CN211243132U - Toilet bowl - Google Patents

Abstract

The utility model discloses a toilet, which comprises a toilet body, a cushion and a cover which are rotationally connected with the toilet body, at least two sensing devices and a controller, wherein the at least two sensing devices are positioned in front of the toilet body and distributed at two sides in front of the toilet body; the controller is connected with the at least two induction devices, receives induction signals and controls the cushion and/or the barrel cover to rotate relative to the barrel body according to the corresponding relation between the induction signals and the at least two induction devices. The utility model discloses a closestool realizes the automatic upset to bung and cushion, need not the manual upset of user, and in the different installation scenes the closestool homoenergetic provides the most convenient and quick mode of triggering for the user, realizes that bung and/or cushion are opened to quick automation, improves the availability factor.

Description

Toilet bowl

Technical Field

The utility model relates to a bathroom equipment field especially relates to a closestool.

Background

With the improvement of living standard, people have stronger and stronger requirements for intellectualization of daily used products, and the intellectualized products are expected to share proper labor in life.

For example, an intelligent toilet with automatic flushing function has been widely used in a home, but in the actual use process, different users have different requirements for the use of the toilet, so that the existing toilet is still not completely intelligent, for example, a toilet cover or a seat cushion needs to be manually turned by the user, and the user needs to repeatedly bend over the toilet cover or the seat cushion, which is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an embodiment main objective provides a closestool aims at solving manual upset closestool or cushion, needs the user to bow the operation repeatedly, uses the inconvenient technical problem of operation.

In order to achieve the above object, the utility model provides a toilet, the toilet include the staving and with the staving rotates cushion and the bung of connecting, the toilet still includes:

the at least two induction devices are positioned in front of the barrel body and distributed on two sides in front of the barrel body;

the controller is connected with the at least two induction devices, receives induction signals and controls the cushion and/or the barrel cover to rotate relative to the barrel body according to the corresponding relation between the induction signals and the at least two induction devices.

In one embodiment, the at least two sensing devices are located on two sides of the front lower portion of the barrel body.

In an embodiment, the toilet further includes a lid driving member, the lid driving member is connected to the controller, and the controller receives a sensing signal sent by one of the at least two sensing devices and sends a lid rotation signal to the lid driving member, so that the lid driving member drives the lid to rotate relative to the toilet body.

In one embodiment, the toilet further comprises a seat driving member, and the seat driving member is connected with the controller;

in a preset time interval, the controller receives a sensing signal sent by another sensing device of the at least two sensing devices and sends a cushion rotating signal to the cushion driving part, so that the cushion driving part drives the cushion to rotate relative to the barrel body.

In one embodiment, one of the sensing devices is a main sensing device, and the controller sends a drum cover rotation signal to the drum cover driving member; or, one of the sensing devices is a secondary sensing device, and the controller does not respond to the sensing signal sent by the one of the sensing devices, wherein the at least two sensing devices include a primary sensing device and a secondary sensing device.

In one embodiment, the toilet further comprises a barrel cover driving part and a cushion driving part, wherein the barrel cover driving part and the cushion driving part are respectively connected with the controller; the at least two induction devices comprise a first induction device and a second induction device;

the controller receives the sensing signal sent by the first sensing device and sends a barrel cover rotating signal to the barrel cover driving part, so that the barrel cover driving part drives the barrel cover to rotate relative to the barrel body; or

The controller receives the sensing signal sent by the second sensing device and sends a barrel cover rotating signal to the barrel cover driving part so that the barrel cover driving part drives the barrel cover to rotate relative to the barrel body, and the controller sends a cushion rotating signal to the cushion driving part so that the cushion driving part drives the cushion to rotate relative to the barrel body.

In one embodiment, the sensing device includes any one or more of an infrared sensor, an infrared distance measuring sensor, a radar wave sensor, or a mechanical touch key.

In one embodiment, the toilet further comprises a sitting sensor located on the seat cushion, the sitting sensor is connected with the controller, and the controller receives a sitting signal sent by the sitting sensor and controls the seat cushion to keep the current state.

