The invention relates to a toilet seat having an automatic cleaning device according to the preamble of claim 1.
Toilets having a device for automatically cleaning the seat, i.e., the lavatory seat ring, are presently frequently used.
Such a device is known from document EP 0 221 017 A1 [Vögeli et al.]. In this known device, during the cleaning, the lavatory seat ring of the toilet is driven by means of electric motors in the peripheral direction and is cleaned using water and/or a disinfecting liquid by means of an extendable and retractable cleaning arm. This known device has the disadvantage, however, that the bearing for the lavatory seat ring and the cleaning device are installed on a one-piece support plate, which extends over the entire upper side of the lavatory body and therefore either the lavatory seat ring cannot be folded up during the cleaning of the toilet or possible hinge joints have to be arranged with difficulty and little stability on the rear side of the lavatory body.
The invention wishes to provide a remedy here. The invention is based on the object of providing a toilet seat securable in a rigid manner to a lavatory body, having automatic cleaning and a fold-up lavatory seat ring, such that no alignment drift can occur between the cleaning arm and the lavatory seat ring during the installation and upon use of the toilet.
The invention achieves the stated object with a toilet seat having an automatic cleaning device, which has the features of claim 1.
The advantages achieved by the invention can essentially be seen in that thanks to the toilet seat according to the invention:
Further advantageous embodiments of the invention can be commented on as follows:
In one special embodiment, the first assembly comprises a housing having a cavity in which at least one container for a disinfectant and/or cleaning agent, a water connection unit, a pump, and preferably electrical components for the power supply and controller are arranged. Due to the arrangement of these components in the first assembly, a favorable space allocation results, because therefore only the cleaning arm and the mechanical drive elements for the movement of the lavatory seat ring in the peripheral direction and for the drive of the cleaning arm are arranged in the second assembly, and therefore the second assembly forms an easily pivotable unit. Furthermore, the mounting panel, which is arranged in the first assembly, may rest on the rear section of the lavatory body located behind the toilet bowl, be aligned using leveling screws, and stably fixed to the lavatory body.
In another embodiment, the hinge joints comprise first joint parts arranged on the mounting panel and second joint parts arranged on the bearing frame and the hinge joints have a common axis of rotation arranged transversely in relation to the toilet seat. The advantage is thus achievable that the hinge joints are arranged on the load-bearing parts of the toilet seat, whereby a stable execution of the hinge joints and therefore the pivotable connection between the first and the second assemblies is enabled.
In another embodiment, the cleaning device for the lavatory seat ring comprises a cleaning arm, which is pivotable about a pivot axis perpendicular to the bearing frame. Because the cleaning arm is pivoted out, instead of being displaced linearly toward the lavatory seat ring, for example, the rear section of the bearing frame can be formed short in a direction perpendicular to the rear side of the lavatory body.
In a further embodiment, the cleaning arm has a longitudinal axis, which is perpendicular to the pivot axis, and the cleaning arm is movable from an idle position, in which the longitudinal axis is parallel to the axis of rotation of the hinge joints, into a cleaning position, in which the longitudinal axis is perpendicular to the axis of rotation of the hinge joints.
In a further embodiment, the cleaning device comprises a cleaning head, which is detachably securable to the cleaning arm, having at least two wipers, which are arranged substantially parallel to the longitudinal axis of the cleaning arm when the cleaning head is installed on the cleaning arm.
In still a further embodiment, the cleaning arm comprises a water nozzle and a nozzle for a water/disinfectant and/or cleaning agent mixture. The advantage is thus achievable that the water sprayed onto the lavatory seat ring by the water nozzle causes a rough cleaning action, while a final cleaning of the lavatory seat ring is performed by the mixture sprayed onto the lavatory seat ring by means of the second nozzle.
In another embodiment, the cleaning head comprises two seat ring wipers, which are arranged essentially in parallel, wherein the nozzle for the water/disinfectant and/or cleaning agent mixture sprays the mixture onto the lavatory seat ring between the two seat ring wipers.
In another embodiment, the cleaning head additionally comprises a lateral wiper, which is arranged essentially parallel to the seat ring wipers and last in the peripheral direction of the lavatory seat ring.
In another embodiment, the cleaning device comprises a drive for the cleaning arm, wherein the drive comprises a first servomotor for a pivot movement and a second servomotor for a lift movement.
