the left-right direction.

When the driving plate 52 is located at the outer limit position, the positioning frame 51 is located at the rear limit position, and the positioning column 5111 can be clamped with the positioning plate 11, so that the hand washing stand 20 and the lifting seat 10 are relatively fixed; when the driving plate 52 is positioned at the inner limit position, the positioning frame 51 is positioned at the front limit position, the positioning frame 51 is not contacted with the positioning plate 11, and the wash platform 20 can longitudinally slide.

Two U-shaped frames 513 for driving the plug-in blocks 92 and the plug-in columns 93 to slide back and forth are formed on the positioning frame 51; a first plugging port 411 capable of being plugged with the plugging block 92 is formed at the upper and lower ends of the first linkage rod 41, which is close to the upper end of the first linkage rod towards the side of the washing station 20; the second linkage rod 42 is formed with a second plug-in port 421 capable of being plugged into the plug-in post 93 at the upper and lower ends of the side of the wash platform 20.

The opening direction of the U-shaped frame 513 faces downwards; the plug 92 is located in the opening of the U-shaped frame 513 and can longitudinally slide in the opening; the left and right side walls of the plug block 92 are symmetrically formed with first sliding grooves 921 which are longitudinally arranged and slidably connected with the U-shaped frame 513; the plug 93 is located in the opening of the U-shaped frame 513 and can longitudinally slide in the opening; the left and right side walls of the plugging column 93 are symmetrically formed with second sliding grooves 931 which are longitudinally arranged and slidably connected with the U-shaped frame 513; the link lever 922 can slide back and forth in the extended driven groove 911.

When the driving plate 52 is located at the outer limit position, the positioning frame 51 is located at the rear limit position, the first plugging port 411 is plugged with the plugging block 92, the first linkage rod 41 moves to drive the plugging block 92 to slide longitudinally synchronously, the second plugging port 421 is plugged with the plugging column 93, and the second linkage rod 42 moves to drive the plugging column 93 to slide longitudinally synchronously, so that the water supply amount and the water supply temperature of the mixed water outlet assembly 6 can be adjusted by the adjusting rod 43.

When the driving plate 52 is located at the inner limit position, the positioning frame 51 is located at the front limit position, the first plug connector 411 is not in contact with the plug connector 92, the second plug connector 421 is not in contact with the plug connector 93, and the adjusting rod 43 can be prevented from accidentally moving during the process of moving the washing stand 20, so that water leaks, and an operator is wet.

Positioning teeth 111 which can limit the movement of the positioning column 5111 are respectively formed on the side, facing the wash platform 20, of the positioning plate 11 near the upper end and the lower end; an adjusting rack 112 capable of limiting the movement of the positioning column 5111 is formed at the middle part of one side of the lifting seat 10 facing the wash platform 20; the adjustment rack 112 enables the toilet table 20 to be fixed at different heights.

When the positioning column 5111 is clamped with the positioning teeth 111, the hand washing stand 20 is positioned at the upper end or the lower end limit position, and the mixed water supply assembly 6 supplies water to the shower head 21, so that a shower function or foot washing can be used; when the positioning column 5111 is clamped with the adjusting rack 112, the hand washing platform 20 is located at the non-two-end limiting position, the mixed water supply assembly 6 supplies water to the faucet 22, so that the hand washing platform 20 can be adjusted to different heights according to the height of a user by using a hand washing groove function, the use requirements of users with different heights can be met, the hand washing platform can be adjusted according to different use purposes, and the hand washing platform is convenient to use and high in compatibility.

The outer wall of the mixing drum 61 is formed with two mixing water inlet pipes 611 communicated with the inside of the mixing drum 61; the water inlet and water inlet seat 3a supplies hot water and cold water to the corresponding mixed water inlet pipe 611 respectively; the regulating disc 62 is able to seal the mixing inlet pipe 611; the side wall of the adjusting plate 62 is formed with two water permeable holes 621 which can be respectively communicated with the corresponding mixing water inlet pipes 611 and are used for allowing water to enter the mixing drum 61; when the communication area of one of the water penetration holes 621 with the corresponding mixing water inlet pipe 611 increases, the communication area of the other water penetration hole 621 with the corresponding mixing water inlet pipe 611 decreases.

One of the inlet pipes 611 communicates with the cold water pipe through a fourth hose; the other of the water inlet pipes 611 communicates with the hot water pipe through a fifth hose.