In one embodiment, the toilet further comprises a heating assembly, a heating part of the heating assembly is arranged on the seat cushion, the heating assembly is connected with the controller, and the controller receives the induction signal and sends a heating signal to the heating assembly according to the induction signal so as to heat the heating assembly.

An embodiment, the closestool still includes the bath subassembly, the bath subassembly includes the water tank and communicates the water tank with the first drain pipe and the second drain pipe of the inner chamber of staving, the pipe diameter of first drain pipe is greater than the pipe diameter of second drain pipe.

In one embodiment, a first switch valve is arranged on the first drain pipe, a second switch valve is arranged on the second drain pipe, and the first switch valve and the second switch valve are both connected with the controller.

The embodiment of the utility model provides a toilet bowl, be provided with induction system on the toilet bowl, realize the automatic upset to bung and cushion through induction system, need not the manual upset of user, just be in both sides in toilet bowl the place ahead set up at least two induction system, through at least two induction system's sensing signal's combination, in the different installation scenes the toilet bowl homoenergetic provides the most convenient and quick mode of triggering for the user, realizes that bung and/or cushion are opened in quick automation, improves the availability factor.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of a toilet bowl according to the present invention in a closed state;

fig. 2 is a schematic structural view of the toilet of the present invention in an open state;

fig. 3 is a schematic view of a first installation scenario of the toilet of the present invention;

fig. 4 is a schematic view of a second installation scenario of the toilet of the present invention;

fig. 5 is a schematic view of a third installation scenario of the toilet of the present invention.

Description of reference numerals:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Toilet bowl	101	Barrel body
102	Barrel cover	103	Cushion pad
				104	Inner cavity	105	Induction device
106	Sitting sensor

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 and 2, the present invention provides a toilet 100, wherein the toilet 100 is a sanitary device.

The toilet bowl 100 comprises a bowl body 101, and a seat cushion 103 and a bowl cover 102 which are rotatably connected with the bowl body 101, wherein an inner cavity 104 of the bowl body 101 is used for collecting excrement, the inner cavity 104 is provided with an opening (not marked in the figure), the seat cushion 103 is arranged on the opening, the seat cushion 103 is close to and rotates towards the opening or is far away from the opening when the bowl body 101 rotates relative to the bowl body 101, and the bowl cover 102 is closed or opened or the opening when the bowl body 101 rotates relative to the bowl body 101.

The toilet 100 further includes:

at least two induction devices 105, wherein the at least two induction devices 105 are located in front of the barrel body 101 and distributed on two sides in front of the barrel body 101;

the controller is connected with the at least two sensing devices 105, receives sensing signals, and controls the seat cushion 103 and/or the barrel cover 102 to rotate relative to the barrel body 101 according to the corresponding relation between the sensing signals and the at least two sensing devices 105.

Specifically, the toilet 100 further includes a lid driving member (not shown) and/or a seat driving member (not shown), the lid driving member and/or the seat driving member is connected to the controller, the sensing device 105 is configured to sense a user signal, when the sensing device 105 detects that a user approaches, a sensing signal is generated and sent to the controller, the controller sends a control instruction (e.g., a rotation instruction) to the lid driving member and/or the seat driving member according to a corresponding relationship between the sensing signal and the at least two sensing devices 105, so that the lid driving member drives the lid 102 to rotate relative to the toilet body 101, and/or the seat driving member drives the seat 103 to rotate relative to the toilet body 101, thereby automatically opening or closing the lid 102 and/or the seat 103, the user does not need to turn over manually, and the problem that the user needs to bend back repeatedly is solved.

It should be noted that, in this embodiment, the cushion 103 and/or the cover 102 are mainly opened for illustration, and the cover 102 and/or the cushion 103 rotate relative to the tub 101 to an opened state (for example, the cover 102 opens the opening, and the cushion 103 is far away from the opening). The seat cushion 103 and/or the barrel cover 102 can be covered manually or automatically after the person leaves the seat cushion.

