Monday, July 30, 2018

Terminology - Diamond anatomy

Copyright © Françoise Herrmann

The Capetown Diamond Museum offers comprehensive diamond terminology, imported below, with added bilingual (French terminology).



  • Table (table): Largest facet of a diamond, always flat like a table. 
  • Crown (couronne): Top part of a diamond
  • Girdle (rondiste): Outer perimeter and widest section of a diamond, where crown and pavilion meet. 
  • Pavilion (culasse): Lower part of a diamond. Bridges girdle and culet.
  • Culet (colette): Smallest facet of a diamond, located at the very tip.

References
Capetown Diamond Museum 
Canada Bureau de la traduction - Translation bureau -  Diamond cutting vocabulary - Vocabulaire de la taille du diamant

Sunday, July 29, 2018

Oh, patents! Asscher diamond cut

Copyright © Françoise Herrmann

Diamonds are forever...!  So are the cuts.

Joseph Asscher's diamond cut was patented in the 1903 French patent, FR324092, titled Nouveau mode de taille de diamants. To date, Asscher’s diamond cut is still in use. It is regarded as one of the cuts that gives the most brilliance to diamonds.

Joseph Asscher was a Dutch diamond cutter, operating out of the Asscher Diamond Company, founded by his father in 1854, in Amsterdam, The Netherlands.

Joseph Asscher famously cleaved the two largest diamonds ever found in South Africa: the Excelsior diamond found in 1893, weighing 970 carats (approx. 195 g),  and the Cullinan diamond, found in 1905, weighing 3,106.75 carats (aprox. 624 g). The Excelsior diamond was cleaved into ten stones weighing 13 to 68 carats.  The Cullinan diamond was cleaved into 105 stones of various cuts. The rough Cullinan diamond was gifted to the British monarch, King Edward VII, in 1907, who selected the Asscher Diamond Company in Amsterdam to cleave it. The largest cut Cullinan diamonds adorn the British Royal scepter and crown.

The four patent figure drawings showing the Asscher diamond cut are included. The drawings show the trapeze-shaped facets (c) and (d) of the diamond, with edges strictly parallel to the edges of the crown (a). The description of the inventive cut suggests 3 facets (c) for the upper portion or crown of the diamond, and 7 to 8 facets (d) for the lower portion or pavilion. The scope of the invention explicitly extends this sort cut to diamonds of varying shapes (rectangular, round or square).

The Asscher family, and entire company staff of 500 diamond polishers, were deported during World War II. The Asscher Diamond Company, was rebuilt in 1946. The Royal title was granted to the company in 1980 by the Dutch monarch. The Royal Asscher Company is headquartered in the original Asscher diamond factory building in Amsterdam, The Netherlands.   

References
Royal Asscher Company

Thursday, July 26, 2018

Oh, patents! Specs4us

Copyrighted © Françoise Herrmann

Who could better design eyeglasses for children with special needs than a professional optometrist, who happens to be Mom to a child born with Trisomy 21 Syndrome?

Succinctly, this is the story of Specs4Us, of Maria Dellapina, founder of the company and inventor of eyewear for kids with special needs. Indeed, Dellapina has mapped the territory in optometry for kids with special needs, together with her daughter Erin, whose name eponymizes the line of frames.  (Both Dellapina and daughter Erin are shown in the inserted image.) 

Specs4US offers glasses specially designed for children born with Trisomy 21 Syndrome. Trisomy 21 Syndrome, formerly known as Down’s syndrome, is a condition that affects approximately 1 in 1000 live births worldwide, according to the WHO (World Health Organization). Children born with Trisomy 21 Syndrome have an extra 3rd chromosome in position No. 21. This means that every cell in the person’s body has an extra chromosome. An extra 3rd chromosome, which in turn creates a vast array of symptoms and conditions, most of which are extensively described in the literature connected to this syndrome.

Among the vast array of symptoms and conditions of this syndrome, 87% of Trisomy 21 children need glasses. A condition compounded by the fact that Trisomy 21, also affects facial features relevant to the design of eyewear. Thus, Dellapina's invention addresses the problem of conventional eye frame design, which uses a single model of facial features, termed “normal Caucasian”, to inform the design of eyewear. In response, Dellapina takes into consideration those specific features of Trisomy 21 identified, such as a low set nose, closer pupillary distance (PD), wider distance between temples, shorter distance to ears, which together prevent a Trisomy 21 child from correctly seeing through the optical center of regular lenses. The resulting informed design of Erin’s World frames enables a Trisomy 21 child to see normally through the optical center of lenses, mounted on a frame with a lowered bridge that contacts the child’s nose, including lowered and shortened arms for a perfect fit.