The lower end of the upper cover 64 is positioned at the periphery of the driving shaft 63 and is provided with a conical sealing hole 643 for supplying water to the outside; a sealing ball 632 capable of sealing and abutting against the conical sealing hole 643 is formed between the second driving column 631 and the upper cover 64 on the periphery of the driving shaft 63; the upper end of the upper cover 64 is formed with a mixing water supply pipe 641 which is communicated with the gate 822 and is arranged in a bending way; the mixed water supply pipe 641 is communicated with the gate 822 through a sixth hose; the outer wall of the mixing water supply pipe 641 is formed with a communication hole 642 for allowing the driving shaft 63 to be upwardly penetrated therethrough, which is hermetically and rotatably connected to the driving shaft 63.

When the driving shaft 63 rotates circumferentially, the adjusting disk 62 rotates circumferentially, and the communication area of each water permeable hole 621 with the corresponding mixing water inlet pipe 611 changes so that the ratio of cold water and hot water entering the mixing drum 61 changes, thereby adjusting the water supply temperature of the mixing water supply assembly 6.

When the driving shaft 63 axially slides, the gap area between the sealing ball 632 and the tapered sealing hole 643 is changed, thereby changing the water supply amount of the mixing water supply assembly 6.

An adjusting assembly 7 for controlling the water supply temperature and the water supply amount of the mixed water supply assembly 6 is arranged at the upper part of the wash stand 20; the adjusting assembly 7 comprises a rotating disc 71 which is longitudinally arranged and is rotatably connected with the rotating shaft at the upper part of the hand washing table 20 and used for driving the driving shaft 63 to synchronously and circumferentially rotate, and a handle 72 which is horizontally arranged and rotatably connected with the rotating shaft at the upper end of the rotating disc 71 and used for driving the driving shaft 63 to axially slide; the rotation axis of the handle 72 is located at a position away from the drive shaft 63; the middle part of the lower end of the handle 72 is fixedly connected with a driving rod 722 connected with the driving shaft 63.

A rotating groove 711 is formed on the outer wall of the rotating disc 71 along the circumferential direction; an adjusting through hole 202 which penetrates into the washing table 20 and is rotatably connected with the rotating groove 711 is formed at the upper end of the washing table 20; a driving hole 712 penetrating the rotating disc 71 is formed at the central position of the upper end of the rotating disc 71; a driven shaft 634 which is slidably connected with the driving hole 712 is formed at the upper end of the periphery of the driving shaft 63 above the upper sealing cover 64; the cross section of the driving hole 712 and the driven shaft 634 are in a non-circular structure with the same shape, the driving hole 712 rotates to drive the driven shaft 634 to synchronously rotate, and the driven shaft 634 can longitudinally slide in the driving hole 712.

A rotating lug 713 is formed at the upper end of the rotating disc 71 near the outer edge; a rotating rod 721 which is rotationally connected with the rotating lug 713 is connected to the lower end of the handle 72; a driven groove 6341 which is horizontally arranged and penetrates through the driven shaft 634 and is connected with the driving rod 722 is formed on the outer wall of the driven shaft 634 near the upper end; the driving rod 722 is positioned in the driven straw 6341 and can drive the driven groove 6341 to longitudinally move.

When the handle 72 rotates circumferentially, the rotation rod 721 drives the rotation lugs 713 to rotate synchronously, that is, the rotation disc 71 rotates circumferentially, and the driving hole 712 drives the driven shaft 634 to rotate so that the driving shaft 63 rotates circumferentially, and thus the water supply temperature of the mixed water supply assembly 6 changes.

When the handle 72 is rotated up and down, the handle 72 is rotated around the rotation lugs 713, so that the driving rod 722 is longitudinally moved to drive the driving shaft 63 to axially slide, and thus the water supply amount of the mixing water supply assembly 6 is changed.

In the initial state, the wash platform 20 is positioned in the middle, the positioning frame 51 is positioned at the rear limit position, and the positioning column 5111 is clamped with the adjusting rack 112; the sealing ball 632 seals against the tapered sealing bore 643 such that the tapered sealing bore 643 is sealed; the reversing lever 83 is centrally located such that the gate 822 communicates only with the faucet tube 814.