In still another embodiment, the drive device for the lavatory seat ring comprises an electric motor having a gearing and a toothed belt drive.
In a further embodiment, the lavatory seat ring comprises an oval or elliptical seat and a circular-cylindrical section, which is arranged below the seat, having a sprocket, and the toothed belt drive comprises a toothed belt and a drive wheel engaging in the sprocket.
In a further embodiment, the second assembly comprises a locking device, which is arranged on the bearing frame, for locking the lavatory seat ring in a correct position in the peripheral direction.
In another embodiment, the locking device comprises a drive, preferably a servomotor, which actuates a spring-loaded bolt, which can be engaged with or disengaged from the lavatory seat ring.
In another embodiment, the drive device for the lavatory seat ring is secured to the bearing frame via damping elements. The advantage is thus achievable that the drive device is secured to the bearing frame in a “floating” manner by means of the damping elements, for example, rubber grommets, so that the background noise is damped.
In a further embodiment, the toilet seat comprises a capacitive sensor for user recognition.
In a further embodiment, the toilet seat additionally comprises a radar sensor for user recognition. This embodiment has the advantage that standing users can also be recognized by the radar sensor.
In a further embodiment, the lavatory seat ring is mounted so it can slide on the bearing frame in the peripheral direction and is preferably detachably securable to the bearing frame by means of a bayonet fitting.
In another embodiment, the electrical components for the power supply, which are arranged in the housing of the first assembly, comprise an electrical power supply unit.
In another embodiment, the housing comprises a housing cover, and the electrical components for the power supply are batteries, which are insertable into the housing cover.
In still another embodiment, at least one hinge joint is equipped with a rotation damper.
In a further embodiment, the second assembly comprises at least one drain pan arranged in the bearing frame. It can be ensured by an overflow in the first assembly, which opens into the drain pan in the bearing frame, that overflowing liquid can drain in a controlled manner.
In a further embodiment, the second assembly comprises a cover having a flap for the cleaning arm, wherein the bearing frame is covered outside the lavatory seat ring by means of the cover.
The second assembly preferably comprises a light, by means of which the cleaning status of the lavatory seat ring can be displayed on the flap.
In one special embodiment of the toilet, the second assembly can be folded up in relation to the toilet.
The invention and refinements of the invention will be explained in greater detail hereafter on the basis of the partially schematic illustrations of multiple exemplary embodiments.
In the figures:
The embodiment of the toilet seat 1 according to the invention illustrated in
The first assembly 2 essentially comprises a housing 11 having a cavity 19 (
The second assembly 3 comprises in particular the lavatory seat ring 9, drivable in the peripheral direction, a bearing frame 29 for the lavatory seat ring 9, a drive device 26 for the lavatory seat ring 9, secured to the bearing frame 29, and a cleaning device 10 for the lavatory seat ring 9, also secured to the bearing frame 29. Since the first and second assemblies 3 are pivotably connected to one another by means of hinge joints 4, the second assembly 3 can be folded up in relation to the lavatory body 8 (
Electrical cable connections and liquid lines are arranged in the region of the hinge joints 4, by means of which the water/disinfectant or cleaning agent mixture, electrical power, and signal can be supplied or transmitted, respectively, to the second assembly 3 from the first assembly 2. The liquid lines and electrical connections then have to be disconnected at plug connections in the event of a removal of the second assembly 3.
The hinge joints 4 comprise first joint parts 5a, 5b, which are arranged on the mounting panel 7, and second joint parts 6a, 6b, which are arranged on the bearing frame 29. In the embodiment according to
Because the first joint parts 5a, 5b of the hinge joints 4 are arranged on the mounting panel 7, it is ensured that the forces acting on the lavatory seat ring 9 are transmitted directly to the lavatory body 8 via the mounting panel 7 and do not act on the housing 11 of the first assembly 2. The hinge joints 4 have a common axis of rotation 70 arranged transversely in relation to the toilet seat 1. Furthermore, the cleaning device 10 for the lavatory seat ring 9 comprises a cleaning arm 24, which is pivotable about a pivot axis 71 perpendicular to the bearing frame 29. The cleaning arm 24 has a longitudinal axis 69, which is perpendicular to the pivot axis 71. The cleaning arm 24 is pivotable from an idle position, in which the longitudinal axis 69 is essentially parallel to the axis of rotation 70 of the hinge joints 4, into a cleaning position, in which the longitudinal axis 69 is perpendicular to the axis of rotation 70 of the hinge joints 4.
