Various aspects of the present disclosure relate generally to embodiments of systems and methods for a smart dispenser system. More particularly, the present disclosure describes embodiments of systems and methods for monitoring razor cartridges in a dispenser system, the use of those razor cartridges, and refilling or otherwise replenishing used razor cartridges or razor cartridges otherwise removed from the dispenser system.
Typical shavers include a handle and a razor cartridge, with the razor cartridge including at least one blade configured to shave hair. After a certain number of uses, the razor cartridge blades may, e.g., become dull or otherwise unsuitable for continued shaving, and the cartridge may be discarded and replaced with another cartridge (e.g., a new cartridge) having relatively sharp or otherwise unused blades. The replacement cartridge may be provided in a dispenser or tray. Even though it is common knowledge that a razor cartridge has a certain usage lifetime, most users do not carefully track their razor cartridge usage, especially since the usage lifetime may vary by user based on, e.g., the shaving habits of a user and/or the characteristics of the hair of a user (e.g., thickness, coarseness, density, etc.). As a result, cartridges with blade(s) that are still sufficiently sharp for comfortably obtaining a good shave may often be discarded prematurely, or cartridges that are too dull may continue to be used, albeit with potentially reduced comfort, less than desirable results, or both. Moreover, razor cartridges often are packaged and sold in dispensers, with the dispensers containing anywhere from at least two to a multitude of razor cartridges, for example, ten razor cartridges. After a user has used and discarded the last razor cartridge in the dispenser, the user must then purchase an additional dispenser of razor cartridges.
Both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the features, as claimed. As used herein, the terms “comprises,” “comprising,” or other variations thereof, are intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but may include other elements not expressly listed or inherent to such a process, method, article, or apparatus. Additionally, the term “exemplary” is used herein in the sense of “example,” rather than “ideal.” Further, the terms “first,” “second,” and so on are used herein to refer to an exemplary object in a group of one or more objects and are not used to denote numeric order, relative location, or superiority within that group of objects, unless otherwise specified. It should be noted that all numeric values disclosed or claimed herein (including all disclosed values, limits, and ranges) may have a variation of +/−10% (unless a different variation is specified) from the disclosed numeric value. Moreover, in the claims, values, limits, and/or ranges means the value, limit, and/or range +/−10%.
A shaving system may include a dispenser including a plurality of slots, a first of which may be configured to releasably receive a cartridge having at least one razor blade. An electrical circuit associated with the first slot may include first and second electrically conductive elements, which may be spaced apart from one another to form a gap therebetween. The electrical circuit may be configured to switch between an open configuration in which the gap is unbridged and a closed configuration in which an electrically conductive material spans the gap, electrically connecting the first and second electrically conductive elements. The system may be configured to detect removal of a first cartridge from the first slot based on whether the electrical circuit is in the open or the closed configuration. The system may generate a signal when removal of the first cartridge is detected.
Various embodiments of the system may include one or more of the following features. The signal may be configured for transmission to a third party. The signal may be a request for delivery of at least one new cartridge. The system may also include a push button, and depressing or releasing the push button may switch the electrical circuit between the first configuration and the second configuration. The first slot may contain a cartridge therein. At least a portion of the cartridge contained within the first slot may span the gap between the first electrically conductive element and the second electrically conductive element, electrically connecting the first electrically conductive element and the second electrically conductive element and placing the electrical circuit in the closed configuration. The cartridge may include a protective film, and the protective film may be configured to electrically connect the first electrically conductive element and the second electrically conductive element. Presence of the cartridge within the first slot may switch the electrical circuit into the open configuration. The system may also include a docking station configured to receive the dispenser, wherein the electrical circuit is included as part of the docking station.
Embodiments of the present disclosure may also be drawn to a shaving system. The shaving system may include a dispenser including at least one slot, wherein each of the at least one slots is configured to releasably receive a cartridge including at least one blade, and at least one cartridge positioned in the at least one slot. The system may be configured to detect a removal of the at least one cartridge from the at least one slot, and in response to detecting the removal, the system may be configured to generate a signal for transmission to a third party.
