CN109758020B - Intelligent toilet lid and toilet bowl thereof - Google Patents

Abstract

The invention discloses an intelligent toilet cover and a toilet bowl thereof, which relate to the technical field of toilets and are technically characterized in that: it comprises: a base provided with a control board, a seat ring which can rotate relative to the base and is provided with a heating mechanism, a cover plate which can rotate relative to the base and a control piece; the control piece and the electric control mechanism are electrically connected to the control board; the seat ring is arranged on the two sides along the axial direction, the seat ring rotating shaft part and the cover plate are arranged on the two sides along the axial direction, the seat ring rotating shaft part and the cover plate rotating shaft part which are arranged on the same side along the axial direction are connected with a shaft seat between the base, the shaft seat is provided with a first wiring channel which is arranged between the control piece and the control board, and a first control wire which is used for electrically connecting the control piece and the control board comprises a first extension section which is arranged in the first wiring channel. The invention has the advantages of compact internal structure, capability of protecting the control line, better space utilization rate and more concise and attractive cover appearance, and provides various wiring modes of the control line.

Description

Intelligent toilet lid and toilet bowl thereof

Technical Field

The invention relates to the technical field of bathroom equipment, in particular to an intelligent toilet cover and a toilet thereof.

Background

The intelligent toilet originates in the united states for medical and geriatric care, and is initially provided with a warm water washing function. After that, through korea, the bathroom companies in japan gradually introduced technology to start manufacturing, and added with various functions such as heating of the toilet cover, warm water washing, warm air drying, sterilization, etc. The intelligent toilets in the market at present are generally divided into three types, namely an intelligent toilet with cleaning, heating, sterilizing and the like, an intelligent toilet with automatic sleeve changing and cleaning functions.

The control lines such as heating, seating induction and the like inside the seat ring of the existing intelligent toilet cover plate directly penetrate through the seat ring rotating shaft to be connected to the control board in the base, meanwhile, the seat ring rotating shaft needs to be connected with the seat ring damper, and the seat ring rotating shafts on two sides of the base are respectively used for penetrating the control lines and connecting the seat ring damper. The rotary shaft of the upper cover is usually provided with a knob, a control line of the knob needs to penetrate through the rotary shaft of the upper cover to be connected with a control board in the base, the rotary shaft of the upper cover is connected with an upper cover damper, and the rotary shaft of the upper cover and the rotary shaft of the seat ring are usually staggered.

Because the wiring of the knob control piece in the existing intelligent toilet cover plate is generally directly configured in the cover plate rotating shaft, the wiring mode is single, and how to make the knob wiring more diversified is one of the consideration points of the design of the intelligent toilet cover, and the application is specifically proposed in view of the consideration points.

Disclosure of Invention

Aiming at the prior art, the invention aims to provide an intelligent toilet cover and a toilet thereof, which are used for solving the problems, and have the advantages of compact structure, concise appearance, better utilization of the inner space of the toilet cover and effective protection of the inner control line, and can provide various wiring modes of the control line.

In order to achieve the above purpose, the present invention provides the following technical solutions:

an intelligent toilet lid comprising: the seat ring can rotate relative to the base and is provided with an electric control mechanism, the cover plate can rotate relative to the base and the control piece; the control piece and the electric control mechanism are electrically connected to the control board; the seat ring is coaxially arranged with a pair of seat ring rotating shaft parts axially positioned at two sides and a pair of cover plate rotating shaft parts axially positioned at two sides, a shaft seat is connected between the seat ring rotating shaft part and the cover plate rotating shaft part axially positioned at the same side and the base, the shaft seat is provided with a first wiring channel positioned between the control piece and the control board, and a first control wire for electrically connecting the control piece and the control board is arranged in the first wiring channel;

the wire outlet of the first wire channel (50) is radially opened so as to be communicated with the outer peripheral wall and the inner peripheral wall of the shaft seat (5); the peripheral wall of the shaft seat (5) is provided with a yielding plane (51), and the yielding plane (51) and the control piece (4) are axially positioned at two sides of the outlet; the yielding plane (51) forms a yielding space for accommodating the first control wire (40) with the inner wall surfaces of the first seat ring rotating shaft part (21) and the first cover plate rotating shaft part (31) when the shaft seat (5) moves along the axial direction.

Further, the shaft seat can be switched between a sleeved state and an unslotted state in a mode of moving relative to the seat ring rotating shaft part and the cover plate rotating shaft part along the axial direction; the first control line can be driven by the shaft seat and is switched between an extending state and a buckling state.

Further, the wire outlet of the first wire channel is radially opened to be communicated with the outer peripheral wall and the inner peripheral wall of the shaft seat; the outer peripheral wall of the shaft seat is provided with a yielding plane, and the yielding plane and the control piece are axially positioned at two sides of the outlet; the yielding plane forms a yielding space for accommodating the first control wire with the inner wall surfaces of the seat ring rotating shaft part and the cover plate rotating shaft part when the shaft seat moves along the axial direction.

Further, a cover plate damper for limiting the rotation position of the cover plate is arranged on the base, and the rotation end of the cover plate damper is connected with the shaft seat; the cover plate rotating shaft part sleeved on the shaft seat drives the shaft seat to rotate along with the shaft seat.