It should be noted that, in this embodiment, the drum cover driving member is a structure for driving the drum cover 102 to rotate, but is not limited to a specific structure, for example, the drum cover driving member includes a first driving motor, an output shaft of the first driving motor is connected to a rotating shaft of the drum cover 102, or the drum cover driving member includes a first driving motor and a first transmission gear assembly, an output shaft of the first driving motor is connected to the first transmission gear assembly, and an output shaft of the first transmission gear assembly is connected to the rotating shaft of the drum cover 102. The same, the cushion driving piece is the structure that is used for driving cushion 103 to rotate, and is not limited to a specific structure, if the cushion driving piece includes second driving motor, the output shaft of second driving motor with the pivot of cushion 103 is connected, or, the cushion driving piece includes second driving motor and second transmission gear assembly, the output shaft of second driving motor with the second transmission gear assembly is connected, the output of second rotation gear assembly with the pivot of cushion 103 is connected. The first transmission gear set and/or the second transmission gear set comprise at least one gear.

The embodiments of the controller controlling the seat cushion 103 and/or the tub cover 102 to rotate relative to the tub 101 according to the corresponding relationship between the sensing signal and the at least two sensing devices 105 include, but are not limited to, the following:

1. when the at least two sensing devices 105 are in one-to-one correspondence with the tub cover 102 and the seat cushion 103, if the first sensing device corresponds to the tub cover 102, the first sensing device senses a sensing signal and sends the sensing signal to the controller, and the controller determines to control the rotation of the tub cover 102 according to the fact that the sensing signal is sent by the first sensing device; or, the second sensing device corresponds to the seat cushion 103, the second sensing device senses a sensing signal and sends the sensing signal to the controller, and the controller determines to control the seat cushion 103 to rotate according to the sensing signal sent by the second sensing device.

2. When the at least two sensing devices 105 do not have a one-to-one correspondence relationship with the tub cover 102 or the seat cushion 103, the controller determines to control the tub cover 102 to rotate or control the seat cushion 103 to rotate according to the sensing signal which is sent by the at least two sensing devices 105 for the second time within the preset time interval. The sensing signal may be a first sensing signal transmitted within a preset time interval, or may be a second sensing signal transmitted within a preset time interval. The controller determines to control the rotation of the barrel cover 102 according to the fact that the induction signal is sent by any one induction device 105 of the at least two induction devices 105 for the first time within a preset time interval; or, the controller determines to control the rotation of the seat cushion 103 according to the fact that the sensing signal is sent by any one sensing device 105 of the at least two sensing devices 105 for the second time within the preset time interval. It is understood that the two sensing signals within the preset time interval may be transmitted by the same sensing device 105, or may be transmitted by different sensing devices 105, and in the case of transmitting by different sensing devices 105, it is determined whether the sensing signals are transmitted by the same sensing device 105 through the port of the sensing device 105. The preset time interval includes 0 second, that is, two sensing devices 105 may be triggered at the same time to obtain two sensing signals.

At least two induction system 105 set up in the place ahead of staving 101, and distribute in the both sides in staving 101 the place ahead, the detection position of the both sides in staving 101 the place ahead corresponds with user's shank, generates the sensing signal through the signal that detects the shank, for with induction system 105 sets up the rear upper portion of closestool 100, this embodiment induction system 105's the position of setting is difficult to be touched by the user mistake, can prevent effectively that the user from touching by mistake and making the bung 102 and/or the cushion 103 of closestool 100 rotate.

Further, the at least two sensing devices 105 are located on two sides of the lower front portion of the toilet body 101, the distance between the position and the leg is always larger than the distance between the sensing device 105 and the leg when the sensing device 105 is arranged on the upper portion of the toilet 100, and the sensing device 105 is further prevented from being touched by a user by mistake by setting the sensing distance of the sensing device 105.

Preferably, the toilet bowl 100 of the present embodiment is provided with the at least two sensing devices 105, the at least two sensing devices 105 are disposed on two sides of the front of the bowl 101, the controller controls the seat cover 103 and/or the lid 102 to rotate according to sensing signals of the at least two sensing devices 105, so as to adapt to different installation scenarios, and in different installation scenarios, the toilet bowl 100 can provide the most convenient and fast triggering manner for a user, so as to achieve fast and automatic opening of the lid 102 and/or the seat cover 103, and improve the use efficiency.