Incidentally, in designing primarily for children with special needs, in response to the “normal Caucasian model”, the scope of this invention actually lays claim far beyond. The invention is claimed for all children and adults, for example Asian or African, or of Asian or African descent, who might otherwise, for varying reasons, fail to fit the single model of facial features, informing the prior art of eyewear design.

The Specs4US invention is recited in US20090310080A1 titled Eyeglass frames for people with special needs

Included below, the abstract of this invention, together with a figure drawing, extracted from the patent. The figure drawing shows some of the aspects of the invention eyewear. For example, the patent drawing shows extensions (13) to accommodate the wider temple to temple distance, pivoting nose pads (7) that sit on the user's nose to prevent the glasses from slipping, and the bridge (5) of the frame, positioned at a distance (P) on the lenses that is half the height of the lenses (B). The bridge (5) position (P) is much lower than for regular eyewear. It enables a user, with a lower set nose to see correctly through the optical center (OC) of the lenses, instead of incorrectly through the upper portion. 

Eyeglass frames for people with Down syndrome, for others having facial characteristics similar to those with Down syndrome, and those with a depressed nasal bridge or a low nasal bridge, the eyeglass frames having a bridge lower than the normal higher placed bridge and in general aligmnent with the optical center of lenses mounted in the lens frames, extensions to widen the temple distance to accommodate the broader temples of people having Down syndrome or facial characteristics similar to those with Down syndrome, lower temples to maintain the general alignment of the location of the optical center with the pupils of the person wearing the eyeglass frames; and shorter temples than temples for normal caucasians to accommodate the ears as located on persons with normal facial features. [Abstract US20090310080A1]

Maria Dellapina was named Toyota Mother of Invention in 2016 for her Specs4US invention. An invention, which stands for Superior Precision Eyewear for Children who are Special.

References
Specs4Us
Toyota Mothers of Invention – Maras Dellapina
WHO – Genes and human disease: Genes and Chromosonal diseases http://www.who.int/genomics/public/geneticdiseases/en/index1.html

Friday, July 20, 2018

Oh, patents! Freshpaper

Copyright © Françoise Herrmann

How do you preserve or extend the freshness of perishable goods? 1.6 billion people do not have refrigeration in the world. 25% of edible substances and foods are estimated to spoil at various points during growth and ripening, transportation, packaging, on the shelf and in storage.

The Freshpaper invention precisely addresses the issue of preserving and/or extending food freshness, while bypassing the potential toxicity of the state of the art in chemical options. Chemical options, such as coatings, sprays and washes of various sorts, which are used as preservatives, insecticides, pesticides, fungicides or antibacterial agents to prevent or delay the onset of spoilage.

The Freshpaper invention is recited in US6372220 (B1), titled Fenugreek impregnated material for the preservation of perishable substances. The invention comprises paper that is infused with botanical extracts known for their antibacterial, antifungal, antiviral, preservative or curative properties. In particular, Freshpaper is coated with a Fenugreek seed extract botanical (trigonella foenum-graecum). A botanical that has antifungal and antibacterial properties, known to prevent the proliferation of pathogens.

Freshpaper is packaged in sheets and sold in supermarkets. The sheets are active for one month. They may be inserted in fridge drawers, in fruit cartons or salad bags. For the c
onsumer, Freshpaper has the advantage of being a nontoxic and safe preservation method for perishable goods. For manufacturers, Freshpaper is much easier to produce than its chemical counterparts.

The abstract of the invention is included below, together with an invention figure drawing showing the sheet in contact with a strawberry. The image of a package of Freshpaper for use with fruits is included above. 
Fig. 2: US6372220
The present invention to a material that is coated with or soaked in a suspension of a botanical extract such that particles of said natural botanical extract are in contact with, embedded on, or embedded within the material. The present invention can be used to preserve perishable substances such as edible substances or foods by extending their freshness, shelf life or suitability for consumption by living organisms. Botanical extracts suitable for the present invention include botanical extracts that have anti-bacterial, anti-fungal, antiviral or other preventative or curative properties. The botanical extract coated material described in the present invention is suitable for applications such as the packaging and preservation of perishable substances such as fruits and vegetables, meat products, dairy products, edible substances, non-edible substances and other perishable substances. Specifically, the material is impregnated with an extract of Fenugreek (Trigonella foenum-graecum). [Abstract US6372220]
In 2016, the inventor; Kavita Shukla was listed in Time Magazine as one of the Five most innovative Women in Food and Drink. In 2018, Shukla was also nominated one of Toyota's Mothers of Invention

