Patent Grant
11148929
The present application is a national phase application of PCT Application No. PCT/EP2018/064817, filed Jun. 6, 2018, entitled “CONNECTOR FOR WATER TANK HAVING A WIRELESS FILLING LEVEL OR CONSUMPTION TRANSMITTER FOR WATER DISPENSER”, which claims the benefit of Austrian Patent Application No. A 50526/2017, filed Jun. 26, 2017, each of which is incorporated by reference in its entirety.
The invention concerns an intermediate part of a water dispenser.
Water dispensers, mostly in the form of free-standing or self-sufficient devices, are known to be increasingly installed in places frequented by a large number of people. Such water dispensers can be found especially in public authorities, offices and other institutions, but also in shops and department stores. The water of these water dispensers comes from water tanks, which are inserted into the water dispensers at the top of most models. An advantage of such known water dispensers is that they operate in a self-sufficient manner and can be installed as required without special restrictions. Due to the quite simple technology of such water dispensers, they have a long service life, which is usually greater than 15 years and which can also be 30 years.
A disadvantage of such water dispensers is that their water consumption depends on the amount of water drawn and is therefore difficult to predict. Most of the water dispensers are serviced by companies responsible for this purpose, and the water tanks are exchanged or replaced. Due to the unpredictable water level situation, an unnecessary exchange of a water tank within the scope of a maintenance date determined in advance can occur as well as an empty water dispenser.
It can be argued against water dispensers which are able to record the residual water level in the connected water tank themselves and to send corresponding messages regarding a replacement that the replacement of conventional water dispensers which are in themselves fully operational would be necessary. In addition to the acquisition costs of new water dispensers, electrical devices have a considerably reduced service life and a higher susceptibility to faults compared to mechanically simple water dispensers. On the basis of the current availability and lifetime of electronic components, it must be assumed that within 10 to 15 years after the introduction of an electronic product, spare parts supply, in particular for ICs and μPS, can no longer be guaranteed. Should a component defect therefore occur, such devices can become irreparable within a short service life of the device per se. In addition, such devices use certain telecommunication standards for data transmission. Due to the continuous improvement and change of such standards, such fully equipped water dispensers will sooner or later no longer be able to communicate as intended, either because a certain transmission standard is no longer supported by the network operators, or because entire networks are taken out of service, as has often been the case in the past. Although water dispensers from the late 1980s are still in use, when the German C-network was the widespread mobile radio standard, the C-networks concerned were completely switched off and dismantled, and no downward-compatible successor technology is available.
It is therefore the object of the invention to provide a water dispenser intermediate part of the type mentioned at the beginning, with which the mentioned disadvantages can be avoided, with which the security of water supply of a water dispenser can be improved with little effort, and which does not limit the service life of the water dispenser.
According to the invention, this is achieved by a water dispenser intermediate part including first connecting means for connecting a water tank to the water dispenser intermediate part and second connecting means for connecting the water dispenser intermediate part to a water dispenser device. The water dispenser intermediate part also includes a water pipe piece connecting the first connecting means to the second connecting means and a water consumption meter and/or a water level sensor for determining a water consumption via the water pipe piece and/or a water level in the water tank. The water dispenser intermediate part further includes at least one transmitter part for wireless transmission of water consumption values and/or water level messages of the water tank.
This allows existing water dispensers to be retrofitted in such a way that they can at least send reports to a service company or other interested party regarding the amount of water dispensed or the water level in the water tank of the water dispenser. In this way, a situation can be avoided in which a water dispenser no longer has any water available for delivery in an unrecognized way by sending a corresponding message to an employee or company entrusted with the exchange of the water tank at the latest when a predefinable residual quantity in the water tank has been reached.