When the product is used as a wash platform, the hand is used for poking the handle 72 to enable the handle 72 to rotate upwards by a certain angle R1, the outer side of the lower end of the handle 72 is rotationally connected with the rotating lug 713, the middle part of the lower end of the handle 72 is connected with the driving shaft 63, the handle 72 rotates upwards to enable the driving rod 72 positioned in the middle of the lower end to drive the driven groove 6341 to slide upwards, and then the driving shaft 63 slides upwards. The driving shaft 63 slides upwards to drive the sealing ball 632 to move upwards, the sealing ball 632 is not in sealing contact with the conical sealing hole 643, water enters the mixing drum 61 through the water inlet seat 3a and the mixing water inlet pipe 611 in sequence, then enters the faucet 22 through the mixing water inlet pipe 641, the gating port 822 and the faucet pipe 814, and then flows outwards through the faucet 22. The water flowing out of the faucet 22 enters the water tank, flows into the water outlet water passing seat 3b through the water tank drain hole 201 at the bottom of the water tank, and flows into the external drain pipe. The upward rotation angle R1 of the handle 72 is different, so that the upward sliding distance of the driving shaft 63 is different, and the gap area between the sealing ball 632 and the conical sealing hole 643 is different, that is, the flow rate of water flowing out through the mixed water supply pipe 641 is different, and the water supply amount of the mixed water supply pipe 641, that is, the water output of the faucet 22 can be controlled by adjusting the rotation angle R1. After use, the handle 72 is rotated downwardly to the extreme position so that the drive shaft 63 slides downwardly and the sealing ball 632 again seals against the tapered sealing bore 643, the tapered sealing bore 643 being sealed and water no longer flowing out of the mixing water supply tube 641.

In the water use process, the temperature of the water can be adjusted, and when the temperature is adjusted, the handle 72 is rotated by the hand, the handle 72 is horizontally rotated by a certain angle R2, the handle 72 is rotated, the rotating rod 721 drives the rotating lug 713 to rotate, and the rotating disc 71 is rotated circumferentially. The rotation of the rotating disk 71 circumferentially rotates the drive aperture 712, the drive aperture 712 rotates the driven shaft 634 to rotate the drive shaft 63, the drive shaft 63 rotates the second drive post 631, and the second drive post 631 rotates the second driven aperture 622 to rotate the adjustment disk 62. The adjusting disk 62 can seal the mixing inlet pipe 611, the water permeable holes 621 can communicate with the corresponding mixing inlet pipe 611, and as the adjusting disk 62 rotates circumferentially, when the communication area of one water permeable hole 621 with the corresponding mixing inlet pipe 611 increases, the communication area of the other water permeable hole 621 with the corresponding mixing inlet pipe 611 decreases. The two mixing inlet pipes 611 are respectively communicated with an external cold water delivery pipe and a hot water delivery pipe through the water inlet water delivery seat 3a, and the adjusting disk 62 is rotated circumferentially to change the proportion of cold water and hot water entering the mixing drum 61, so that the temperature of water flowing out through the mixing water supply pipe 641 is changed. The water supply temperature of the mixing water supply pipe 641, that is, the water outlet temperature of the faucet 22 can be controlled by controlling the rotation angle R2.

When the height of the user is low or high and the use of the washing board 20 is inconvenient, the height of the washing board 20 can be adjusted, and when the height of the washing board 20 is adjusted, both hands respectively hold the left and right sides of the washing board 20 while pressing and holding the push block 523 inward, so that the push block 523 slides to the inside limit position. The pushing block 523 slides inwards to drive the driving plate 52 to slide inwards so that the driving chute 522 slides inwards, the driving chute 522 slides inwards to drive the linkage head 512 to move, the positioning frame 51 moves forwards to a front limit position, the first spring 53 is compressed, and the positioning column 5111 is not contacted with the adjusting rack 112. The hand washing table 20 is moved to a proper height, and meanwhile, the positioning column 5111 can be opposite to the adjusting rack 112, the pushing block 523 is released, and the positioning frame 51 moves backward to a limit position under the elastic force of the first spring 53, so that the positioning column 5111 is propped against the adjusting rack 112 again. Releasing the hand washing table 20, the hand washing table 20 slides downwards under the action of gravity to enable the positioning column 5111 to be clamped with the adjusting rack 112, and the hand washing table 20 and the lifting seat 10 are relatively fixed. The positioning frame 51 slides backwards, so that the linkage head 512 drives the driving chute 522 to move synchronously, and further, the two driving plates 52 move to the initial positions to two sides respectively. The hand washing table 20 is used according to the same steps, and the height of the hand washing table 20 is adjustable to meet the use requirements of users with different heights, so that the users can use the hand washing table 20 in a relatively comfortable position, the operation and the use are simple, and convenience is provided for life.