As shown in fig. 3 in a first installation scenario of the toilet 100, the toilet 100 is located at a right side of the entrance of the bathroom, based on the principle of convenience of use, one side of the front of the toilet body 101 of the toilet 100 facing the doorway is the most convenient trigger position (the toilet 100 is used as a main body, and the left side of the front of the toilet body 101 of the toilet 100 is located), and since the sensing devices 105 are disposed at both sides of the front of the toilet body 101 of the toilet 100, a user can open the toilet cover 102 by triggering the sensing device 105 at the side facing the doorway.

As another example, in a second installation scenario of the toilet 100, referring to fig. 4, the toilet 100 is located on the left side of the entrance of the bathroom, based on the usage convenience principle, one side of the front of the toilet body 101 of the toilet 100 facing the doorway is the most convenient trigger position (the toilet 100 is used as the main body, and the side of the front of the toilet body 101 of the toilet 100 is located on the right side), and since the sensing devices 105 are disposed on both sides of the front of the toilet body 101 of the toilet 100, the user can open the toilet cover 102 by triggering the sensing device 105 on the side facing the doorway.

As shown in fig. 5 in a third installation scenario of the toilet 100, the toilet 100 is located right in front of the entrance door of the bathroom, and at this time, the at least two sensing devices 105 are disposed at two sides in front of the toilet body 101 of the toilet 100, so that the usage habits of different people can be adapted, and the user can automatically open the toilet cover 102 by triggering any one of the sensing devices 105.

As can be seen from the above installation scenarios, the toilet 100 can provide the most convenient and fast triggering manner for the user in different installation scenarios, and is suitable for installation requirements in different scenarios. In addition, the above-mentioned listed scenes are only the installation scenes of the toilet 100, and the installation scenes of the toilet 100 include but are not limited to the above-mentioned scenes, in this embodiment, based on that the at least two sensing devices 105 are arranged on the two sides in front of the toilet body 101 of the toilet 100, a user triggers any one of the sensing devices 105 to automatically open the toilet cover 102, so as to meet the requirement that the sensing device 105 is located at a position where triggering is convenient in different installation scenes.

The at least two sensing devices 105 are foot sensing devices, and specifically, the sensing devices 105 include any one or combination of an infrared sensor, an infrared distance measuring sensor, a radar wave sensor, or a mechanical touch key.

In this embodiment, be provided with induction system 105 on closestool 100, realize the automatic upset to bung 102 and cushion 103 through induction system 105, need not the manual upset of user, and the both sides in closestool 100 the place ahead set up at least two induction system 105, through at least two induction system 105's inductive signal's combination, in the different installation scenes closestool 100 homoenergetic provides the most convenient and quick trigger mode for the user, realizes that bung 102 and/or cushion 103 are opened in quick automation, improves the availability factor.

In addition, at least two sensing devices 105 are arranged on two sides in front of the body 101 of the toilet 100, and by combining sensing signals of the at least two sensing devices 105, rotation control of the lid 102 and/or the seat 103 in different use scenarios is realized, which specifically includes but is not limited to the following embodiments:

in an embodiment, the at least two sensing devices 105 are not set to have their corresponding control objects, and the controller receives a sensing signal sent by one of the sensing devices 105 and sends a drum cover 102 rotation signal to the drum cover driving member, so that the drum cover driving member drives the drum cover 102 to rotate relative to the drum body 101.

When the toilet bowl 100 is used, the toilet lid 102 needs to be opened first to open the seat 103, the controller sends a rotation signal to the toilet lid driving part when receiving a sensing signal sent by any one of the sensing devices 105, and the toilet lid driving part drives the toilet lid 102 to rotate relative to the toilet body 101 after receiving the rotation signal, so that the toilet lid 102 is opened. In the use scenes of male excrement and female urine, different requirements of different people on the positions of the sensing devices 105 can be met, if a person who is used to trigger the sensing device 105 by a right foot triggers the right sensing device 105 to open the barrel cover 102, and a person who is used to trigger the sensing device 105 by a left foot triggers the left sensing device 105 to open the barrel cover 102, the toilet bowl is suitable for all people.