Further, a seat ring damper for limiting the rotation position of the seat ring is arranged on the base, and the rotation end of the seat ring damper is connected with the other seat ring rotating shaft part through a transmission piece; the transmission piece is provided with a second wiring channel positioned between the heating mechanism and the control board, and a second control wire used for electrically connecting the heating mechanism and the control board comprises a second extension section arranged in the second wiring channel.

Further, a seat ring damper for limiting the rotation position of the seat ring is arranged on the base, and the rotation end of the seat ring damper is connected with the rotation shaft part of the other seat ring; the rotating end of the seat ring damper is provided with a third wiring channel positioned between the heating mechanism and the control board, and a second control wire used for electrically connecting the heating mechanism and the control board comprises a third extension section arranged in the third wiring channel.

Further, the cover plate damper for limiting the rotation position of the cover plate and the seat ring damper for limiting the rotation position of the seat ring are the same coaxial damper arranged on the base; the first rotating end of the coaxial damper is connected with the other seat ring rotating shaft part, and the second rotating end of the coaxial damper is connected with the other cover plate rotating shaft part.

Further, a second control wire for electrically connecting the heating mechanism and the control board is extended out from the seat ring rotating shaft part sleeved on the shaft seat so as to be electrically connected with the control board.

Further, a rotating end of the cover plate damper for limiting the rotating position of the cover plate is provided with a fourth wiring channel communicated with the first wiring channel, and the fourth wiring channel is communicated with the first wiring channel and the base.

Further, a cover plate damper for limiting the rotation position of the cover plate is arranged on the base, and the rotation section of the cover plate damper and the shaft seat are of an integrated structure.

The invention also provides the following technical scheme:

an intelligent toilet comprises a toilet body and an intelligent toilet cover arranged at the upper end of the toilet body, wherein the intelligent toilet cover is any one of the intelligent toilet covers.

Compared with the prior art, the invention has the beneficial effects that:

1. the shaft seat can be used as a common rotating shaft of the rotating shaft part of the seat ring and the rotating shaft part of the cover plate and an installation carrier of the control piece, and a first wiring channel formed in the shaft seat can provide a moving space for the first control wire, so that the first extending section, the rotating shaft part of the seat ring and the rotating shaft part of the cover plate are avoided, do not interfere with each other, the stability of the electric connection between the control piece and the control board is improved, and the purposes of compact structure of the inner part of the toilet cover and protecting the control wire are realized; meanwhile, the seat rings on the same side are coaxially connected with the cover plate through the shaft seat, so that the rotating space of the toilet cover can be saved, the connection of all rotating parts is tighter, the better space utilization rate is achieved, a wiring mode different from a control line in the prior art is provided, and the appearance of the toilet cover is more concise and attractive;

2. the cover plate damper rotating end, the shaft seat and the cover plate rotating shaft part are relatively fixed, and when the cover plate rotates, the shaft seat and the cover plate damper rotating end rotate along with the shaft seat, and the force of the cover plate damper is transmitted to the cover plate rotating shaft part through the shaft seat, so that the cover plate has a slow descending function;

3. the rotating end of the seat ring damper, the transmission piece and the seat ring rotating shaft part are relatively fixed, when the seat ring rotating shaft part rotates, the transmission piece and the rotating end of the seat ring damper are driven, and at the moment, the force of the seat ring damper is transmitted to the seat ring rotating shaft part through the transmission piece, so that the seat ring has a descent control function; the second wiring channel is used for the second control wire to pass through so as to avoid interference between the second control wire and other parts and improve the stability of the electric connection between the heating mechanism and the control board; secondly, when the seat ring rotates, the second wiring channel can provide a movement space for the second control line to rotate along with the seat ring, so that the aim of protecting the second control line while the seat ring rotates is fulfilled; 4. the rotating end of the seat ring damper is fixed relative to the seat ring rotating shaft part, and when the seat ring rotating shaft part rotates to drive the seat ring damper to rotate, the resistance of the seat ring damper is transmitted to the seat ring rotating shaft part so that the seat ring has a descent control function; a third wiring channel in the seat ring damper is used for providing a space for the second control wire to pass through and move, so that unstable connection between the heating mechanism and the control board due to interference between the second control wire and other components is avoided; in addition, the seat ring damper with the wiring channel can reduce the connecting parts arranged between the seat ring rotating shaft part and the seat ring damper under the condition of normal rotation, and reduce the cost of the toilet cover;

5. the first rotating end and the second rotating end of the coaxial damper can rotate relatively and do not interfere with each other, and when the first rotating end rotates along with the rotation of the seat ring rotating shaft part, the resistance of the coaxial damper is transmitted to the seat ring rotating shaft part through the first rotating end, so that the seat ring has a descent control function; the second rotating end transmits resistance to the rotating shaft part of the cover plate when the cover plate rotates, so that the cover plate has a slow descending function; the coaxial damper combines the seat ring damper and the cover plate damper, so that the cover plate and the seat ring have slow descending functions, parts arranged in the base are reduced, more utilization space is provided in the base, and the cost can be saved; 6. the fourth wiring channel is matched with the first wiring channel, so that the installation of the shaft seat is convenient, the stability of connection between the control piece and the control board and the electric connection performance in the shaft seat installation process can be improved, a yielding space for the first control wire to move is not required to be arranged on the shaft seat, and the installation difficulty is reduced;

7. when the cover plate rotating shaft part and the seat ring rotating shaft part are arranged in different axes, the rotating end of the cover plate damper serves as the rotating part of the cover plate and the base and a wiring channel of a first control wire which is electrically connected with the control piece is provided, so that the first control wire is not easy to interfere with other parts in the process of overturning along with the cover plate, the connection stability is improved, and various wiring modes of the control wire of the control piece are provided to protect the control wire.