Various embodiments of the system may include one or more of the following features. At least one conductive element may be configured to engage a corresponding conductive element of the at least one cartridge when the at least one cartridge is positioned within the at least one slot. The system may be configured to detect the removal of the at least one cartridge from the at least one slot by detecting when the at least one conductive element disengages from the corresponding conductive element on the at least one cartridge. The corresponding conductive element on the at least one cartridge may include a protective film, and the protective film may be configured to electrically couple to the at least one conductive element. The system may also include at least one electrical circuit, wherein the at least one electrical circuit is configured to switch between an open configuration and a closed configuration, and wherein presence of the cartridge within the first slot switches the electrical circuit into the open configuration. The system may also include at least one electrical circuit, wherein the at least one electrical circuit is configured to switch between an open configuration and a closed configuration, and wherein the system is configured to detect removal of at least one cartridge from at least one of the plurality of slots based on whether the at least one electrical circuit is in the open configuration or the closed configuration. The system may further include a docking station configured to receive the dispenser, wherein the at least one electrical circuit is included as part of the docking station. The system may further include at least one proximity sensor, and the system may be configured to detect the removal of the at least one cartridge from the at least one slot using the at least one proximity sensor. The signal may be a request for delivery of at least one additional cartridge.
Another embodiment of the present disclosure may be drawn to a method of ordering a replacement razor cartridge. The method may include detecting removal of a razor cartridge from a dispenser. Upon detecting the removal of the razor cartridge from the dispenser, the method may include initiating an order for at least one replacement razor cartridge.
Various embodiments of the system may include one or more of the following features. Detecting the removal of the razor cartridge from the dispenser may include at least one of: (i) detecting whether at least one circuit associated with the dispenser is in an open configuration or a closed configuration, or (ii) detecting whether the razor cartridge is within proximity of at least one proximity sensor associated with the dispenser. Initiating the order for the at least one replacement razor cartridge may include generating a signal and transmitting the signal. Initiating the order for at least one replacement razor cartridge may include initiating an order for a replacement dispenser containing a plurality of replacement razor cartridges.
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate various exemplary embodiments and together with the description, serve to explain the principles of the disclosure. There are many aspects and embodiments described herein. Those of ordinary skill in the art will readily recognize that the features of a particular aspect or embodiment may be used in conjunction with the features of any or all of the other aspects or embodiments described in this disclosure.
Examples of the present disclosure include systems and methods to facilitate razor cartridge usage and/or ordering. For example, aspects of the present disclosure may provide a user with the ability to more easily identify degradation of a razor cartridge and more simply obtain replacement razor cartridges to, e.g., continue shaving without additional human intervention to purchase or otherwise procure replacement cartridges. More specifically, certain aspects of the present disclosure describe a smart razor cartridge refill system and method configured to automatically order replacement razor cartridges via the internet from an e-commerce business without user intervention or with minimal user intervention.
Reference now will be made in detail to examples of the present disclosure described above and illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.
According to aspects, as detailed in
The handle 12 may include a handle body 26 configured to be held by a user. The handle body 26 may include any suitable configuration to promote comfortable gripping by a user. For example, the handle body 26 may include coatings or coverings such as a rubber covering, or may contain geometric features to prevent the handle 12 from slipping within a hand of the user especially when the handle 12 may be wet. The handle 12 may also include a handle attachment interface 28 at one end of handle body 26. The handle attachment interface 28 may be configured to selectively attach and release the cartridge 14 to/from the handle 12 through any mechanism known for attaching and releasing a disposable cartridge with a shaving handle.
According to further aspects, as shown in
According to some aspects, the dispenser 16 and docking station 18 may be separate elements, as shown in
The dispenser 16 may include a plurality of slots 36 (e.g., slots 36A-36D), wherein each slot 36 may receive a cartridge 14. For example, the dispenser 16 may include four slots 36 to hold four cartridges 14. Although four slots 36 are depicted in
The slots 36 may be any suitable shape configured to receive a particular type of cartridge 14. Alternatively, slots 36 may be a generic shape such that slots 36 may be configured to receive multiple types of cartridges 14. Moreover, slots 36 may include a biasing, a snap-fit, and/or a sliding configuration in order to securely retain the cartridges 14 before the cartridges 14 are removed by a user from the dispenser 16. The biasing, snap-fit, and/or sliding configurations may prevent the cartridges 14 from inadvertently falling out of the dispenser 16, such as, for example, during shipping or if the dispenser falls off a bathroom counter. According to some aspects, where the dispenser 16 and docking station 18 may be separate elements, the dispenser 16 may include openings 38 within slots 36 beneath the cartridges 14. The openings 38 may include any suitable configuration, shape, and/or dimension. The openings 38 will be described in greater detail below. Although
The docking station 18 may be sized to receive the dispenser 16 within, partially within, or on top of a surface of the docking station 18. The docking station 18 may include conductive elements or contacts, such as conductive pins 40. Though the present disclosure contemplates that conductive pins 40 may extend into one or more slots 36, as described below, those of ordinary skill in the art will recognize that conductive pins 40 may include conductive surfaces positioned on a bottom surface of one or more slots 36.