The second assembly 3 comprises a bearing frame 29, which has a bearing 28 for the lavatory seat ring 9 rotatable in the peripheral direction in a front section, a drive device 26 for the lavatory seat ring 9 secured in a rear section of the bearing frame 29, a cleaning device 10 for the lavatory seat ring 9, also secured to the rear section of the bearing frame 29, a cover 23 (
A flap 73 is arranged on the cover 23, which opens upon pivoting out of the cleaning arm 24 and closes again upon pivoting in. Moreover, for example, the designation “CLEAN” is transparently incorporated on the flap 73, so that when the flap 73 is illuminated from the inside, the cleaning status of the toilet seat 1 is displayed to the user.
The pivot joint 30 of the cleaning arm 24 of the cleaning device 10 and the bearing 28 for the lavatory seat ring 9 are secured to the bearing frame 29 of the second assembly 3, so that the bearing 28 of the lavatory seat ring 9 is rigidly fixed relative to the pivot joint 30 of the cleaning arm 24, whereby an alignment drift between the lavatory seat ring 9 and the cleaning arm 24 is avoided.
The second pivot joints 6a, 6b of the hinge joint 4 are arranged on the rear section of the bearing frame 29. The second joint parts 6a, 6b can be engaged with the first joint parts 5a, 5b, so that hinge joints 4 are formed, by means of which the entire bearing frame 29, including lavatory seat ring 9, drive device 26, and cleaning device 10, is pivotably connected to the first assembly 2, which is fixedly arranged on the lavatory body 8, and can be folded up, for example, for cleaning the toilet. The pivot movement of the second assembly 3 in relation to the first assembly 2 is damped by a rotation damper 33, which thus prevents the bearing frame 29 from hitting the lavatory body 8. This rotation damper 33 is integrated into one of the second joint parts 6a of the hinge joints 4.
The cleaning device 10 comprises a cleaning head 31 (
The drive 25 for the cleaning arm 24 comprises two servomotors (electric motors having control electronics), of which a first servomotor is used for the pivot movement of the cleaning arm 24 about the pivot axis of the pivot joint 30 and a second servomotor is used for the lifting movement of the cleaning arm 24.
The cleaning head 31 (
The lavatory seat ring 9 comprises an oval or elliptical seat 72 and a circular cylindrical section, which is arranged below the seat 72, having a sprocket 53. The drive device 26 for the lavatory seat ring 9 arranged on the bearing frame 29 essentially comprises an electric motor having a gearing and a toothed belt drive, wherein the toothed belt drive comprises a toothed belt 54 and a drive wheel 74, which engages with the sprocket 53. Furthermore, the second assembly 3 contains a locking device 61 for locking the lavatory seat ring 9, arranged on the bearing frame 29 in a correct position in the peripheral direction, wherein the locking device 61 comprises a servomotor, which actuates a spring-loaded bolt, which can be engaged with or disengaged from the lavatory seat ring 9.
The drive device 26 for the lavatory seat ring 9 forms a subassembly. The drive of the lavatory seat ring 9 for the cleaning cycle takes place, for example, via a 24 V DC motor having a gear stage to achieve the desired speed. The drive device 26 for the lavatory seat ring 9 is secured to the bearing frame 29 in a floating manner via damping elements, for example, rubber grommets, so that the background noise is damped. The force transmission from the gearing to the cylindrical sprocket 53 on the lavatory seat ring 9 takes place via the toothed belt 54 and the drive wheel 74. The speed and/or the position of the lavatory seat ring 9 is determined via a light barrier. In addition, the drive device 26 for the lavatory seat ring 9 comprises a capacitive sensor 56 for the manual triggering of the drive device 26. The capacitive sensor 56 for the manual triggering and the capacitive sensor 57 for the user recognition, which is also arranged on the bearing frame 29, are controlled by the printed circuit board 55. The sensor 57 for the user recognition is arranged below the lavatory seat ring 9 to ensure that a user sitting down is reliably recognized. The user recognition predominantly takes place, however, with the aid of a radar sensor 58, which is also secured to the bearing frame 29, specifically on the side of the bearing frame 29 opposite to the drive device 29. The radar sensor 58 is to also enable standing users to be recognized. The radar sensor 58 is connected to a separate second printed circuit board 59, which comprises the entire controller for the radar sensor 58 and is also secured to the bearing frame 29, via a plug.