Drawings

FIG. 1 is an overall schematic view of an intelligent toilet lid of the present invention;

FIG. 2 is an exploded view of the intelligent toilet lid of the present invention;

FIG. 3 is another exploded view of the intelligent toilet lid of the present invention;

FIG. 4 is a schematic cross-sectional view of A-A of FIG. 1;

FIG. 5 is a schematic cross-sectional view of the hub of FIG. 4 in a mounted state with a first control wire;

FIG. 6 is a schematic cross-sectional view of a second embodiment;

FIG. 7 is a schematic cross-sectional view of the first race spindle portion of FIG. 6C-C;

fig. 8 is a schematic cross-sectional view of the third embodiment;

fig. 9 is a schematic cross-sectional view of the fourth embodiment;

fig. 10 is a schematic cross-sectional view of the fifth embodiment;

fig. 11 is a schematic cross-sectional view of a sixth embodiment;

fig. 12 is a schematic bottom view of the intelligent toilet lid according to the seventh embodiment;

fig. 13 is an overall schematic diagram of the novel intelligent toilet bowl of the present embodiment.

Reference numerals: 1. a base; 10. a toilet body; 11. an intelligent toilet lid; 12. a water tank; 2. a seat ring; 20. a seat; 21. a first race spindle portion; 210. a threading hole; 22. a second race spindle portion; 23. a race damper; 230. a third wiring channel; 24. a second control line; 241. a second extension; 242. a second fixed section; 243. a third extension; 244. a third fixed section; 3. a cover plate; 30. a cover portion; 31. a first cover plate rotating shaft portion; 32. a second cover plate rotating shaft portion; 33. a cover plate damper; 330. a fourth wiring channel; 331. a fifth wiring channel; 332. a sixth wiring channel; 4. a control member; 40. a first control line; 401. a first extension; 402. a first fixed section; 5. a shaft seat; 50. a first routing channel; 51. a yielding plane; 52. damping plug-in section; 53. an intermediate section; 54. a control member connection section; 6. a fixing seat; 7. a transmission member; 70. a second wiring channel; 8. a retaining member; 9. a coaxial damper; 91. a first rotating end; 92. and a second rotating end.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 11 and the embodiments, and it should be noted that, for convenience of understanding, the portions shown in fig. 6 to 11 are different, and other structures not shown are the same as those shown in fig. 4.

Embodiment one:

referring to fig. 1 to 3, an intelligent toilet cover comprises a base 1, a seat ring 2 and a cover plate 3 rotatably connected with the base 1, and a control member 4 arranged at the rotation positions of the base, the cover plate and the seat ring. The base 1 is formed by splicing an upper shell and a lower shell, and a control board, a flushing mechanism and a drying mechanism are arranged in the base 1. The seat ring is formed by splicing an upper shell and a lower shell, and an electric control mechanism is arranged in the seat ring and is a heating mechanism or a seating induction mechanism or both. Referring to fig. 4, the control member 4 is electrically connected to the control board by a first control line 40, the heating mechanism is electrically connected to the control board by a second control line 24, and the control member is a control knob. The pipelines for matching the water inlet pipe and the like are not shown in the drawings, and the flushing amount of the flushing mechanism can be controlled when the control knob rotates. The side end of the control knob of the embodiment is provided with a button which can be designed to control the opening and closing of the electric control mechanism according to the requirement. It is easy to understand that, according to the product requirement, the heating mechanism, the sitting induction mechanism or the drying mechanism can be designed to be regulated and controlled by a control knob, and the specific control method refers to the patent document with the application number 201810102130.4, and the heating mechanism, the flushing mechanism and the sitting induction mechanism are all in the prior art and are not described herein again. It should be noted that the control element of the present application is not limited to the control knob, and may be a common control element such as a touch pad.

Referring to fig. 1 and 3, the seat 2 and the cover plate 3 are both disposed above the base 1, and the seat 2 is located between the cover plate 3 and the base 1. The seat ring 2 and the cover plate 3 are both connected to the upper end of the base 1 in a rotating way along the same axial direction. The seat ring 2 comprises a seat 20, a first seat ring rotating shaft part 21 and a second seat ring rotating shaft part 22 which are respectively arranged at two sides of the rotating position of the seat ring 2 along the axial direction, and the first seat ring rotating shaft part 21 and the second seat ring rotating shaft part 22 are hollow annular. The cover plate 3 comprises a cover part 30 covered on the upper end of the seat part 20, a first cover plate rotating shaft part 31 and a second cover plate rotating shaft part 32 which are respectively arranged on two sides of the rotating position of the cover plate 3 along the axial direction, wherein the first cover plate rotating shaft part 31 is hollow and annular, and the second cover plate rotating shaft part 32 is provided with an annular bulge.