As detailed in
Hence, the presence of the cartridge 14 in the slot 36 and contact with the conductive pins 40 simulates an ON-switch operation. Similarly, the removal of the cartridge 14 from the slot 36 and/or when at least one conductive pin 40 is not in contact with a conductive element of cartridge 14 simulates an OFF-switch operation. Even though the cartridge 14 (e.g., the blade securing elements 32, razor blades 30, and/or another conductive element) may not be an ideal conductor (e.g., may have a resistance between approximately 1 ohm and approximately 1000 ohms), the cartridge 14 may still simulate an ON/OFF-switch operation. A certain amount of current may flow between the conductive pins 40 (i.e., the circuit is closed) in the ON-switch operation, and current may not flow between the conductive pins 40 (i.e., the circuit is open) in the OFF-switch operation.
The openings 38 and conductive pins 40 may have an arrangement different than the arrangements as shown in
According to further aspects,
As shown in
With reference to
The circuit 42 may be powered by the battery 44. According to some aspects, however, the circuit 42 may be coupled to a separate power source either within the docking station 18 or separate from the docking station 18. For example, the docking station 18 may be configured to be coupled to a household electrical socket providing electrical energy between 110V-240V. Circuit 42 may also be electrically connected to an electronic circuit 45, which may include a microcontroller or other suitable electronics associated with the docking station 18.
As is shown in
According to some aspects, the docking station 18 may also include a handle holder 52 (shown in, e.g.,
The user device 20 may be a smartphone, tablet, smartwatch, computer, or other device. The user device 20 may also include a downloadable mobile application. The mobile application may be a user interface for the system 10, including providing and/or storing information related to the cartridges 14, dispenser 16, and docking station 18, and information related to the user, etc. The mobile application may also be configured to receive information from docking station 18 and/or the merchant unit 22 through the connection between the user device 20 and docking station 18, or through the connection between the user device 20 and the internet 24. The mobile application may also transmit information to the merchant unit 22 in order to provide user data, to place replacement orders, etc. The mobile application may also provide the same information and user interaction as discussed above with respect to the display 54 on the docking station 18.
According to further aspects, the microcontroller 46 may, for example, be a Microchip PIC16F1823 microcontroller working at 2.5V DC with a resistor of approximately 10 Kohms. As is shown in
The microcontroller 46 may be connected to, and thus monitor, a plurality of conductive pins 40, for instance, pairs of conductive pins 40 for each slot 36 of the dispenser 16 coupled to docking station 18. Each cartridge 14 may act as an electrical conductor having a resistance, so each cartridge 14 may operate as a switch which increases the current to the ground and reduces the input of the microcontroller 46, reducing the voltage delivered to the microcontroller 46. If a plurality of cartridges 14 are positioned within dispenser 16, connecting each pair of conductive pins 40, then the voltage at microcontroller 46 may be relatively low. However, as cartridges 14 are removed, the voltage at microcontroller 46 may increase, and the voltage at microcontroller 46 will be at the maximum when all of cartridges 14 have been removed. The increases may be incremental and correspond to the number of cartridges 14 in dispenser 16, providing information that the microcontroller 46 may provide to the memory 50 and transmit to the other devices of the system 10 to track the usage of cartridges 14.
According to aspects as shown in
The blades 30 may be assembled within the cartridge 14 via any suitable mechanism. For example, the blades 30 may be received and secured within grooves or recesses disposed within a body of cartridge 14. The blade securing elements 32 may then be positioned on or over the blades 30 and either within an additional recess 62 in the cartridge 14 or around the body of the cartridge 14. The blade securing elements 32 may be electronically isolated from the remaining portions of the cartridge 14. For use with conductive pins 40 positioned on opposing sides of a slot 36, for example as shown in
According to further aspects, as shown in
According to some aspects and similar to
In another aspect of the disclosure, a push button may be used instead of, or in addition to, conductive pins. For example, as is shown in
In one embodiment, push button 70 may be biased (via, e.g., a spring element) into an open configuration (i.e., normally open, as shown in
In another embodiment, push button 70 may be biased (via, e.g., a spring element) into a closed configuration (i.e., normally closed, as shown in
In some embodiments, one or more proximity sensors may be incorporated into systems of the disclosure in addition to, or instead of, the circuits described above. One or more proximity sensors may be configured to detect whether a cartridge is present in a slot of the present disclosure.
