NO311144B1 - Flushing mechanism for water closet - Google Patents

Description

The present invention relates to a flushing mechanism for water closets with toilet cisterns, which flushing mechanism is placed inside the toilet cistern, or in connection with it, and where the toilet cistern also includes a mechanical flushing device with an activation device, as well as a non-contact sensor connected to an electronic circuit. The flushing mechanism in accordance with the present invention uses the water inlet to the cistern as driving force to activate the flushing device, which in turn is operated with the contactless sensor in connection with the toilet cistern.

The flushing mechanism according to the present invention is included as a further improvement of previously known touch-free solutions in connection with sanitary equipment. Through new knowledge about the transmission of infection via public touch points as well as legislation and requirements for sanitary materials, especially in public places, such touch-free solutions have received increased attention from both manufacturers of sanitary materials and consumers. The purpose is i.a. to reduce the number of touch points for a person in a public place, e.g. a public toilet or similar.

Especially in connection with public toilets, most users are in contact with sanitary equipment, such as the operating device for toilet flushers. This can be designed in different ways, such as a push button, a mechanism to be pulled up, a lever to be turned, a handle to be pulled down or to the side or similar. The operation of the toilet flusher thereby becomes a point of contact for most users and therefore becomes a significant source of infection by bacteria, etc. However, recent legislation and HSE regulations require that contact points where there is a risk of infection transmission be limited to a minimum, such as the toilet seat and toilet flushing operation. One can think of several different solutions to reduce contact between a user and the toilet flush operator, but the best solution is of course complete freedom from contact.

Of previously known solutions, which relate to the problem area, there exist, among other things, non-contact sensors which are connected in various ways to the toilet flushing device. The sensor can, for example, initiate flushing of urinals or the like when people approach or move away from the sanitary equipment, or the sensor can be placed in a suitable place where the user e.g. must block a sensor for longer than a certain period of time in order to activate the toilet flushing mechanism.

Among previously known solutions, reference can be made to the following patent publications: GB 2260998-A, EP 0453702, US 4941215, US 5062453, US 5313674 and US 5432959. In particular, reference should be made to the aforementioned US patent 5062453, which describes a non-contact flushing device that uses incoming water pressure to the cistern to activate the cistern's flushing mechanism. Similar is also described in US 4,756,031 and US 2,858,546.

Reference should also be made to the applicant's patent application NO 19985945 which further describes a device with a contactless toilet flusher which is placed in a toilet cistern and where the contactless sensor is connected to an electronic circuit which in turn drives the toilet flush mechanism via an electric servomotor or similar.

The disadvantage of a majority of the technical solutions mentioned above is i.a. that the contactless sensor activates the toilet flushing mechanism via an electrically driven device such as a servo motor, a solenoid that moves a mechanical mechanism or similar, which solutions all have in common that the power consumption is relatively high, seen over a longer period of time such as two or more years. If the electronic circuit and the sensor are connected to an external energy source, e.g. power grid or other stable energy supply, then mainly the energy consumption does not pose a problem beyond the fact that it is of course desirable to consume as little electrical energy as possible in connection with the solution. If, however, it is desirable to use stored energy in the form of batteries, the power consumption will of course be of interest, as this has a direct impact on the life of the battery.

In this connection, it is desirable to use electrical energy only for the operation of necessary elements, and otherwise use another energy source to operate the toilet flushing device itself.

It is therefore an aim of the present invention to produce a flushing mechanism for water closets with toilet cisterns, where one or more non-contact sensors are connected to the flushing mechanism's activation device, and where the flushing mechanism is powered by a different energy source than the available electrical energy source.

It is also a purpose of the flushing mechanism in the present invention that the electrical component(s) must have a power consumption that is so low that a normal battery (ordinary size and capacity) can keep the flushing mechanism operational for a period of time adapted to the normal lifetime of the mechanism.

The flushing mechanism according to the present invention is further stated in the introductory part of subsequent claim 1, with characteristic features as stated in the characterizing part of independent claim 1. Further embodiments of the flushing mechanism are further stated in the underlying claims.