Referring to fig. 4 and 5, the first seat ring rotating shaft portion 21 and the first cover plate rotating shaft portion 31 on the same side are coaxially connected through a shaft seat 5, and the shaft seat 5 is composed of a damping connecting section 52, a middle section 53 and a control member connecting section 54. The shaft seat 5 sequentially passes through the first cover plate rotating shaft portion 31 and the first race rotating shaft portion 21 in the direction from the outside to the inside of the cover plate 3 in the axial direction of the first cover plate rotating shaft portion 31. One end of the shaft seat 5 is connected with a cover plate damper 33 for limiting the rotation position of the cover plate 3, the rotation end of the cover plate damper 33 is fixedly inserted into a damping connecting section 52 of the shaft seat 5, the cover plate damper 33 is fixedly connected with a fixing seat 6, and the fixing seat 6 is fixedly connected to the upper side of the base 1 through bolts.

Referring to fig. 3 and 4, specifically, the first cover rotating shaft portion 31 is sleeved on the outer side of the control member connecting section 54 of the shaft seat 5 along the axial direction and is fixed relative to the shaft seat 5, so as to drive the shaft seat 5 to rotate. The first seat ring rotating shaft portion 21 is sleeved on the middle section 53 of the shaft seat 5, the end portion, close to the first cover plate rotating shaft portion 31 along the axial direction, of the first seat ring rotating shaft portion 21 is clamped between the shaft seat 5 and the first cover plate rotating shaft portion 31, the other end of the first seat ring rotating shaft portion is clamped between the base 1 and the shaft seat 5, and the first cover plate rotating shaft portion 31, the shaft seat 5 and the base 1 limit the movement of the first seat ring rotating shaft portion 21 in the direction perpendicular to the axial direction, so that the first seat ring rotating shaft portion 21 can rotate circumferentially around the axis of the shaft seat 5. The rotating end of the cover plate damper 33, the shaft seat 5 and the first cover plate rotating shaft part 31 are relatively fixed, and the force of the cover plate damper 33 is transmitted to the first cover plate rotating shaft part 31 through the shaft seat 5, so that the cover plate 3 has a descent control function. One end of the shaft seat 5, which is far away from the cover plate damper 33, is connected with the control member 4, the control member 4 can rotate relative to the shaft seat 5, and the shaft seat 5 and the control member 4 cooperate to limit the forward and backward movement of the first cover plate rotating shaft portion 31 and the first seat ring 2 along the axial direction so as to ensure the connection tightness of each rotating part and the base 1.

Referring to fig. 2 to 5, a first routing channel 50 is provided inside the shaft seat 5 along the axial direction thereof, the first routing channel 50 being threaded by a first control wire 40 of the control board and being connected with the control piece 4, and an outlet of the first routing channel 50 is provided along the radial direction to communicate with an outer peripheral wall and an inner peripheral wall of the shaft seat 5, the outer peripheral wall of the shaft seat 5 has a yielding plane 51, and the yielding plane 51 and the control piece 4 are axially located at two sides of the outlet. The yielding plane 51 forms a yielding space for accommodating the first control wire 40 with the inner wall surfaces of the first seat ring rotating shaft portion 21 and the first cover plate rotating shaft portion 31 when the shaft seat 5 moves along the axial direction. The specific function of the yield space is described as follows: the control member 4 of the present embodiment is disposed on the shaft seat 5, and when the control member 4 is installed, the first fixing section 402 is electrically connected with the control member 4 first; further, the shaft seat 5 sequentially passes through the first cover plate rotating shaft portion 31 and the first seat ring rotating shaft portion 21 to complete the installation; when removed, the procedure is reversed. Based on the above description, the shaft seat 5 is capable of being switched between the sleeved state and the non-sleeved state in such a manner as to be movable in the axial direction with respect to the first race spindle portion 21 and the first cover plate spindle portion 31. Accordingly, the first control wire 40 can be driven by the shaft seat 5 to switch between an extended state and a buckling state, so as to avoid the situation that the cover plate and the seat ring are stressed excessively to break when rotating. The first control wire 40 may be not only a conventional flexible and inelastic electrical connection wire, but also an electrical connection wire having a certain elastic deformation capability, which is used to avoid entanglement in a flexed state to affect subsequent removal. When the shaft seat 5 is axially movable without forming the yielding plane, the outer wall surface thereof is close to the inner wall surfaces of the first seat ring rotating shaft 21 and the first cover plate rotating shaft 31, which clamps the first control wire 40, and the first control wire 40 may cause the shaft seat 5 not to normally axially move, that is, under the condition that the yielding plane is not formed, since the diameter of the first control wire 40 plus the diameter of the shaft seat 5 is larger than the diameter of the seat ring rotating shaft, the first control wire 40 is limited by the seat ring rotating shaft during the installation of the shaft seat 5 and is difficult to install. The shaft seat 5 with the abdication plane 51 can provide an abdication space for the first control line 40 when the first control line 40 is inserted into the first seat ring rotating shaft part 21 and the first cover plate rotating shaft part 31 along with the shaft seat 5, and can also provide a movable space for the first control line 40 so as to ensure good electric connection between the control board and the control piece 4. However, in another embodiment, if the axle seat 5 is not axially movable to switch between the sleeved state and the non-sleeved state, the relief plane 51 may not be provided, for example, the first cover rotating shaft 31 and the first seat rotating shaft 21 may be configured to be detachably sleeved on the axle seat 5. In another embodiment, if the outlet of the first routing channel 50 is not radially opened on the side wall of the shaft seat 5, the relief plane 51 may not be provided, for example, the outlet of the first routing channel 50 is axially opened on the opposite side of the shaft seat 5 from the control member.