As shown in
One or more proximity sensors 78 may include a capacitive, radio frequency (RF), photoelectric, optical, electromagnetic, a suitable inductive proximity sensor, and/or any other proximity sensor or sensing technology. In some aspects, a capacitive or photoelectric proximity sensor may detect the presence of a plastic portion of a cartridge within a slot in which the one or more sensors are associated. In some embodiments, an inductive proximity sensor may detect a metal portion (e.g., a blade or screw) on a cartridge within a slot in which the one or more proximity sensors are associated with. In other embodiments, an RF sensor may detect the presence of an RF signal emitted from an RF chip in the blade. Moreover, the proximity sensor may include a magnetoresistive sensor configured to detect the presence (or absence) of a magnetic field.
According to other aspects, as shown in
As discussed above, the dispenser 116 and the docking station 118 may be separate elements, or may be integrated together as a single component shown collectively as the docking station 118. The docking station 118 may include a circuit 172 with conductive pins 140 (not shown) or electrical connections 174 positioned in each slot 136 where a cartridge 114 with a protective film 170 may be positioned. The slots 136 may vary, for example, there may be one slot 136, more than one slot 136, or there may be any subset of slots 136. The electrical connections 174 may partially extend into the slot 136 (e.g., towards a center of slot 136) from the sides of slots 136, such that the electrical connections 174 may make contact with the protective film 170.
According to some aspects, the protective film 170 may be conductive with a resistance. For example, the protective film 170 may include a conductive element or embedded electrical trace, such as, for example, a thin wire 170a, extending across a length or width of the protective film 170. According to other aspects, an entirety or at least a substantial portion of an entirety of the protective film 170 may be conductive itself. The thin wire 170a may be disposed on or embedded with the protective film 170a. Though only one wire 170a is depicted in
For instance, when three cartridges 114A, 114B, and 114C, each with a protective film 170, are positioned in the slots 136 of the docking station 118, the docking station 118 may transmit a current through the circuit 172 connected to each electrical connection 174. The resulting voltage drop may be indicative of a resistance of 3 R because there are three protective films 170, each having a resistance R, that may be transmitting current. If a user removes a cartridge 114 for use, the user would then remove the protective film 170 from the cartridge 114. As such, if cartridge 114 is placed back into the same slot 136, the resulting voltage drop in the circuit 172 of the docking station 118 would indicate a resistance of 2 R. According to further aspects, to prevent the user from reapplying the protective film 170 to the used cartridge 114, the protective film 170 may be provided with a single-use adhesive. However, according other aspects, the protective film 170 may be fabricated from a material that loses its applied configuration once removed from the cartridge 114, thereby making it difficult to re-apply the protective film 170. As a result, the docking station 118 may be configured to determine when a new cartridge 114 may be first used, and determine how many unused cartridges 114 that may remain in the dispenser 116.
Based on user data or a programmed algorithm, the docking station 118 may store usage information, provide the same information to a user via a display 54 on the docking station 118 (as in
Furthermore, the docking station 118 may receive information from the merchant. For example, the merchant may transmit information to the docking station 118 to be displayed or otherwise conveyed to the user such as, for example, sales, coupons, proximity based information, merchant inventory (both understocked or overstocked), different types of cartridges, shaving accessories and/or products, a loyalty point system (for example, every fifth dispenser may be free), referral bonuses, and other promotions.