Various construction examples and alternative embodiments of a flushing mechanism according to the present invention are further indicated in the subsequent, detailed description with reference to the attached figures, where: Fig. 1 in cross-section from above shows a water closet cistern containing an embodiment of the flushing mechanism according to the present invention;

fig. 2 shows in cross-section from the front the cistern in fig. 1, with an embodiment of the flushing mechanism according to the present invention;

fig. 3 in perspective an embodiment of the trigger mechanism used in the preferred embodiment according to the present invention.

In the drawings fig. 1 shows in section from above through a toilet cistern the placement of an embodiment of a flushing mechanism according to the present invention. The flushing mechanism essentially consists of an electrically operated solenoid valve 3 with a valve housing 3'. The valve housing 3' has an inlet and an outlet, which inlet is connected to a water supply 7 which can for example be a branch of the water supply to the toilet cistern. In other embodiments, the solenoid valve 3 can be replaced with various forms of electrically or electronically operated valve devices, such as solenoid valves. The solenoid valve 3 in the embodiment shown in fig. 1 is further connected to an electronic control circuit 5 via a wire connection 6. Furthermore, the electronic circuit 5 is connected to an electrical energy supply via the wire connection 16. The energy supply can be a stored electrical energy source, such as a battery or "the energy supply can be an electrical network where the supply preferably takes place via a transformer to achieve the correct voltage level. Alternatively, the supply can be a low-voltage network where a transformer is not necessary.

The electronic circuit 5 is further connected to a non-contact sensor (not shown) of an otherwise known type which is activated by the toilet user. Such a sensor can, for example, be an infrared or another form of sensor which is, for example, activated by holding the palm within a certain distance for a short period of time, which activates the solenoid valve 3 via the electronic circuit 5.1 the preferred embodiment thus opens the solenoid valve 3 in a certain time period (controlled by the electronic circuit 5).

Furthermore, the valve housing 3' is connected to a trigger mechanism 4 via a connection line 8.1 an alternative embodiment, the valve housing 3 and the trigger mechanism 4 can be present in an integrated form or these can be connected via a very simple connection 8, which e.g. a threaded pipe connection, a simple hose connection or similar.

The trigger mechanism 4 is driven by the water jet from the outlet of the valve housing 3, and in the transition between the valve housing 3 and the trigger mechanism 4, or in the inlet to the trigger mechanism 4, a nozzle is therefore placed in the preferred embodiment which is directed towards a trigger element in the trigger mechanism 4. The placement of the nozzle is preferred as this gives an increased opportunity to influence the flow of water into the trigger mechanism, beyond the time period that the solenoid valve keeps the valve in the valve housing 3' open. Thus, the outlet speed and cross-sectional diameter of the water jet into the release mechanism 4 can be adjusted at the nozzles. In addition, the direction of the water jet into the housing 4 of the release mechanism can be more easily adjusted by placing a nozzle, for example on a ball joint or with a flexible pipe connection. An embodiment of a trigger mechanism is further indicated in fig. 2 and 3, where in the housing 4 a flap 13 is rotatably supported about a pivot point 14. The rotatably supported flap 13 is placed perpendicular to the direction of flushing from the nozzle at the inlet to the trigger mechanism 4 and the nozzle is further set so that the water jet hits the flap 13 with a distance from the center of rotation 14 so that the water jet exerts a moment about the pivot point 14. The flap 13 will thus, under the influence of the water jet from the nozzle at the inlet to the housing 4, rotate as indicated in fig. 2 and 3. This turning movement is utilized by, for example, a turning disc on the side of the housing 4 being connected to the turning center 14 so that the turning disc follows the turning movement of the flap 13 under the influence of the water jet from the nozzle at the inlet to the housing 4. Furthermore, the turning disc 17 is in accordance with present invention, via a connecting device 9 (a rigid strut or similar) connected to the toilet cistern's flushing device and essentially its activation device, mainly marked 2 in fig. 1 and 2.