In a further embodiment, in the using scene of male urine, the cushion 103 is not needed, in order to prevent the seat cushion 103 from being polluted during use, the seat cushion 103 needs to be opened and then used, in this embodiment, the cover 102 and the seat cushion 103 are controlled to be opened simultaneously by combining the sensing signals of the at least two sensing devices 105, if the controller receives the sensing signal from one of the sensing devices 105, it sends a rotation signal to the lid driving member, after receiving the rotation signal, the barrel cover driving part drives the barrel cover 102 to rotate relative to the barrel body 101, so that the cover 102 is opened, and within a preset time interval, the controller receives a sensing signal sent by another sensing device 105, sends a cushion 103 rotation signal to the cushion driving member, so that the cushion driving part drives the cushion 103 to rotate relative to the barrel body 101.

The controller is a control chip, and the control chip sends a barrel cover 102 rotation signal to the barrel cover driving part when receiving a first sensing signal after being awakened by the sensing signal every time, so that the barrel cover driving part drives the barrel cover 102 to rotate; in the preset time interval, when a second sensing signal is received, a cushion 103 rotating signal is sent to the cushion driving part, so that the cushion driving part drives the cushion 103 to rotate relative to the barrel body 101, the barrel cover 102 and the cushion 103 are opened, the male urination scene is used, and the user is saved from manually turning up the cushion 103. After the user leaves the toilet 100, the control chip is in a sleep state, and thus when the control chip is awakened by the sensing signal, the awakening sensing signal is determined to be the first sensing signal.

In this embodiment, the at least two sensing devices 105 are located on two sides of the front of the toilet bowl 101 of the toilet bowl 100, and in a use scene of male urination, two legs of a male stand on two sides of the front of the toilet bowl 101, so that the toilet bowl 102 and the seat 103 can be triggered when the male normally stands to use the toilet bowl 100, and for the sensing devices 105 arranged on the upper side of the rear of the toilet bowl 100, a user needs to manually trigger the sensing devices 105, and the positions of the at least two sensing devices 105 are convenient for the user to trigger, so that the toilet bowl 100 can be quickly used.

It can be understood that the linear distance between the sensing devices 105 on both sides of the front of the body 101 of the toilet 100 is adapted to the distance between the legs of the user standing in front of the toilet 100. For example, the linear distance between the two side sensing devices 105 is less than or equal to 20cm, and less than or equal to 50 cm. The user can conveniently trigger the sensing devices 105 on both sides simultaneously when standing normally.

In an embodiment, compared to the previous embodiment, in this embodiment, the at least two sensing devices 105 are primarily and secondarily limited, where the at least two sensing devices 105 include a primary sensing device 105 and a secondary sensing device 105, and if a controller receives a sensing signal sent by one of the sensing devices 105, and the one of the sensing devices 105 is the primary sensing device 105, the controller sends a drum lid 102 rotation signal to the drum lid driving member; one of the sensing devices 105 is the secondary sensing device 105, and the controller does not respond to the sensing signal.

The main sensing device 105 and the secondary sensing device 105 can be set by a user through a remote controller or a mobile phone, and the user sets the setting according to different installation scenes and different use habits of the toilet 100, for example, in the installation scene of fig. 3, the user habit uses the sensing device 105 facing one side of the doorway to trigger the opening of the toilet cover 102, and then the sensing device 105 facing one side of the doorway can be set as the main sensing device 105; as in the installation scenario of fig. 4, a user is used to open the lid 102 by using the sensing device 105 facing the doorway side, and the sensing device 105 facing the doorway side may be set as the main sensing device 105.

The primary sensing device 105 and the secondary sensing device 105 can also be automatically updated according to the usage habits of the user, for example, the controller records the usage habits of the user, when it is detected that the user uses the sensing device 105 facing one side of the doorway for a relatively large number of times, the sensing device 105 facing one side of the doorway is updated to be the primary sensing device 105, and when it is detected that the user uses the sensing device 105 facing one side of the doorway away for a relatively large number of times, the sensing device 105 facing one side of the doorway is updated to be the primary sensing device 105.