When the shower function of the product is used, both hands respectively hold the left and right sides of the toilet table 20 while pressing the push block 523 inward and holding it, so that the positioning frame 51 moves to the front limit position, the first spring 53 is compressed, and the positioning column 5111 is not contacted with the adjusting rack 112 any more. In this process, the positioning frame 51 moves to drive the two U-shaped frames 513 to move forward, and the U-shaped frames 513 move to drive the first sliding groove 921 and the second sliding groove 931 to move respectively, so that the plugging block 92 cannot contact with the first linkage rod 41, and the plugging column 93 cannot contact with the second plugging rod 42. The hand washing station 20 is moved upwards to the upper limit position, at this time, the positioning column 5111 is opposite to the positioning teeth 111 positioned above, the plug-in block 92 is opposite to the first plug-in port 411 positioned above, and the plug-in column 93 is opposite to the second plug-in port 421 positioned above. The upward movement of the toilet table 20 drives the reversing lever 83 to move upward, so that the reversing lever 83 is propped against the upper limit bump 102 and the reversing lever 83 slides downward to the lower limit position. The reversing lever 83 slides downwards to enable the reversing raised head 831 to slide downwards, the second spring 84 compresses the accumulated force, the reversing raised head 831 slides downwards to drive the reversing chute 821 to rotate, the gate plate 82 is rotated until the gate port 822 is communicated with the reversing water inlet 812, and meanwhile the gate plate 82 seals the faucet tube 814. Then, the pushing block 523 is released, the positioning frame 51 moves to the rear limit position under the action of the elastic force of the first spring 53, the positioning column 5111 abuts against the positioning tooth 111, the plugging block 92 enters into the first plugging port 411 located above, the first linkage rod 41 can drive the plugging block 92 to move longitudinally, the plugging column 93 enters into the second plugging port 421 located above, and the second linkage rod 42 can drive the plugging column 93 to move longitudinally. Then the hand washing table 20 is loosened, the hand washing table 20 enables the positioning column 5111 to be clamped with the positioning teeth 111 under the action of gravity, so that the hand washing table 20 and the lifting seat 10 are relatively fixed, and the mixed water supply assembly 6 is only communicated with the shower head 21.

When water is used, the hand holds the adjusting dial block 431 to enable the adjusting dial block 431 to move upwards for a certain distance, the adjusting dial block 431 longitudinally moves to drive the adjusting rod 43 to longitudinally move, and the adjusting rod 43 moves to drive the extending column 422 to move to enable the second linkage rod 42 to longitudinally move. The second linkage rod 42 moves longitudinally such that the second socket 421 moves longitudinally, the second socket 421 moves longitudinally to drive the socket post 93 to move longitudinally to move the synchronizing plate 932 longitudinally, and the synchronizing plate 932 moves longitudinally to drive the mixing gear 633 to move longitudinally to drive the shaft 63. The driving shaft 63 moves longitudinally so that the sealing ball 632 is no longer in sealing abutment with the conical sealing hole 643, and water sequentially flows through the water inlet seat 3a, the mixing water inlet pipe 611, the mixing cylinder 61, the mixing water inlet pipe 641, the gating hole 822, the reversing water inlet hole 812 and the shower head pipe 813, enters the shower head 21, and flows out through the shower head 21. By adjusting the moving distance of the dial 431, the longitudinal moving distance of the driving shaft 63 is changed, and thus the gap area of the sealing ball 632 and the tapered sealing hole 643 is changed, that is, the water output of the shower head 21 is changed. After the water is completed, the adjustment dial 431 is moved downward to a lower limit position and the drive shaft 63 is moved downward so that the sealing ball 632 seals against the tapered sealing bore 643 and water no longer flows out of the showerhead 21.

When the shower function is used for adjusting the water temperature, the hand holds the adjusting dial block 431, so that the adjusting dial block 431 circumferentially rotates by a certain angle R3, the adjusting dial block 431 rotates to drive the adjusting rod 43 to circumferentially rotate so as to enable the first driving post 432 to circumferentially rotate, and the first driving post 432 circumferentially rotates to drive the first driven hole 442 to circumferentially rotate so as to enable the linkage pipe 44 to circumferentially rotate. The outer wall of the linkage tube 44 is slidably connected with the adjusting projection 412 on the first linkage rod 41 along the spiral groove 441 arranged on the spiral line, and the linkage tube 44 rotates circumferentially to enable the first linkage rod 41 to move longitudinally. The first linkage rod 41 longitudinally moves to drive the first plug connector 411 to longitudinally move, the first plug connector 411 longitudinally moves to drive the plug connector 92 to longitudinally move so as to enable the linkage post 922 to longitudinally move, and the linkage post 922 longitudinally moves to drive the extension driven groove 911 to longitudinally move so as to enable the linkage gear 91 to circumferentially rotate. The linkage gear 91 circumferentially rotates to drive the mixing gear 633 and thus the driving shaft 63 circumferentially rotates, and the driving shaft 63 circumferentially rotates to drive the adjusting disc 62 circumferentially, thereby changing the mixing ratio of the cold water and the hot water entering the mixing drum 61. The temperature of the water flowing out of the shower head 21 is changed by adjusting the rotation angle R3.