Reference
Freshglow Co. 
https://www.fenugreen.com/freshpaper
Kavita Sukla (inventor website)
/https://www.kavitashukla.com/
Oaklander, M. (Sept. 14, 2016) The five most innovative women in food and drink - Time Magazine. 
http://time.com/4489266/food-drink-women-innovators/
2018 - Toyota's MOI (Mothers of Invention)
https://www.toyota.com/usa/toyota-effect/mothers-of-invention-7.html

Wednesday, July 18, 2018

Oh, patents! Koosh® balls

Copyright © Françoise Herrmann

Not easy to catch a ball when you are a tiny kid!
This observation inspired Stanford engineer Scott K. Stellinger, in the 1980s, to mastermind the Koosh® ball, an invention recited in a 10-member patent family, that includes US4756529 titled Generally spherical object with floppy filaments to promote sure capture.

  • ES2006437 (A4) ― 1989-05-01 - Generally spherical object with floppy filaments to promote sure capture
  • AU1763588 (A) ― 1988-12-15 - Soft throwing/catching device 
  • JPS6417665 (A) ― 1989-01-20 - Play toy
  • AT58844 (T) ― 1990-12-15 - Lern-spielgeraet
  • CA1253531 (A) ― 1989-05-02 - Amusement device
  • DE295114 (T1) ― 1989-06-01 - Generally spherical object with floppy filaments to promote sure capture
  • EP0295114 (A2) ― 1988-12-14 - Teaching toy
  • GR890200102 (U) ― 1990-05-11 - No title available
  • GR890300036 (T1) ― 1989-05-25 - Teaching toy

The Koosh® ball resolves the problematic situation of difficult to catch bouncy balls by designing a ball that is both easy to grip and energy-absorbent, since it collapses upon impact. Accordingly, the Koosh® ball is made of floppy, elastomeric filaments, connected at the core like a pompom. The filaments also have gripping characteristics, thus clinging rather than slipping, out of the catcher’s hands.

The abstract of this patented invention is included below, together with figures 4 and 5 of the invention, depicting the ball “about to be caught" (fig. 4), and "caught" (fig. 5). An image of the marketed product is included above.
An amusement device which has a substantially spherical configuration, and which is formed from a large plurality of floppy, elastomeric fllaments that radiate in a dense, bushy manner from a central core region. The fllaments are sufficiently floppy to collapse on impact, thus to absorb enough energy to avoid any tendency to bounce. They are also sufficiently dense and floppy that they tend to quickly thread their way between the fingers of a user on contact with the hand. These features promote sure and quick capture of the device during the act of catching. [Abstract US4756529]

Reference
Hasbro
https://www.hasbro.com/en-us/

Sunday, July 15, 2018

Goooooooooooal happiness!

Copyright © Françoise Herrmann


France wins FIFA World cup 4-2 against Croatia.


Reference
FIFA.com

Saturday, July 14, 2018

Oh, patents! Brr™… Smitten®!

Copyright © Françoise Herrmann

Ice cream… You scream…. We all scream for Smitten® ! 

Made to order ice cream in just 90 seconds?  Yes, meet Smitten®! Ice cream Churned Just for you®, in a patented machine called  Brr that uses liquid nitrogen to flash freeze all the organic, locally-sourced, farm-fresh ingredients, required for the tastiest treat.  

Why liquid nitrogen? First, because liquid nitrogen freezes ice cream at -321 degrees F (77 Kelvins) and thus produces a much smaller ice crystal than regular freezing. In turn, the smaller ice crystal creates a much smoother texture for Smitten® ice cream. Secondly, liquid nitrogen freezing is a super fast "flash" process, which makes it possible to use the freshest possible ingredients, with no stabilizers, no preservatives, no binders, and no emulsifiers. In fact, Smitten® ice cream is churned so fast that it is made in front of you. None of Smitten® ice cream is ever stored. Shelf life is irrelevant. 

Robyn Sue Fisher, the founder of Smitten® ice cream, prides herself in re-inventing old-fashioned recipes using high tech processes. After three years of prototyping in a basement, Fisher sold Smitten® ice cream, for almost a year, on a red wagon in the San Francisco Mission district, combining Mexico’s heladera tradition, with the acumen of a Stanford Business School graduate, field-testing her product. An experience that led her, in 2011, to open, the first off-the-street Smitten® ice cream shop, in the Hayes Valley district of San Francisco. The rest is history. To date, nine Smitten® ice cream shops in California are serving Brr™ churned ice cream in a fog of liquid nitrogen, in 60 seconds.