According to further aspects, the protective film 170 may be insulating, and the cartridge 114, including the blades 130 and the blade securing elements 132, may be conductive and include a resistance. The cartridges 114 may be distributed in the docking station 118 with the protective film 170 on the cartridges 114, and the circuit 172 and the electrical connections 174 may not conduct current, which may be measured by any method as discussed above. If a user removes a cartridge 114 for use and removes the protective film 170 from the cartridge 114, and then places the cartridge 114 (together or separate from a handle) into the slot 136, the electrical connections 174 may be electrically connected through the blades 130, or the blade securing elements 132, and may conduct a current. The blades 130 and/or blade securing elements 132 may have a resistance, and the docking station 118 may be capable of measuring the resistance. The docking station 118 may also detect when a user removes the cartridge 114 from the slot 136 for the next usage. As such, the docking station 118 may collect information on how frequently a user may shave, the number of shaves for which the user may use a particular cartridge 114, and/or duration of each shave, etc. The docking station 118 may be connected to a user device and/or to the internet 124 or other connection through the communication unit 148, and may initiate or offer an option to order additional cartridges 114 and/or dispensers 116 of the cartridges 114 based on the number of new or otherwise unused cartridges 114 in the dispenser 116. For example, as illustrated in
According to other aspects, system 110 may include both conductive pins 40 extending from the docking station 118 through an appropriate number of openings in a dispenser 116 (if separate from the docking station 118) as discussed above in regard to
According to some aspects,
According to further aspects,
According to further aspects, as shown in
Any of the foregoing methods 700, 710, and 720 may be performed for a dispenser 16 including conductive pins 40 in one, two, or each slot 36. Similarly, the methods 700, 710, and 720 may be selectively performed based on when reordering may be desired to occur. For example, the methods 700, 710, and 720 may be performed for the first cartridge 14 if reordering is desired to occur while the user has a plurality of cartridges 14 remaining. Alternatively, the methods 700, 710, and 720 may be performed when the last or second to last cartridge 14 is removed from the corresponding slot 36. Moreover, as discussed above, conductive pins 40 and/or electrical connections 174 may be positioned in each slot 36 such that the docking station 18, microcontroller 46, and memory 50 may collect user usage data. Likewise, a user may return a cartridge 14 to a slot 36 between uses, electrically connecting the conductive pins 40 again, such that information on the time between uses, duration of use, uses per cartridge, etc. may be collected. This user data may be stored in memory 50, and the microcontroller 46 may factor in the user data in the user prompting and ordering steps as detailed above.
Furthermore, in any of the aforementioned methods, the user may have the option to order multiple dispensers 16 of cartridges 14, additional handles 12, or other products from the merchant unit 22. The microprocessor 46 and/or the merchant unit 22 may track these optional purchases and incorporate the selections in future prompts and orders. For example, if the user orders two replacement dispensers 16 full of cartridges 14, the microcontroller 46 may not initiate an order or prompt the user to place an order for replacement cartridges until the user has depleted one replacement dispenser 16 and is using the cartridges 14 of the second replacement dispenser 16. The microcontroller 46 may track the first replacement dispenser 16 being inserted into and later removed from docking station 18 where, for example, docking station 18 may be configured to removably receive the dispenser 16. According to some aspects, the dispenser 16 or cartridges 14 may include radio-frequency identification tags or other identifying markers that may allow the microcontroller 46 of docking station 18 to recognize each dispenser 16. The identifying markers may also be transmitted from the merchant unit 22 to the docking station 18 via the internet 24 so the docking station 18 may recognize the receipt and placement of particular dispensers 16 or cartridges 14 into the docking station 18.
Additional aspects may be incorporated in any of the elements and systems discussed above. For example, the dispenser 16 and docking station 18 may monitor and store how many times a cartridge 14 has been used. Such information may be user input information or may be automatically collected by sensing the presence or absence of the cartridge 14 in a slot 36 as discussed, or by sensing the presence or absence of the handle 12 on the handle holder 52. The docking station 18 may store a recommended number of usages for each cartridge 14. The recommended number of usages may be a standard number, or the recommended number of usages may vary depending on the type of cartridge 14, user shaving habits, user hair and body type, etc. The user hair and body type may be monitored by elements coupled to the cartridge 14 and/or the razor handle 12, such as, for example, a camera or other sensing element. If a cartridge 14 has been used more than the recommended number of usages, the docking station 18 may produce an audible or a visible notification to indicate to the user that he or she should replace the cartridge 14. This notification may also be sent to the user device 20. This notification may appear on the display 54 of the docking station 18, may be a flashing light, or any other indication. The docking station 18 may include a manual reset to override the cartridge usage notification. The notification may also be based on the number of user strokes detected by a stroke sensing element coupled to or a part of the cartridge 14 or handle 12, in addition to number of usages. For example, if a user is only trimming the edges of a beard, the user may use fewer strokes, and thus the cartridge 14 may have a higher recommended number of usages than if the user was shaving a face or legs and using a greater number of strokes.
The docking station 18 also may serve as a charging station for an electric razor. For example, the docking station 18 may include a razor connection. The razor connection may be wired or wireless, to allow for wired or wireless charging of the electric razor. The docking station 18 may also include a razor mount, and the razor connection may be a wireless antenna charging connection such that the docking station 18 may charge the razor when the razor is placed on the razor mount. If the razor connection is wired, docking station 18 may include a cable output of a specific voltage level appropriate for recharging the battery of the electric razor. Alternatively, the docking station 18 may include a cavity (not shown) and/or extension element (not shown) that includes charging pins (not shown) on which the electric razor may be mounted in order to recharge the battery of the electric razor. The cartridge sensing capabilities discussed above may also be used for electric razor blades.