This can also be used to send additional information concerning the operation or operating status of the water cooler, such as the operation according to an intended function, or the water temperature. This makes it possible to retrofit already existing and still reliable devices easily and with little effort. Since it is not necessary to transport the water dispenser itself, since the water dispenser intermediate part can simply be attached on site to an already installed water dispenser, the environment is also protected. In the event of a defect in the water dispenser intermediate part, it can be replaced easily, quickly and without complications. Even in the event of a total failure of the water dispenser intermediate part, it is still possible to remove water. A combination of water dispenser and intermediate water dispenser can be easily adapted to changing technical conditions, such as a changing telecommunications environment, by simply replacing an existing water dispenser intermediate part with a new water dispenser intermediate part adapted to the current state of transmission technology, without having to make any changes to the water dispenser itself. This makes it possible to operate a water dispenser throughout its entire service life without restriction, wherein additional functions can be kept up to date by adapting or replacing the water dispenser intermediate part.
This allows a change of a service provider who services certain water dispensers to be made simply by changing the water dispenser intermediate parts.
The subclaims relate to further advantageous embodiments of the invention.
Express reference is hereby made to the wording of the patent claims, wherein the claims are inserted here by reference in the description and are deemed to be reproduced verbatim.
The invention is described in more detail with reference to the enclosed drawings, in which only preferred embodiments are shown by way of example, wherein:
The
This allows existing water dispenser devices 5 to be retrofitted in such a way that they can at least send reports to a service company or another interested party regarding the quantity of water dispensed or the water level in the water tank 3 of the water dispenser. This can prevent a situation in which a water dispenser is unrecognizably out of water for delivery by sending a message to an employee or company responsible for exchanging the water tank 3, at the latest when a predefinable residual quantity in the water tank 3 has been reached.
This also allows further information concerning the operation or operating status of the water dispenser 5, such as the operation according to an intended function, or the water temperature, to be transmitted. This makes it possible to retrofit already existing and still reliable devices easily and with little effort. As it is not necessary to transport the water dispenser 5 itself, as the water dispenser intermediate part 1 can simply be attached on site to a water dispenser 5 that has already been installed, the environment is also protected. If the water dispenser intermediate part 1 is defective, it can be replaced easily, quickly and without complications. Even in the event of a total failure of the water dispenser intermediate part 1, it is still possible to withdraw water. A combination of water dispenser 5 and water dispenser intermediate part 1 can easily be adapted to changing technical conditions, such as a changed telecommunications environment, by simply replacing an existing water dispenser intermediate part 1 with a new water dispenser intermediate part 1 adapted to the current state of transmission technology, without having to modify the water dispenser 5 itself. This makes it possible to operate a water dispenser 5 over its entire service life without restriction, wherein additional functions can be kept up to date by adapting or replacing the water dispenser intermediate part 1.
The water dispenser intermediate part 1 in question is intended to be arranged between a water tank 3 or water reservoir, which is designed as a transparent plastic container with a capacity of for example 3 to 15 liters, and a water dispenser 5, which is also called water dispenser device 5 synonymously in this case.
The water dispenser intermediate part 1 has first connecting means 2 for connecting a water tank 3 to the water dispenser intermediate part 1. The first connecting means 2 are designed to be essentially watertight, and preferably correspondingly diametrically opposed to the connecting means of a water tank 3 to be arranged. The first connecting means 2 are designed to approximately comprise a screw thread and at least one sealing ring.
The water dispenser intermediate part 1 also has second connecting means 4 for connecting the water dispenser intermediate part 1 to a water dispenser device 5. The second connecting means 4 are also preferably designed to be watertight and correspondingly diametrically opposed to the connecting means of a water dispenser 5. The second connecting means 4 are designed to approximately comprise a screw thread and at least one sealing ring. It is preferably provided that the first connecting means 2 and the second connecting means 4 are designed in such a way that a release resistance of the first connecting means 2 is lower than a release resistance of the second connecting means 4. This can be achieved so that the connection between the water dispenser intermediate part 1 and the water dispenser 5 is not opened when the water tank 3 is replaced. Release resistance is designated as the resistance to the initial release of the corresponding fixed connection. With the preferred design of the two connecting means 2, 4 including screw threads, this would mean that the maximum required torque at the second connecting means 4 would be greater than the corresponding torque at the first connecting means 2.