The shaft seat 5 with the first wiring channel 50 can be used as a common rotating shaft of the seat ring rotating shaft part and the cover plate rotating shaft part on the same side and an installation carrier of the control piece 4, so that the first extending section 401 of the first control wire 40 is avoided from the seat ring rotating shaft part and the cover plate rotating shaft part, and the first extending section 401, the seat ring rotating shaft part and the cover plate rotating shaft part are not mutually interfered, and the stability of the electrical connection between the control piece 4 and the control board is improved.

The first control line 40 includes a first extension section 401 penetrating through the first routing channel 50 and a first fixing section 402 fixed inside the base 1, where the first extension section 401 moves along with the overturning of the cover plate 3, in order to avoid interference between the moving first control line 40 and other components inside the base 1, the first fixing section 402 disposed outside the first routing channel 50 is fixedly connected to the fixing seat 6 outside the cover plate damper 33, and in addition, the first fixing section 402 may also be fixed on other fixed components inside the base 1, which is not specifically shown here.

Referring to fig. 3 and 4, the second seat ring rotating shaft portion 22 and the second cover plate rotating shaft portion 32 on the other side opposite to the shaft seat 5 are coaxially connected through a transmission member 7, and a seat ring damper 23 for limiting the rotating position of the seat ring 2 is connected to one end of the transmission member 7 away from the second seat ring rotating shaft portion 22. The seat ring damper 23 is fixed inside the base 1 through another fixed seat 6 fixedly connected to the upper side of the base 1, and the seat ring damper 23 and the cover plate damper 33 are symmetrically arranged about the center line of the seat ring 2. The rotating end of the seat ring damper 23 is connected with the second seat ring rotating shaft portion 22 through the transmission member 7, specifically, one end of the second seat ring rotating shaft portion 22 is sleeved on the outer peripheral side of the transmission member 7 and fixedly connected with the transmission member 7, and the other end of the second seat ring rotating shaft portion 22 is sleeved on the outer side of the second cover plate rotating shaft portion 32 and can rotate relative to the second cover plate rotating shaft portion 32. The rotating end of the seat ring damper 23, the transmission member 7 and the second seat ring rotating shaft part 22 are relatively fixed, and the force of the seat ring damper 23 is transmitted to the second seat ring rotating shaft part 22 through the transmission member 7, so that the seat ring 2 has a descent control function. In addition, in order to avoid the possibility that the second race spindle portion 22 is separated from the protruding end of the second cover spindle portion 32 in the axial direction, a retaining member 8 is provided between the second race spindle portion 22 and the second cover spindle portion 32, one end of the retaining member 8 is fixed to the middle portion of the second cover spindle portion 32 in the axial direction, and the other end is located in front of the end portion of the second race spindle portion 22.

The transmission member 7 is internally provided with a second wiring channel 70 which is penetrated by a second control wire 24 for electrically connecting the heating mechanism with the control board along the axial direction thereof, and a wire outlet of the second wiring channel 70 is arranged at the side part of the transmission member 7, which is close to the seat ring damper 23, so as to be used for communicating the second wiring channel 70 with the base 1. The second control wire 24 passes through the second race spindle portion 22 and the second wire path 70 in sequence from the race 2, and finally is connected to the control board in the base 1. The second control wire 24 includes a second fixed section 242 and a second extending section 241 penetrating the second routing channel 70. The second wire channel 70 is used for the second control wire 24 to pass through, so as to avoid interference between the second control wire 24 and other components, and enable the movement of the second extension section 241 in the second wire channel 70 not to be interfered when the seat ring 2 rotates, so that the stability of the electric connection between the heating mechanism and the control board can be improved. To avoid interference of the second fixing section 242 with other components inside the base 1, the second fixing section 242 is fixedly connected to the outside of the race damper 23.

The invention has the advantages that all the rotating parts are tightly connected, the purposes of better space utilization rate and cost saving are achieved, and the appearance of the toilet cover is more concise and attractive.

Embodiment two:

referring to fig. 6 and 7, the difference from the first embodiment is that the second control wire 24 is threaded out from the first race spindle portion 21. Specifically, the first seat ring rotating shaft portion 21 is sleeved on the outer peripheral side of the shaft seat 5, a threading hole 210 which is in a semicircular shape is axially formed in the end portion, close to the cover plate damper 33, of the first seat ring rotating shaft portion 21, and a second control wire 24 which is electrically connected with the control board of the heating mechanism sequentially penetrates through the first seat ring rotating shaft portion 21 and the threading hole 210 and is finally connected with the control board in the base 1.

The difference from the first embodiment is that one end of the second race rotating shaft portion 22 is sleeved on the outer peripheral side of the rotating end of the race damper 23 and is fixed relatively to the rotating end of the race damper 23, and the other end of the second race rotating shaft portion 22 is sleeved on the outer side of the second cover rotating shaft portion 32 and is rotatable relative to the second cover rotating shaft portion 32. Compared with the first embodiment, the present embodiment does not need to connect the seat ring damper 23 and the second seat ring rotating shaft portion 22 through the transmission member 7, so that the connecting components configured between the seat ring 2 and the seat ring damper 23 are reduced, the utilization rate of the internal space of the base 1 is improved, and the cost of the toilet cover is reduced. In addition, the characteristics and beneficial effects of the second embodiment are the same as those of the first embodiment, so that the description thereof will not be repeated.