In this embodiment, the controller sends the rotation signal of the tub cover 102 to the tub cover driving member after receiving the sensing signal sent by the primary sensing device 105, and when receiving the sensing signal sent by the secondary sensing device 105 (the sensing signal is the first sensing signal after the controller is awakened), the controller does not respond to the sensing signal, i.e., does not send the rotation signal to the tub cover driving member, so that the tub cover 102 is prevented from being opened when the sensing device 105 is touched by mistake. For example, in the installation scenario as 3, a user generally enters a bathroom from a doorway to go to a toilet, the sensing device 105 facing the doorway side is set as the main sensing device 105, and when the user comes out of the bathroom and accidentally touches the sensing device 105 facing the bathroom side, the sensing signal is not responded, the tub cover 102 is not opened, and accidental touch is effectively prevented.

In an embodiment, different from the above embodiments, the at least two sensing devices 105 in this embodiment include a first sensing device 105 and a second sensing device 105, wherein a control object corresponding to the first sensing device 105 is fixed to the tub cover 102, and a control object corresponding to the second sensing device 105 is fixed to the tub cover 102 and the seat cushion 103. The controller receives the sensing signal sent by the first sensing device 105, and sends a drum cover 102 rotation signal to the drum cover driving part, so that the drum cover driving part drives the drum cover 102 to rotate relative to the drum body 101; or the controller receives the sensing signal sent by the second sensing device 105, and sends a lid 102 rotation signal to the lid driving member, so that the lid driving member drives the lid 102 to rotate relative to the tub body 101, and the controller sends a cushion 103 rotation signal to the cushion driving member, so that the cushion driving member drives the cushion 103 to rotate relative to the tub body 101.

For example, when a woman defecates in a toilet or a man defecates, the cushion 103 needs to be used, the first sensing device 105 only needs to be triggered to realize that the barrel cover 102 is automatically opened, and when the man urinates, the cushion 103 does not need to be used, and the second sensing device 105 only needs to be triggered to realize that the barrel cover 102 and the cushion 103 are opened simultaneously.

The specific implementation mode is as follows: the controller distinguishes the identification of the first sensing device 105 and the identification of the second sensing device 105, and after receiving the sensing signal, the controller determines that the sensing signal is sent by the first sensing device 105, sends a barrel cover 102 rotation signal to the barrel cover driving part, determines that the sensing signal is sent by the second sensing device 105, sends a barrel cover 102 rotation signal to the barrel cover driving part, and sends a rotation signal to the cushion driving part.

In this embodiment, the control object corresponding to the first sensing device 105 is the tub cover 102, and the control object corresponding to the second sensing device 105 is the tub cover 102 and the seat cushion 103, so that no matter in a use scene of male urination or in a use scene of male defecation and female defecation, the requirement for opening the tub cover 102 and/or the seat cushion 103 can be met only by triggering one of the sensing devices 105, and the operation process is simplified.

In one embodiment, in combination with all the above embodiments, in order to prevent the situation that the user mistakenly touches the sensing device 105 to drive the seat 103 to open in the usage scenario of the female toilet or the male stool, the toilet 100 further includes a sitting sensor 106 located on the seat 103, the sitting sensor 106 is connected to the controller, and the controller receives a sitting signal sent by the sitting sensor 106 and controls the seat 103 to keep the current state. The sitting sensor 106 is any one or more of a capacitive sensor, an infrared sensor, a gravity sensor or a radar wave sensor.

The user sits when the cushion 103 is last, and the sensor 106 of sitting senses the signal of sitting of user, will the signal of sitting sends to the controller, and the controller is received after the signal of sitting that the sensor 106 of sitting sent, control the cushion 103 keeps current state, so, the controller is received during induction system 105's induction signal, the cushion 103 also can not overturn and open, realizes the cushion 103 auto-lock.