It is particularly preferably provided that a mechanical locking device is associated with the second connecting means 4, which mechanical locking device requires a tool, in particular a special or not commonly available tool, for separating the connection between the second connecting means 4 and the water dispenser 5.
In accordance with a preferred embodiment, it is provided that the first connecting means 2 has a closure opening projection, which closure opening projection is designed and arranged in such a way that in the course of the arrangement of a water tank 3 at the first connecting means 2 a closure of the water tank 3, in particular a sealing film, is opened, in particular severed or pierced. This ensures that the water tank 3 is also opened when the water tank 3 is attached to the water dispenser intermediate part 1. Such a closure opening projection is known from rotary closures in beverage cartons, for example, in which a foil-like fresh seal is simultaneously punctured or opened during the first opening process.
Between the first connecting means 2 and the second connecting means 4 a water pipe piece 6 of the water dispenser intermediate part 1 is arranged. The water pipe piece 6 is arranged as a pipe or hose.
The water dispenser intermediate part 1 has at least one water consumption meter 7 for determining water consumption via the water pipe section 6. The water consumption meter 7 can be designed differently, wherein the flow volume quantity or the flow mass quantity is recorded by the water tank 3 in the water dispenser 5. It is preferably provided that the water consumption meter 7 is designed to include a mechanical meter, in particular an impeller flowmeter, which makes it particularly easy to implement a water dispenser intermediate part 1. According to a further embodiment, it is provided that the water consumption meter 7 is formed by means of a flow meter without mechanical, movable components within the water pipe section 6, wherein the susceptibility to contamination can be reduced. Other types of water consumption meter 7 may also be provided.
In accordance with a particularly preferred embodiment, it is provided that the water dispenser intermediate part 1—in addition or alternatively to the water consumption meter 7—has at least one water level sensor 15 for determining a water consumption via the water pipe section 6 and/or a water level in the water tank 3. It is preferably provided that the water level sensor 15 is designed to include a weighing device. In particular, any form of weight or mass sensor is regarded as a weighing device. Weighing devices or corresponding sensors are known in different embodiments. The water level sensor 15 is arranged on the water dispenser intermediate part 1 in such a way that it is possible to weigh the water tank 3. In particular, it is provided that the water level sensor 15 is arranged in the area of the first connecting means 2. In this context, it may be provided that the empty mass of a water tank 3 or different water tanks 3 is stored in the water dispenser intermediate part 1.
Preferably, the water dispenser intermediate part 1 has a control and/or monitoring unit 10, which is preferably formed comprising at least one microprocessor or microcontroller. The control and/or monitoring unit 10 is operatively connected to the water consumption meter 7 or the water level sensor 15 or forms part of the water consumption meter 7 or the water level sensor 15, for example by automatically storing the meter reading when the water tank 3 is replaced and only determining the deviating relative quantity, or by the control and/or monitoring unit 10 carrying out the actual counting process. Furthermore, at least one I/O interface and/or at least one memory module can be assigned to the control and/or monitoring unit 10.
The water dispenser intermediate part 1 preferably has an internal power supply 14, which supplies the control and/or monitoring unit 10 and other components of the water dispenser intermediate part 1 with electrical energy. It may be provided that the power supply 14 is designed to be independent of the mains current, preferably comprising an accumulator, and/or that the power supply 14 is designed to comprise a so-called power supply unit, in particular a switching power supply unit, as a result of which a locally available mains connection can optionally be used.
The water dispenser intermediate part 1 has at least one transmitter part 8, 9 for wireless transmission of water consumption values and/or water level messages from the water tank 3. In accordance with the preferred embodiment, it is provided that the water dispenser intermediate part 1 has a first transmitter part 8 and a second transmitter part 9, which are each designed for data transmission according to different standards or transmission protocols.