The lavatory seat ring 9 is detachably connected to a sliding ring 60, which is rotatably arranged in the bearing frame 29, by means of a bayonet fitting 27.
The first assembly 2 comprises an oblong housing 11, which is arranged at the rear end of the lavatory body 8 in the transverse direction in relation to the latter. The housing 11 has an upper side 12, a lower side 13 facing toward the lavatory body 8, a front side 14 oriented toward the lavatory seat ring 9, a rear side 15, and two lateral ends 16, 17. Furthermore, the housing 11 comprises, in the region of the lower side 13, a projection 18 protruding beyond the front side 14, below which the mounting panel 7 is arranged. The cavity 19 (
The mounting panel 7 additionally comprises two tabs 21a, 21b (
For toilet bodies 8 having a passage hole, the entire toilet seat 1 can be installed directly on the lavatory body 8. However, if a lavatory body 8 having pocket holes is used, the mounting panel 7 firstly has to be secured to the lavatory body 8. Subsequently, the housing 11 having preinstalled components can be pushed onto the mounting panel 7 and screwed on. In the last step, the second assembly 3 then has to be connected to the mounting panel 7 via the hinge joints 4.
Leveling screws 68 (
The first assembly 2 (
The water connection unit 34 is arranged in the region of the first lateral end 16 and comprises a water connection 37 for service water arranged on the lower side 13 of the housing 11.
By way of example and non-restrictively, the pump 36 is designed as a double-action pump, for example, as a tubing pump having gear stages. The pump 36 suctions the disinfectant and/or cleaning agent from the reserve tank 40, on the one hand, and receives water for the mixture from the pipe interrupter 39, on the other hand. A preferred mixing ratio of water and disinfectant and/or cleaning agent of 25:1 is achieved by different tube diameters, in addition to the gearing stage of the pump 36. Because only small quantities of disinfectant and/or cleaning agent are conveyed, a long usage duration until the next refilling results. The pump 36 conveys the mixture to the cleaning arm 24 (
The electrical components for the power supply and the electronic controller are arranged in the region of the second lateral end 17. The cleaning of the lavatory seat ring 9 is automatically initiated after each usage of the toilet by the electronic controller. The power supply comprises a power supply unit 45 which can be turned on and off, wherein different switching power supply units are usable, which comprise, by way of example and non-restrictively, 230 V AC, 24 V DC, and 12 V DC power supply units, respectively. The cleaning procedure can be triggered via an external controller, via the operating interface 46 connected to the electronic controller, or via the radar sensor 58. The operating interface 46, which is directly connected to the electronic controller on the power supply unit 45 via a power strip, is snapped into the second cover 47. The cover 47 is secured to the housing 11 by means of a screw. With removed second cover 47, the operating interface 46 is also removed, whereby the screw for securing the mounting panel 7 to the lavatory body 8 becomes accessible.
The housing 11 of the first assembly 2 is closable on its upper side 12 by means of a cover 49 (
The electrical contact of the batteries takes place via a spring contact when the cover 49 is put on. If the cover 49 is removed, for example, for a container replacement, the option exists of suspending the cover 49 at the first end 16 of the housing 11, so that the power supply takes place in this case via a cable plug connection. Means are provided in the interior of the cover 49, by means of which the cable for the cable plug connection can be wound up at a defined position, so that pinching of the cable when the cover 49 is put on can be prevented.
Although various embodiments of the present invention as described above are provided, these are to be understood so that the various features can be used both individually and also in any combination.
This invention is therefore not restricted simply to the above-mentioned, particularly preferred embodiments.
Filing Document | Filing Date | Country | Kind |
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PCT/CH2015/000137 | 9/16/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2017/045085 | 3/23/2017 | WO | A |
Number | Name | Date | Kind |
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1207188 | McLean | Dec 1916 | A |
2465460 | Kronhaus | Mar 1949 | A |
4734942 | Blanchard | Apr 1988 | A |
5813057 | Descent | Sep 1998 | A |
6289526 | Chang | Sep 2001 | B1 |
8136171 | Huang | Mar 2012 | B2 |
Number | Date | Country |
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0221017 | May 1987 | EP |
H01185229 | Jul 1989 | JP |
H0838395 | Feb 1996 | JP |
2002209797 | Jul 2002 | JP |
Number | Date | Country | |
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20180255989 A1 | Sep 2018 | US |