Specifically, the implementation manner of maintaining the current state of the seat cushion 103 includes: 1. the controller does not respond to any sensing signal sent by any sensing device 105, that is, when the controller receives any sensing signal sent by any sensing device 105, the controller does not send a rotation signal to the seat cushion driving member and/or the barrel cover driving member. Or, 2, set up self-lock device on the cushion driving piece, the controller receives the signal of sitting that is sitting sensor 106 and sends, sends self-lock signal extremely self-lock device locks the cushion driving piece, the controller receives the sensing signal that induction system 105 sent, and to the cushion driving piece sends cushion 103 rotation signal, the cushion driving piece auto-lock does not rotate.

The toilet bowl 100 of the present embodiment controls the seat 103 to keep the current state in combination with the sitting signal of the sitting sensor 106, so that the user can mistakenly turn over the seat 103 during the use process.

In an embodiment, in combination with all the above embodiments, the toilet bowl 100 further includes a heating assembly (not shown), a heating portion of the heating assembly is disposed on the seat 103, the heating assembly is connected to the controller, and the controller receives the sensing signal and sends a heating signal to the heating assembly according to the sensing signal, so as to heat the heating assembly.

The embodiment is suitable for a use scene of toilet for women and excrement for men, and in the use scene of toilet for women and excrement for men, because the toilet seat is needed to be seated on the seat cushion 103, in order to prevent the temperature of the seat cushion 103 from being too low to cause discomfort for users, the toilet bowl 100 is further provided with a heating assembly, and the heating assembly comprises a heating part which covers or partially covers the seat cushion 103 and is used for heating the seat cushion 103. The controller receives the induction signal, and sends a heating signal to the heating assembly according to different use scenes of the above embodiments, so that the heating assembly heats the seat cushion 103, and the use comfort of the user is improved.

Specifically, the controller receives an induction signal sent by one induction device 105, and does not receive an induction signal sent by another induction device 105 within a preset time interval, or the controller receives an induction signal sent by the first induction device 105, and at this time, the controller sends a rotation signal to the tub cover driving member to drive the tub cover 102 to rotate, and sends a heating signal to the heating assembly to heat the seat cushion 103.

The current use scene is identified as female toileting or male defecation or male urination through the induction signals of the at least two induction devices 105, the heating assembly is controlled according to different use scenes, and if the female toileting or male defecation needs to use the cushion 103, the cushion 103 is heated in advance so as to improve the use comfort of a user; if the man urinates, the cushion 103 does not need to be used, the cushion 103 does not need to be heated, and the electric energy is saved.

In one embodiment, in combination with all the above embodiments, the toilet 100 further includes a flushing assembly (not shown), the flushing assembly includes a water tank, and a first drainage pipe and a second drainage pipe communicating the water tank and the inner cavity 104 of the toilet body 101, and the pipe diameter of the first drainage pipe is greater than that of the second drainage pipe.

In this embodiment, the toilet 100 is provided with the first drainage pipe and the second drainage pipe with different pipe diameters, so that different drainage pipes can be used in different use scenes, for example, the first drainage pipe with a large pipe diameter is used for supplying water during defecation, so as to perform large flushing on the inner cavity 104 of the toilet 100; if the water is supplied by the second drainage pipe with small pipe diameter during urination, the inner cavity 104 of the closestool 100 is flushed slightly, and the water is saved.

Further, with reference to the toilet 100 of each of the above embodiments, the toilet 100 is provided with at least two sensing devices 105, and the controller of the toilet 100 can identify different usage scenarios of the toilet 100 according to sensing signals of the at least two sensing devices 105, such as urinating for men, toileting for women, defecating for men, and the like, based on this, a first switch valve is arranged on the first drain pipe of the toilet 100 according to this embodiment, a second switch valve is arranged on the second drain pipe, and both the first switch valve and the second switch valve are connected to the controller, the controller identifies that the usage scenario is defecating for women or defecating for men, and after the user leaves, the controller sends an opening signal to the first switch valve, the first switch valve is opened, water is supplied to the inner cavity 104 through the first drain pipe, and performs a large flush on the inner cavity 104 of the toilet 100; the controller recognizes that the usage scene is male urination, and after the user leaves, the controller sends a starting signal to the second switch valve, the second switch valve is opened, the second water discharge pipe supplies water to the inner cavity 104, and the inner cavity 104 of the closestool 100 is flushed slightly.