When the washing station 20 needs to be used again, both hands hold the left and right sides of the washing station 20, respectively, while pressing the push block 523 inward and holding it, so that the positioning frame 51 moves to the front limit position, the first spring 53 is compressed, the positioning column 5111 is not contacted with the positioning teeth 111 any more, the insertion block 92 is not contacted with the first link lever 41, and the insertion column 93 is not contacted with the second link lever 42. The hand washing table 20 is moved to a proper height, the positioning column 5111 is opposite to the adjusting rack 112, the pushing block 523 is loosened, the positioning frame 51 moves to a rear limit position under the elastic force of the first spring 53, and the positioning column 5111 is clamped with the adjusting rack 112, so that the hand washing table 20 and the lifting seat 10 are relatively fixed. The reversing lever 83 is not propped against the limit bump 102 any more, the reversing lever 83 moves upwards to the initial position under the action of the elastic force of the second spring 84, the reversing lever 83 slides upwards to drive the gating disc 82 to rotate, and then the gating port 822 is communicated with the faucet tube 814, the gating disc 82 seals the reversing water inlet 812, and the mixed water supply assembly 6 is only communicated with the faucet 22. Subsequently, the hand washing station 20 is used in the same manner as described above.

Similarly, when a rinse is desired and the rinse position is low, the toilet station 20 can be moved downward to the lower limit. The hands hold the left and right sides of the washing table 20 respectively, while pressing the push block 523 inward and holding it, the positioning frame 51 moves to the front limit position, the first spring 53 compresses, the positioning column 5111 no longer contacts the adjusting rack 112, the plug block 92 does not contact the first link 41, and the plug column 93 does not contact the second link 42. Moving the washing station 20 downwards to the lower limit position, the positioning column 5111 is opposite to the positioning teeth 111 positioned below, the plug-in block 92 is opposite to the first plug-in port 411 positioned below, the plug-in column 93 is opposite to the second plug-in port 421 positioned below, the washing station 20 moves downwards to enable the reversing lever 83 to prop against the limit bump 102 positioned below and enable the reversing lever 83 to slide upwards to the upper limit position, and the second spring 84 stretches the power. The reversing lever 83 slides upwards to drive the selector plate 82 to rotate circumferentially to seal the faucet tube 814, and the gate 822 is in communication with the other reversing inlet 812. The pushing block 523 is released, the positioning frame 51 moves to the rear limit position under the elastic force of the first spring 53, and the positioning column 5111 is clamped with the positioning teeth 111 positioned below, so that the hand washing table 20 and the lifting seat 10 are relatively fixed. The plug-in block 92 enters into the first plug-in port 411, the plug-in column 93 enters into the second plug-in port 421, at this time, the water supply amount and the temperature are adjusted by adjusting the shifting block 431, the shower head 21 is positioned below, and when the feet are washed or other washing is carried out, water can be prevented from splashing around, and meanwhile, the operation of bending down is not needed, so that the shower head is simple and convenient to use.

According to the invention, by arranging the hand washing table 20, the hand washing table 20 can be used as a hand washing tank and a shower head, when the positioning column 5111 is clamped with the positioning teeth 111 positioned above, the hand washing table 20 is positioned at the upper limit position, and the shower head 21 is communicated with the mixed water supply assembly 6, so that a shower function can be used; when the positioning column 5111 is positioned in the middle and the adjusting rack 112 is propped against, the hand washing table 20 is positioned in the middle, the water faucet 22 is communicated with the mixed water supply assembly 6, the function of the water faucet can be used, and meanwhile, the positioning column 5111 can be clamped with different positions on the adjusting rack 112, so that the height of the hand washing table 20 is changed, the use requirements of different heights are met, and the use is more convenient and simple; when the positioning column 5111 is clamped with the positioning teeth 111 positioned below, the hand washing table 20 is positioned at the lower limit position, the shower head 21 is communicated with the mixed water supply assembly 6, feet can be washed, the washing position is low, water is prevented from splashing around, meanwhile, long-term bending operation is not needed, and the use is simple and convenient.