The at least one transmitter part 8, 9 is at least indirectly connected to the control and/or monitoring unit 10, therefore connected to it by circuitry.
Preferably, at least one transmitter part 8, 9 is designed as a bidirectional radio interface, wherein control data or software updates, for example for the control and/or monitoring unit 10, can also be received. Alternatively, in environments where radio communication is problematic, for example, data transmission using infrared or ultrasound can also be provided. It is also preferably provided that the at least one transmitter part 8, 9 be used for the data transmission in accordance with GSM and/or GPRS and/or EDGE and/or UMTS and/or CDMA2000 and/or LTE and/or for data transmission in accordance with at least one of the standards in accordance with IEEE 802, in particular IEEE 802.11, therefore so-called W-LAN. This allows existing infrastructure to be used.
Preferably it is also provided that the water dispenser intermediate part 1 has at least one line-bound interface 12, in particular in accordance with the USB standard and/or Ethernet, which interface 12 is at least indirectly connected to the control and/or monitoring unit 10. If a network connection is available in the area where the water dispenser 5 is installed, this can also be used for communication with the water dispenser intermediate part 1. However, such an interface can also only be used for a configuration of the water dispenser intermediate part 1, for example in the course of maintenance or new installation.
According to a preferred further development it is provided that the water dispenser intermediate part 1 has at least one display 11, which display 11 is at least indirectly connected to the control and/or monitoring unit 10. This makes it possible not only to read out status or problem reports from the control and/or monitoring unit 10, but also, for example, to display advertising content, which can generate additional income with a water reservoir. In addition, passers-by can be encouraged to drink. This can improve the health of older people in particular, who usually forget to drink.
| Number | Date | Country | Kind |
|---|---|---|---|
| A 50526/2017 | Jun 2017 | AT | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2018/064817 | 6/6/2018 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/001913 | 1/3/2019 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 4001801 | Moulet | Jan 1977 | A |
| 4795060 | Albrecht | Jan 1989 | A |
| 4846236 | Deruntz | Jul 1989 | A |
| 6636151 | Busick | Oct 2003 | B2 |
| 8281821 | Spear | Oct 2012 | B2 |
| 8356731 | Xiao | Jan 2013 | B2 |
| 10563909 | Scalf | Feb 2020 | B2 |
| 10670444 | Gurumohan | Jun 2020 | B2 |
| 20020101346 | Busick | Aug 2002 | A1 |
| 20070125795 | Ernes | Jun 2007 | A1 |
| 20090242585 | Wang | Oct 2009 | A1 |
| 20140239013 | Santos | Aug 2014 | A1 |
| 20140263429 | Keating | Sep 2014 | A1 |
| 20140263430 | Keating | Sep 2014 | A1 |
| 20170087524 | Deshpande | Mar 2017 | A1 |
| 20170108880 | Kim | Apr 2017 | A1 |
| 20190093942 | Scalf | Mar 2019 | A1 |
| 20190186649 | Warren | Jun 2019 | A1 |
| 20200031656 | Rudick | Jan 2020 | A1 |
| Number | Date | Country |
|---|---|---|
| 1408105 | Apr 2003 | CN |
| 200984103 | Dec 2007 | CN |
| 105073629 | Nov 2015 | CN |
| 105595838 | May 2016 | CN |
| 3509189 | May 1986 | DE |
| 202015000948 | Feb 2015 | DE |
| 0220392 | Mar 2002 | WO |
| Entry |
|---|
| International Application No. PCT/EP2018/064817, International Search Report dated Aug. 28, 2018, 5 pages. |
| Austria Application No. A 50526/2017, Office Action dated Apr. 13, 2018, 2 pages. |
| International Application No. PCT/EP2018/064817, International Preliminary Examination Report dated Aug. 28, 2018, 10 pages. |
| Chinese Application No. 201880041409.4, Office Action dated Apr. 1, 2021, 13 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20200148528 A1 | May 2020 | US |