The closestool 100 of the embodiment combines the induction signals of the at least two induction devices 105 to realize that the inner cavity 104 of the closestool 100 is flushed by large flushing or small flushing automatically, and compared with manual flushing, the embodiment realizes intellectualization and improves the use experience of users; compared with the method which only can use the big dashes, the embodiment saves water resources; this embodiment ensures cleanliness and hygiene of the toilet 100 relative to a small flush alone.

The above is only the preferred embodiment of the present invention, not limiting the scope of the present invention, all of which are under the inventive concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (11)

1. The utility model provides a closestool, the closestool include the staving and with cushion and bung that the staving rotates to be connected, its characterized in that, the closestool still includes:

the at least two induction devices are positioned in front of the barrel body and distributed on two sides in front of the barrel body;

the controller is connected with the at least two induction devices, receives induction signals and controls the cushion and/or the barrel cover to rotate relative to the barrel body according to the corresponding relation between the induction signals and the at least two induction devices.

2. The toilet of claim 1, wherein the at least two sensing devices are located on both sides of a front lower portion of the bowl.

3. The toilet of claim 1, further comprising a lid driving member, wherein the lid driving member is connected to the controller, and the controller receives a sensing signal from one of the at least two sensing devices and sends a lid rotation signal to the lid driving member, so that the lid driving member drives the lid to rotate relative to the toilet body.

4. The toilet of claim 3, further comprising a seat drive coupled to the controller;

in a preset time interval, the controller receives a sensing signal sent by another sensing device of the at least two sensing devices and sends a cushion rotating signal to the cushion driving part, so that the cushion driving part drives the cushion to rotate relative to the barrel body.

5. The toilet of claim 3, wherein one of the sensing devices is a primary sensing device, and the controller sends a lid rotation signal to the lid driving member; or, one of the sensing devices is a secondary sensing device, and the controller does not respond to the sensing signal sent by the one of the sensing devices, wherein the at least two sensing devices include a primary sensing device and a secondary sensing device.

6. The toilet of claim 1, further comprising a lid driver and a seat driver, the lid driver and the seat driver being connected to the controller, respectively; the at least two induction devices comprise a first induction device and a second induction device;

the controller receives the sensing signal sent by the first sensing device and sends a barrel cover rotating signal to the barrel cover driving part, so that the barrel cover driving part drives the barrel cover to rotate relative to the barrel body; or

The controller receives the sensing signal sent by the second sensing device and sends a barrel cover rotating signal to the barrel cover driving part so that the barrel cover driving part drives the barrel cover to rotate relative to the barrel body, and the controller sends a cushion rotating signal to the cushion driving part so that the cushion driving part drives the cushion to rotate relative to the barrel body.

7. The toilet according to any one of claims 1 to 6, wherein the sensing means comprises any one or a combination of infrared sensors, infrared distance measuring sensors, radar wave sensors or mechanical touch buttons.

8. The toilet bowl as claimed in any one of claims 1 to 6, wherein the toilet bowl further comprises a sitting sensor located on the seat cushion, the sitting sensor is connected with the controller, and the controller receives a sitting signal sent by the sitting sensor and controls the seat cushion to keep the current state.

9. The toilet according to any one of claims 1 to 6, further comprising a heating unit, wherein the heating unit is disposed on the seat, the heating unit is connected to the controller, and the controller receives the sensing signal and sends a heating signal to the heating unit according to the sensing signal, so as to heat the heating unit.

10. The toilet of any one of claims 1-6, further comprising a flush assembly comprising a tank and first and second drains communicating the tank with the interior chamber of the bowl, the first drain having a larger diameter than the second drain.

11. The toilet according to claim 10, wherein a first switch valve is provided on the first drain pipe, a second switch valve is provided on the second drain pipe, and the first switch valve and the second switch valve are connected to the controller.

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