According to the invention, by arranging the linkage adjusting component 4, when the adjusting dial block 431 longitudinally moves, the adjusting rod 43 longitudinally moves to drive the second linkage rod 42 to move, the second linkage rod 42 moves to drive the inserting column 93 to longitudinally move, the inserting column 93 longitudinally moves to drive the driving shaft 63 to longitudinally move, so that the area of a gap between the sealing ball 632 and the conical sealing hole 643 is changed, and the water supply amount of the mixed water supply component 6 can be changed; when the adjusting dial block 431 circumferentially rotates, the adjusting lever 43 circumferentially rotates to drive the linkage tube 44 to circumferentially rotate, the linkage tube 44 circumferentially rotates to drive the first linkage rod 41 to longitudinally move, the first linkage rod 41 longitudinally moves to enable the plug block 92 to longitudinally move, the plug block 92 longitudinally moves to drive the linkage gear 91 to circumferentially rotate, the linkage gear 91 circumferentially rotates to enable the driving shaft 63 to circumferentially rotate, then the adjusting disc 62 circumferentially rotates, the proportion of cold water and hot water entering the mixing drum 61 is changed, the water supply temperature of the mixed water supply assembly 6 can be changed, the hand washing table 20 is located at the upper limit position or the lower limit position, the water supply amount and the water supply temperature of the mixed water outlet assembly 6 can be adjusted through the adjusting dial block 431, bending or ascending operation is not needed, and the use is simple and convenient.

According to the invention, by arranging the positioning assembly 5, when the positioning frame 51 moves to the front limit position, the positioning column 5111 is not contacted with the positioning plate 11 any more, meanwhile, the plug-in block 92 is not contacted with the first linkage rod 41, the plug-in column 93 is not contacted with the second linkage rod 42, and the wash basin 20 can move longitudinally, so that a shower bath or a wash basin can be switched to use; when the positioning frame 51 moves to the rear limit position, the positioning column 5111 is clamped with the positioning plate 11, so that the hand washing table 20 and the lifting seat 10 are relatively fixed; meanwhile, the plug-in block 92 can be plugged with the first plug-in port 411, the plug-in column 93 can be plugged with the second plug-in port 421, and then the water supply amount and the water supply temperature of the mixed water supply assembly 6 can be adjusted through the adjusting block 431, and the positioning assembly 5 is simple in structure and convenient to use.

According to the invention, the reversing assembly 8 is arranged, when the wash basin 20 is positioned in the middle, the reversing lever 83 is positioned in the middle, the gate 822 is only communicated with the faucet pipe 814, and the mixed water supply assembly 6 only supplies water to the faucet 22, so that the wash basin can be used as a wash basin; when the hand washing table 20 moves to the upper end or the lower end limiting position, the reversing rod 83 is abutted against the limiting projection 102, so that the reversing rod 83 moves to the end limiting position, the reversing rod 83 moves to drive the gating disc 82 to rotate, and then the gating port 822 is only communicated with the reversing water inlet 812, namely, the mixed water supply assembly 6 only supplies water to the shower head 21, thereby shower or foot flushing can be performed, and the function switching can be completed only by moving the position of the hand washing table 20 without adding new operation in the switching process, so that the hand washing table is simple and convenient to use.

The hand washing device can be used as a hand washing groove, and the height of the hand washing table is adjustable, so that the hand washing device can be suitable for users with different heights, and is more comfortable and convenient to use; the shower head can be used as a shower, and when the wash platform moves to the upper limit position, the shower head can supply water, so that the shower head can be used as a shower, and only one set of cold and hot water pipes is required to be paved, thereby saving the construction cost; the foot washing machine can wash feet, when the hand washing platform moves to the lower limit position, the shower head can supply water to wash feet, water is prevented from splashing around, the hand washing machine does not need to be bent for a long time, and the use is simple and convenient.