If the toilet cistern's activation device for the flushing device is to be moved down into the toilet cistern, it will be natural that the connection device 9 is attached to the turntable 17 on the corresponding side as shown in fig. 2. If, however, the activation device 2 for the flushing device in the toilet cistern is to be moved up into the cistern, it will be natural to attach the connection device 9 on the opposite side of the turntable 17 in relation to the pivot point 14 and the flap 13's normal starting position. Thus, the turning movement of the turning disk 17 will give an upward movement in contrast to what is shown in fig. 2. Alternatively, the spray direction of the nozzle in the housing 4 can be changed so that it exerts a force against the flap 13 on the opposite side of the pivot point 14.

The pivot point 14 for the flap 13 can, for example, be a shaft attached to each side of the housing 4 or a form of elastic attachment of the flap 13 on each side against the walls of the housing 4.

Furthermore, the housing of the release mechanism 4 is provided with a drainage hole to release the water that is flushed through the solenoid valve 3.1. In this connection, a drainage hole 11 is placed downstream in relation to the flap 13 which releases the water that passes past the flap 13 while flushing against it. Furthermore, a drainage hole 12 is located upstream in the housing, in relation to the flap 13, which releases the water that is flushed towards the flap 13 and which does not pass the flap. Thus, both sides of the flap 13 in the housing of the release mechanism 4 will be able to be drained. The drainage continues down into the cistern's other water basin.

It is also in fig. 1 and 2 show a container 10 for sanitary liquid which is flushed through an opening 15 into the cistern when needed. Such discharge of sanitary liquid from the container 10 can, for example, also be controlled by the electronic circuit 5, as indicated in previously filed patent application no. 19985945.

The flushing mechanism according to the present invention can be placed in a closed unit which is only connected to the water inlet 7 and further connected to the toilet cistern's activation device for the flushing device 2, and where at the bottom of the flushing device there are drainage holes 11 and 12 which let the water from the housing to the outlet mechanism 4 escape. the flushing mechanism is designed in a waterproof container which also contains the necessary power supply in the form of a battery. If the flushing mechanism's electronic control 5 is to be connected to an external power source, this can further be done through a watertight passage of a wire connection 16 which is then led out through a suitable opening in the toilet cistern to an external connection for electric power. - .

The flushing mechanism according to the present invention is stated in the above in the form of exemplified solutions and it will of course be possible for a person skilled in the field to produce nearby modifications and adaptations in relation to the individual toilet cisterns where the flushing mechanism is to be used. Such adaptations must nevertheless be considered to fall within the scope of the invention which is further specified in the subsequent patent claims.

Claims (3)

1. Flushing mechanism for water closets with toilet cisterns (1) including mechanical flushing device with an activation device (2), as well as including a non-contact sensor connected to an electronic circuit (5), which flushing mechanism essentially consists of an electrically operated solenoid valve (3, 3') with an inlet (7) and an outlet (8), which inlet (7) is connected to a water inlet line to the cistern and the outlet (8) is connected to a release mechanism (4) which is further functionally connected to the flushing device's activation device (2) via a mechanical connection (9), and which solenoid valve (3,3') is connected to the electronic circuit (5) via the wire connection (6), characterized in that the release mechanism (4) consists of a housing with an inlet provided with a nozzle oriented in a flushing direction into the housing as well as one or more outlets, and a flap (13) rotatably supported in the housing on a pivot shaft (14), positioned perpendicularly in relation to the flushing direction where the water from the nozzle attacks the rotatably supported flap (13) eccentrically in relation to the pivot shaft (14) and that the rotatably supported flap (13) placed on the pivot shaft (14) is provided with a turntable (17) which is again connected to the flushing device activation device (2) via a strut (9). 2. Flushing mechanism according to claim 1, characterized in that the electronic circuit (5) is connected to a stored electrical energy source, such as a battery via a wire connection (16). 3. Flushing mechanism according to claims 1-2, characterized in that the electronic circuit (5) is connected to a supply of electrical energy via a transformer.