Embodiment III:

referring to fig. 7 and 8, the difference from the first embodiment is that the seat ring damper and the cover plate damper are the same coaxial damper 9, and the coaxial damper 9 is connected to the upper portion of the base 1 near the seat ring 2 through a fixing seat 6. The coaxial damper 9 includes a first rotating end 91 and a second rotating end 92 axially connected to the first rotating end 91 and rotating relative to the first rotating end 91, and the first rotating end 91 and the second rotating end 92 are connected to the second race rotating shaft 22 and the second cover rotating shaft 32, respectively. Specifically, one end of the second race spindle portion 22 is sleeved on the outer peripheral side of the first rotating end 91 and is fixed relative to the first rotating end 91, and the other end is sleeved on the outer peripheral side of the second cover spindle portion 32 and is rotatable relative to the second cover spindle portion 32. The second cover rotating shaft portion 32 is sleeved on the outer peripheral side of the second rotating end 92 and is fixed relative to the second rotating end 92.

In this embodiment, the difference from the first embodiment is that the shaft seat 5 sequentially passes through the first cover plate rotating shaft portion 31 and the first seat ring rotating shaft portion 21 along the direction from the outside to the inside of the base 1 in the axial direction, and then is fixed on the base 1, the first cover plate rotating shaft portion 31 and the first seat ring rotating shaft portion 21 can both rotate around the axis of the shaft seat 5, one end of the shaft seat 5, which is located outside the base 1, is connected with the control member 4, and cooperates with the control member 4 to limit the front-back movement of the rotating shafts of the first cover plate rotating shaft portion 31 and the first seat ring 2 along the axial direction, so as to ensure the connection tightness of each rotating member and the base 1. The first wire channel 50 arranged inside the shaft seat 5 penetrates through the shaft seat 5 along the axial direction, namely, the wire outlet of the first wire channel is arranged on the opposite side of the shaft seat 5 to the control piece along the axial direction. The first control line 40, which is electrically connected to the control board by the control member 4, passes directly from the first routing channel 50 in a direction away from the control member 4 to be electrically connected to the control board inside the base 1. Secondly, the end part of the first seat ring rotating shaft part 21 sleeved on the outer periphery side of the shaft seat 5 is provided with a semicircular threading hole 210 along the axial direction, and a second control wire 24 electrically connected with the heating mechanism and the control plate sequentially penetrates through the first seat ring rotating shaft part 21 and the threading hole 210 and is finally connected with the control plate in the base 1. Compared with the first embodiment, the coaxial damper 9 in the present embodiment combines the seat ring damper 23 and the cover plate damper 33, so that the cover plate 3 and the seat ring 2 both have a slow descent function, the components arranged in the base 1 are reduced, more space is utilized in the base 1, and the cost can be saved. In addition, the characteristics and beneficial effects of the third embodiment are the same as those of the first embodiment, so that the description thereof will not be repeated.

Embodiment four:

referring to fig. 9, the difference from the first embodiment is that the rotating end of the cover plate damper 33 is inserted into the damping insertion section 52 of the axle seat 5 and is fixed relative to the axle seat 5, the rotating end of the cover plate damper 33 is axially provided with a fourth routing channel 330 that is communicated with the first routing channel 50 of the axle seat 5, and an outlet of the fourth routing channel 330 is disposed at a side portion of the rotating end of the cover plate damper 33. The first control line 40, which is electrically connected with the control board by the control piece 4, sequentially passes through the first routing channel 50 and the fourth routing channel 330, and finally is connected with the control board in the base 1.

In this embodiment, the difference from the first embodiment is that the rotating end of the seat ring damper 23 is provided with a third routing channel 230 along the axial direction for the second control wire 24 to pass through, and the outlet of the third routing channel 230 is provided at the side of the rotating end of the seat ring damper 23. The second control wire 24 sequentially passes through the second seat ring rotating shaft portion 22 and the third wire running channel 230, and finally is connected with a control board in the base 1. Compared with the first embodiment, the fourth routing channel 330 of the present embodiment is matched with the first routing channel 50, which is convenient for installation of the axle seat 5, and can improve stability of connection between the control element 4 and the control board and electrical connection in the installation process of the axle seat 5, without setting a yielding space for the first control line 40 to move on the axle seat 5, and reduce installation difficulty. In addition, the characteristics and the beneficial effects of the fourth embodiment are the same as those of the first embodiment, so that the description thereof will not be repeated.