Claims (8)

1. A shower cabinet, characterized in that: comprises a lifting seat and a hand washing table longitudinally connected in front of the lifting seat in a sliding way; the upper part of the hand washing table is fixedly connected with a faucet; the lower part of the hand washing table is fixedly connected with a shower head; a mixed water supply assembly for supplying water to the faucet and the shower head respectively is arranged in the wash stand; a water inlet and water supplying seat for supplying cold water and hot water to the mixed water supply assembly is arranged in the wash stand; the lifting seat is provided with a linkage adjusting component for controlling the water supply temperature and the water supply quantity of the mixed water supply component; the linkage adjusting assembly comprises a first linkage rod, a second linkage rod, a linkage pipe and an adjusting rod, wherein the first linkage rod is connected in the lifting seat in a sliding manner and used for controlling the water supply temperature of the mixed water supply assembly, the second linkage rod is connected in the lifting seat in a sliding manner and used for controlling the water supply amount of the mixed water supply assembly, the linkage pipe is connected in the lifting seat in a rotating manner and used for driving the first linkage rod to slide, and the adjusting rod is connected in the lifting seat in a sliding manner and used for driving the second linkage rod to slide; the adjusting rod circumferentially rotates to drive the linkage pipe to synchronously circumferentially rotate; when the adjusting rod circumferentially rotates, the linkage pipe circumferentially rotates, and the first linkage rod slides, so that the water supply temperature of the mixed water supply assembly can be changed; when the adjusting rod axially slides, the linkage pipe does not move, and the second linkage rod slides, so that the water supply amount of the mixed water supply assembly can be changed;

The mixed water supply assembly comprises a mixing drum fixedly connected in the hand washing table and communicated with the water inlet water supply seat, a regulating disc rotatably connected in the mixing drum and used for controlling water supply temperature, a driving shaft slidingly connected in the mixing drum and used for controlling water supply quantity, and an upper sealing cover fixedly connected to the upper end of the mixing drum and respectively communicated with the faucet and the shower head; the driving shaft rotates circumferentially to drive the adjusting disc to synchronously rotate circumferentially; a linkage assembly capable of driving the driving shaft to circumferentially rotate and axially slide is arranged in the hand washing table; the linkage assembly comprises a linkage gear which is rotationally connected in the wash platform and is in transmission connection with the driving shaft and used for driving the driving shaft to circumferentially rotate, an inserting block which is longitudinally and slidably connected in the wash platform and used for driving the linkage gear to circumferentially rotate, and an inserting column which is longitudinally and slidably connected in the wash platform and used for driving the driving shaft to axially slide; the first linkage rod can drive the plug-in blocks to synchronously slide longitudinally; the second linkage rod can drive the plug-in column to synchronously slide longitudinally; when the first linkage rod drives the plug blocks to synchronously slide, the linkage gear rotates, and the driving shaft circumferentially rotates, so that the water supply temperature of the mixed water supply assembly is changed; when the second linkage rod drives the plug-in columns to slide synchronously, the linkage gear does not rotate the driving shaft to slide axially, so that the water supply amount of the mixed water supply assembly is changed;

A positioning assembly for fixing the wash platform and the lifting seat relatively is arranged in the wash platform; the positioning assembly comprises a positioning frame which is connected in the hand washing table in a sliding way along the front-back direction and a driving plate which is connected in the hand washing table in a sliding way and is used for driving the positioning frame to slide; a positioning plate is fixedly connected to one side, facing the hand washing table, of the lifting seat; a positioning column which can be clamped with the positioning plate is formed on one side of the positioning frame, which faces the lifting seat; when the driving plate is positioned at the outer limit position, the positioning frame is positioned at the rear limit position, and the positioning column can be clamped with the positioning plate, so that the hand washing table and the lifting seat are relatively fixed; when the driving plate is located at the inner limit position, the locating frame is located at the front limit position, the locating frame is not in contact with the locating plate, and the wash platform can longitudinally slide.

2. A shower cabinet as claimed in claim 1, wherein: a reversing assembly for switching the water supply direction of the mixed water supply assembly is arranged in the wash stand; the reversing assembly comprises a reversing box fixedly connected in the hand washing table, a gating disc rotatably connected to the outer wall of the reversing box and reversing rods which are slidably connected to the two ends in the hand washing table and respectively penetrate out of the hand washing table and are used for driving the gating disc to rotate; the upper end and the lower end of one side, facing the hand washing table, of the lifting seat are respectively provided with a limiting lug which can prop against the reversing rod to drive the reversing rod to slide; two reversing water inlets communicated with the shower head are formed in the reversing box close to the outer wall of the gating disc; the reversing box is close to the outer wall of the gating disc and is provided with a faucet pipe communicated with the faucet; the gating disc can seal the reversing water inlet and the faucet pipe; a gating port which can be communicated with the reversing water inlet and the faucet pipe is formed on the gating disc; the mixed water supply assembly supplies water to the gate; when the wash platform is positioned at the non-two-end limiting positions, the limiting protruding blocks are not contacted with the reversing rod, the reversing rod is positioned at the initial position, the gating port is only communicated with the faucet pipe, and the mixed water supply assembly can only supply water to the faucet; when the wash platform is located at the upper end or the lower end limit position, the limit protruding blocks are propped against the reversing rod to enable the reversing rod to be located at the end limit position, the gate port is only communicated with the reversing water inlet hole, and the mixed water supply assembly can only supply water to the shower head.