The systems 10, 100, and methods 700, 712, and 720 may allow a user to more efficiently and effectively track razor cartridge usage and place replacement razor cartridge orders. In particular, a user may more easily order cartridges 14 and other products when the user may be in need of replacements. Moreover, a user may more easily track the lifetime of a particular cartridge 14. The system may assist in ensuring that the user does not use a cartridge 14 beyond the recommended usage, and may also assist in ensuring that the user does not discard a cartridge 14 before the recommended cartridge lifetime. The disclosed systems and methods also may provide a merchant the ability to track cartridge usage and purchasing patterns of a user. As such, the merchant may provide targeted advertisements or offers to the user, or to other potential consumers in locations close to the user. Additionally, it is understood that the systems and methods disclosed herein may be applied to various other applications as well, including replacement heads for an electronic toothbrush and any other replaceable element.
While principles of the present disclosure are described herein with reference to illustrative examples for particular applications, it should be understood that the disclosure is not limited thereto. Those having ordinary skill in the art and access to the teachings provided herein will recognize additional modifications, applications, embodiments, and substitution of equivalents all fall within the scope of the features described herein. Accordingly, the claimed features are not to be considered as limited by the foregoing description.
This application is a National Stage Application of International Application No. PCT/EP2018/064449, filed Jun. 1, 2018, now published as WO2019001895, and which claims the benefit of U.S. Provisional Application No. 62/526,687, filed Jun. 29, 2017.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2018/064449 | 6/1/2018 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2019/001895 | 1/3/2019 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4034892 | Braginetz | Jul 1977 | A |
4660991 | Simon | Apr 1987 | A |
5240107 | Casale | Aug 1993 | A |
5752235 | Kehr | May 1998 | A |
5812064 | Barbour | Sep 1998 | A |
6168023 | Cooper | Jan 2001 | B1 |
6263259 | Bartur | Jul 2001 | B1 |
6348864 | Lin | Feb 2002 | B1 |
8646467 | Lelieveld | Feb 2014 | B2 |
9043015 | Ratnakar | May 2015 | B2 |
20020027507 | Yarin | Mar 2002 | A1 |
20020184770 | Peyser | Dec 2002 | A1 |
20030071725 | Teller | Apr 2003 | A1 |
20060058917 | Vonk | Mar 2006 | A1 |
20070050983 | Schnak et al. | Mar 2007 | A1 |
20090071008 | Hart et al. | Mar 2009 | A1 |
20120203376 | Savage | Aug 2012 | A1 |
20130213995 | Horel | Aug 2013 | A1 |
20140214200 | Chrusciel | Jul 2014 | A1 |
20140350720 | Lehmann | Nov 2014 | A1 |
20150314023 | New | Nov 2015 | A1 |
20160015602 | Panzini | Jan 2016 | A1 |
20160167241 | Goldfarb et al. | Jun 2016 | A1 |
20170066147 | Ball et al. | Mar 2017 | A1 |
20170193189 | Turnell | Jul 2017 | A1 |
Number | Date | Country |
---|---|---|
1442819 | Sep 2003 | CN |
1685289 | Oct 2005 | CN |
1807071 | Jul 2006 | CN |
1929970 | Apr 2012 | CN |
1252981 | Oct 2002 | EP |
H02-223398 | Sep 1990 | JP |
H07-35036 | Jun 1995 | JP |
H10-314466 | Dec 1998 | JP |
2008-537503 | Sep 2008 | JP |
2009-506823 | Feb 2009 | JP |
2010-538693 | Dec 2010 | JP |
2015-064846 | Apr 2015 | JP |
2006108126 | Oct 2006 | WO |
2011070486 | Jun 2011 | WO |
Entry |
---|
International Search Report in corresponding Application No. PCT/EP2018/064449, dated Aug. 13, 2018, (3 pages). |
Chinese Office Action in corresponding Chinese Application No. 201880031083.7, dated Jan. 25, 2022 (27 pages). |
Office Action and Search Report in corresponding JP Application No. 2019-565213, dated May 18, 2022 (35 pages). |
Number | Date | Country | |
---|---|---|---|
20200107626 A1 | Apr 2020 | US |
Number | Date | Country | |
---|---|---|---|
62526687 | Jun 2017 | US |