Fifth embodiment:

referring to fig. 10, the difference from the first embodiment is that the shaft seat 5 and the rotating end of the cover damper 33 are integrally formed. Specifically, one end of the rotating end of the cover plate damper 33 far away from the base 1 is connected with the control member 4, the control member 4 can rotate relative to the rotating end of the cover plate damper 33, a fifth wiring channel 331 for connecting the control member 4 with the first control wire 40 of the control board in a penetrating manner is formed in the rotating end of the cover plate damper 33 along the axial direction, and an outlet of the fifth wiring channel 331 is formed in the radial direction so as to be communicated with the outer peripheral wall and the inner peripheral wall of the rotating end of the cover plate damper 33. The control piece 4 can be conveniently installed by the integrated design of the shaft seat 5 and the cover plate damper 33, interference between the first cover plate rotating shaft part 31 and the first control wire 40 in the installation process is avoided, and the electric connection between the first control wire 40 and the control board and the control piece 4 is enhanced. The outer circumference side of the rotating end of the cover plate damper 33 is sequentially sleeved with the first cover plate rotating shaft part 31 and the first seat ring rotating shaft part 21 along the direction that the axis points to the inside from the outside of the base 1, the rotating end of the first cover plate rotating shaft part 31 and the rotating end of the cover plate damper 33 are relatively fixed, and when the cover plate rotates, the rotating end of the cover plate damper 33 is driven to rotate, and the cover plate 3 has a descent control function under the action of the cover plate damper 33. Compared with the first embodiment, the rotating end of the cover plate damper 33 can be used as the shaft seat 5, so that the first control wire 40 can be conveniently penetrated, and the clamping and pulling of the first cover plate rotating shaft portion 31 and the base 1 to the first control wire 40 can be avoided without arranging a yielding plane, so that the first control wire 40, the control piece 4 and the control board can be well electrically connected. Secondly, the rotating end of the cover damper 33 can be connected with the first cover rotating shaft portion 31 so that the cover 3 has a slow descending function, and parts and space inside the base 1 are saved. In addition, the characteristics and beneficial effects of the fifth embodiment are the same as those of the first embodiment, so that the description thereof will not be repeated.

Example six:

referring to fig. 11, the difference from the first embodiment is that the shaft seat 5 is fixedly connected to the rotating end of the cover damper 33 through the first race rotating shaft portion 21 and the first cover rotating shaft portion 31 in this order in the direction of axially pointing from the outside of the base 1 to the inside. Specifically, the first seat ring rotating shaft portion 21 is sleeved on the outer side of the control piece connecting section 54 of the shaft seat 5 and rotates relative to the shaft seat 5, and the first seat ring rotating shaft portion 21 is limited to move forwards and backwards along the axial direction through the cooperation of the control piece 4 and the shaft seat 5. The first cover plate rotating shaft portion 31 is sleeved at two ends of the circumferential side of the shaft seat 5 along the axial direction and is respectively clamped between the first seat ring rotating shaft portion 21 and the shaft seat 5, and between the shaft seat 5 and the base 1, the first cover plate rotating shaft portion 31 and the shaft seat 5 are relatively fixed, and the first cover plate damper 33 is limited in forward and backward movement along the axial direction through the cooperation of the first seat ring rotating shaft portion 21, the shaft seat 5 and the base 1. Similarly, the second seat ring rotating shaft portion 22 and the second cover plate rotating shaft portion 32 are sequentially sleeved on the transmission member 7 along the direction of pointing inwards from the outside of the base 1, the second cover plate rotating shaft portion 32 can rotate relative to the transmission member 7, and the second seat ring rotating shaft portion 22 and the transmission member 7 are relatively fixed. The second cover plate rotating shaft portion 32 is clamped between the second seat ring damper 23, the transmission member 7 and the base 1, and the second cover plate rotating shaft portion 32 is matched with the transmission member 7 and the base 1 to limit the forward and backward movement of the second cover plate rotating shaft portion 32 along the axial direction. The characteristics not mentioned in the fifth embodiment are the same as those in the first embodiment, and will not be described again here. In comparison with the first embodiment, the present embodiment provides another option of mounting the rotating part of the seat ring 2 on the outer side of the rotating part of the cover plate. Likewise, other embodiments than the first embodiment may employ the mounting method of the fifth embodiment.

The cover plate damper, the race damper, and the coaxial damper mentioned in the above-described embodiments one to six may be either a general mechanical damper or an electronic damper. When an electronic damper is adopted, the rotating end of the damper is the rotating shaft of the motor. In addition, the shaft seat in the first to fourth embodiments may be formed in multiple segments or may be integrally formed.

Embodiment seven:

referring to fig. 12, the difference from the first embodiment is that the rotation position of the cover plate 3 and the rotation position of the seat ring 2 are set to be different axes, the rotation axis of the cover plate 3 and the rotation axis of the seat ring 2 are parallel to each other, one side of the rotation positions of the cover plate 3 and the seat 1 are rotationally connected through the rotation end of the cover plate damper 33, and one end of the cover plate damper 33 far away from the seat 1 along the axis thereof is provided with the control member 4, the rotation end of the cover plate damper 33 is internally provided with a sixth routing channel 332 through which a first control wire 40 electrically connected with the control member 4 passes, and the outlet of the sixth routing channel 332 is opened at the side of the rotation end of the cover plate damper 33, so that the first control wire 40 passes through the cover plate damper 33 to be connected to the control plate of the seat 1. In the same arrangement, the rotating end of the seat ring damper 23 is internally provided with a wiring channel through which a second control wire 24 electrically connected with the control board by the power control mechanism passes, and a wire outlet of the wiring channel is provided with a side part of the rotating end of the seat ring damper 23. Compared with the first embodiment, the rotation positions of the cover plate 3 and the seat ring 2 can be different axes, and the cover plate damper 33 and the seat ring damper 23 can both allow the control wire to pass through, so as to provide an independent movable space for the control wire under the condition of different axes, and enhance the good and stable electrical connection between the control wire and the control board and control member 4 when the control wire rotates along with the rotation of the cover 3 and the seat ring 2. And interference of the excessive movement amplitude with other parts during rotation of the control line can be avoided. Further, the characteristic not mentioned in embodiment seven is the same as that in embodiment one.