3. A shower cabinet as claimed in claim 1, wherein: the positioning frame is provided with a frame for driving the plug blocks and the plug columns to slide back and forth; a first plug-in interface which can be plugged with the plug-in blocks is formed at the upper end and the lower end of one side, facing the hand washing table, of the first linkage rod; a second plug-in port which can be plugged with the plug-in column is formed at the upper end and the lower end of one side, facing the hand washing table, of the second linkage rod; when the driving plate is positioned at the outer limit position, the first plug-in connector is plugged with the plug-in block, the first linkage rod moves to drive the plug-in block to synchronously longitudinally slide, the second plug-in connector is plugged with the plug-in column, and the second linkage rod moves to drive the plug-in column to synchronously longitudinally slide; when the driving plate is located at the inner limit position, the first plug-in interface is not contacted with the plug-in block, and the second plug-in interface is not contacted with the plug-in column.

4. A shower cabinet as claimed in claim 1, wherein: positioning teeth capable of limiting the movement of the positioning column are respectively formed at the upper end and the lower end of one side, facing the hand washing table, of the positioning plate; an adjusting rack capable of limiting the movement of the positioning column is formed in the middle of one side of the lifting seat, which faces the hand washing table; the adjusting rack can enable the hand washing table to be fixed at different heights; when the positioning column is clamped with the positioning teeth, the hand washing table is positioned at the limit position of the upper end or the lower end, and the mixed water supply assembly supplies water to the shower head, so that a shower function or foot flushing can be used; when the locating column with adjust rack joint, the wash platform is located non-both ends extreme position, mixed water supply assembly for tap water supply, and then can use the wash bowl function and can be according to user's height adjustment wash platform to different co-altitude.

5. A shower cabinet as claimed in claim 1, wherein: the outer wall of the mixing cylinder is provided with two mixing water inlet pipes communicated with the inside of the mixing cylinder; the water inlet and water inlet seat is used for respectively supplying hot water and cold water to the corresponding mixed water inlet pipe; the adjusting disc can seal the mixing water inlet pipe; the side wall of the adjusting disc is provided with two water permeable holes which are communicated with the corresponding mixing water inlet pipes respectively and used for enabling water to enter the mixing drum; when the communication area between one water permeable hole and the corresponding mixed water inlet pipe is increased, the communication area between the other water permeable hole and the corresponding mixed water inlet pipe is reduced.

6. A shower cabinet as defined in claim 5, wherein: the lower end of the upper sealing cover is positioned at the periphery of the driving shaft and is provided with a conical sealing hole for supplying water to the outside; a sealing ball capable of being tightly abutted against the conical sealing hole is formed on the periphery of the driving shaft; when the driving shaft rotates circumferentially, the adjusting disk rotates circumferentially, the communication area between each water permeable hole and the corresponding mixed water inlet pipe is changed, so that the proportion of cold water and hot water entering the mixing drum is changed, and the water supply temperature of the mixed water supply assembly is adjusted; when the driving shaft axially slides, the gap area between the sealing ball and the tapered sealing hole is changed, thereby changing the water supply amount of the mixed water supply assembly.

7. A shower cabinet as claimed in claim 1, wherein: the upper part of the washing table is provided with an adjusting component for controlling the water supply temperature and the water supply quantity of the mixed water supply component; the adjusting component comprises a rotating disc which is connected with the upper part of the hand washing table in a rotating way and is longitudinally arranged and used for driving the driving shaft to synchronously and circumferentially rotate, and a handle which is horizontally arranged and used for driving the driving shaft to axially slide and is rotatably connected with the rotating shaft at the upper end of the rotating disc.

8. A shower cabinet as defined in claim 7, wherein: the rotating shaft of the handle is positioned at a position far away from the driving shaft; a driving rod connected with the driving shaft is fixedly connected to the middle part of the lower end of the handle; when the handle rotates circumferentially, the rotating disc rotates circumferentially, so that the driving shaft rotates circumferentially, and further the water supply temperature of the mixed water supply assembly is changed; when the handle rotates up and down, the driving shaft slides axially, so that the water supply amount of the mixed water supply assembly is changed.