Example eight:

referring to fig. 13, an intelligent toilet bowl comprises a toilet bowl body 10 and an intelligent toilet bowl cover 11, wherein the toilet bowl body is connected with a water tank 12, the intelligent toilet bowl cover 11 is fixedly connected to the upper end of the toilet bowl body 10 and is positioned on the front side of the water tank 12 through a structure which is convenient to detach, the intelligent toilet bowl cover 11 is the intelligent toilet bowl cover of any one of the first to fifth embodiments, a drainage system of the water tank 12 is electrically connected with a control board, and drainage of the water tank 12 is controlled by a knob of the intelligent toilet bowl cover 11, and the water tank 12 and the drainage system thereof are all of the prior art and are not described herein.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (8)

1. An intelligent toilet lid comprising: a base (1) provided with a control board, a seat ring (2) which can rotate relative to the base (1) and is provided with an electric control mechanism, a cover plate (3) which can rotate relative to the base (1), and a control piece (4); the control piece (4) and the electric control mechanism are electrically connected to the control board; the device is characterized in that a first seat ring rotating shaft part (21) and a second seat ring rotating shaft part (22) which are axially positioned at two sides of the seat ring (2) and a first cover plate rotating shaft part (31) and a second cover plate rotating shaft part (32) which are axially positioned at two sides of the cover plate (3) are coaxially arranged, a shaft seat (5) is connected between the first seat ring rotating shaft part (21) and the first cover plate rotating shaft part (31) which are axially positioned at the same side and the base (1), the shaft seat (5) is provided with a first wiring channel (50) positioned between a control piece (4) and the control piece, and a first control wire (40) used for electrically connecting the control piece (4) and the control piece is arranged in the first wiring channel (50);

the wire outlet of the first wire channel (50) is radially opened so as to be communicated with the outer peripheral wall and the inner peripheral wall of the shaft seat (5); the peripheral wall of the shaft seat (5) is provided with a yielding plane (51), and the yielding plane (51) and the control piece (4) are axially positioned at two sides of the outlet; the yielding plane (51) forms a yielding space for accommodating the first control line (40) with the inner wall surfaces of the first seat ring rotating shaft part (21) and the first cover plate rotating shaft part (31) when the shaft seat (5) moves along the axial direction;

a second control wire (24) for electrically connecting the heating mechanism and the control board passes through the second seat ring rotating shaft part (22) sleeved on the shaft seat (5) so as to be electrically connected with the control board.

2. The intelligent toilet lid according to claim 1, characterized in that the shaft seat (5) is switchable between a sleeved state and an unslotted state in such a way that it is movable in axial direction with respect to the first seat ring swivel part (21) and the first cover plate swivel part (31); the first control line (40) can be driven by the shaft seat (5) to switch between an extending state and a buckling state.

3. The intelligent toilet lid according to claim 1, characterized in that a lid damper (33) for defining the rotational position of the lid (3) is arranged on the base (1), and the rotational end of the lid damper (33) is connected to the shaft seat (5); the first cover plate rotating shaft part (31) sleeved on the shaft seat (5) drives the shaft seat (5) to rotate along with the shaft seat.

4. The intelligent toilet lid according to claim 1, characterized in that a seat damper (23) for defining the rotational position of the seat (2) is arranged on the base (1), and the rotational end of the seat damper (23) is connected to the second seat rotating shaft portion (22) through a transmission member (7); the transmission piece (7) is provided with a second wiring channel (70) positioned between the heating mechanism and the control board, and a second control wire (24) used for electrically connecting the heating mechanism and the control board comprises a second extension section (241) arranged in the second wiring channel (70).

5. The intelligent toilet lid according to claim 1, characterized in that a seat damper (23) for defining the rotational position of the seat (2) is arranged on the base (1), and the rotational end of the seat damper (23) is connected to the second seat rotating shaft portion (22); the rotating end of the seat ring damper (23) is provided with a third wiring channel (230) between the heating mechanism and the control plate, and a second control wire (24) used for electrically connecting the heating mechanism and the control plate comprises a third extension section (243) arranged in the third wiring channel (230).

6. The intelligent toilet lid according to claim 1, characterized in that a lid damper (33) to define the rotational position of the lid (3) and a seat damper (23) to define the rotational position of the seat (2) are provided as the same coaxial damper (9) arranged on the base (1); a first rotating end (91) of the coaxial damper (9) is connected with the second seat ring rotating shaft part (22), and a second rotating end (92) of the coaxial damper (9) is connected with the second cover plate rotating shaft part (32).

7. A smart toilet lid according to claim 3, characterised in that the rotational end of the lid damper (33) defining the rotational position of the lid (3) has a fourth wiring channel (330) communicating with the first wiring channel (50).

8. An intelligent toilet bowl is characterized by comprising a toilet bowl body (10) and an intelligent toilet bowl cover (11) arranged at the upper end of the toilet bowl body (10), wherein the intelligent toilet bowl cover (11) is the intelligent toilet bowl cover according to any one of claims 1-7.