The Brr™ machine used for churning, together with the smart cryogenic liquid dosing and dispensing processes for making Smitten® ice cream so fast, are recited in the following three US utility patents:
  • US2017360059 (A1) ― 2017-12-21 - Devices and methods for dosing  
  • US9433230 (B1) ― 2016-09-06 - Device and method for dosing cryogenic liquid
  • US8857197 (B1) ― 2014-10-14 - Device and method for mixing viscous substances

Included below, the abstract for the patent application US2017360059, together with the patent Figure 2 of the Brr™ machine, and an image of the  Brr™ machine prototype, operating with a battery pack on Fisher's red wagon, during her back-alley vending stint. 
Systems and methods of producing a frozen food product include mixing ingredients with a liquefied gas, e.g. liquid nitrogen. The texture and quality of the food product may be determined by sensing temperature or viscosity, and controlling the rate at which the liquefied gas flows into the mixture, i.e. dosing. This functionality may be achieved using one or more scoops, the position of which may be controlled by actuators. The dosing may be controlled by a program that receives input from one or more sensors, and the program may be responsive to input of the type or amount of ingredients being mixed. In addition, the dosing may be controlled by a human being through a user interface, e.g. by pushing a 'dose' button. [Abstract US20170360059 Al]

References
Smitten.com
Shupack, J. (2018) Smitten®  founder Robyn Sue Fisher is out to make the best ice cream in the world, balancing technology with old-fashioned ways. Silicon Valley Magazine, June 28, 2018.  

Wednesday, July 11, 2018

World Population Day 2018

Copyright © Françoise Herrmann

Today is World Population Day, first proclaimed in 1989 by the Council of the United Nations Development Programme, and subsequently voted as Resolution 45/216 by the UN General Assembly, in December 1990.

The theme selected for this year’s celebration, “Family Planning is a Human Right”, reaffirms an idea introduced 50 years ago, during the first UN International Conference on Human Rights, held in Teheran (Iran), in 1968. The idea of “Family planning as a human right”, expressed in 1968 and reaffirmed in 2018, is simply that: 
Parents have a basic human right to determine freely and responsibly the number and spacing of their children. [UN Doc, Parag. 16. Teheran (Iran) 1968]
At the UNFPA (United Nations Population Fund), the UN reproductive health and rights agency, the 2018 World Population day theme celebrating Family planning, specifically means:
 ...to deliver a world where every pregnancy is wanted, every childbirth is safe and every young person's potential is fulfilled. [UNFPA mission statement]
For live world population statistics, visit the World Population Clock.
For interactive world population data, visit the UNFPA World Population Dashboard.

A few highlights are included below: 
  • Current world population is 7.6 billion (Worldometers)
  • Approx. 83 million people are added to the world population every year (UNFPA)
  • The world’s global population is estimated to reach 8.6 billion in 2030, 9.8 billion in 2050, and 11.2 billion in 2100, according to UN Population Projections.
  • Maternal deaths: 830 women and girls die in childbirth each day from preventable maternal causes. 99% of these deaths occur in developing countries. This figure is down 44% since 1940. (UNFPA)


References
WHO – World Health organization – World Population Day
UN World Population Prospects
UN – World Population Day 2018
http://www.un.org/en/events/populationday/ 
UN General Assembly Resolution 45/216   
http://www.un.org/documents/ga/res/45/a45r216.htm
UN Proclamation of Teheran, April 22- May 13, 1968.
http://hrlibrary.umn.edu/instree/l2ptichr.htm  
UNFPA – UN Population Fund Agency
UNFPA – Maternal Deaths
UNFPA – Population Dashboard
UNFPA – Population Growth Trends
UNFPA - World at 7 Billion
UNFPA – Statement for World Population Day 2018
Worldometers –World population clock
http://www.worldometers.info/world-population/

Tuesday, July 10, 2018

Oh, patents! TIMBUK2

Copyright © Françoise Herrmann

Designed and manufactured in San Francisco's Mission district, TIMBUK2 messenger bags are guaranteed for life. The three-panel classic (and original) messenger bag, which you can custom-design on the TIMBUK2 website, is patented. The US design patent, USD483563S1, titled Printed panel display bag, was awarded on January 30, 2003. As a reminder: 
“a utility patent” protects the way an article is used and works (35 U.S.C. 101), while a “design patent” protects the way an article looks (35 U.S.C. 171) [MPEP Chapt. 1502.01; [R-07.2015]].
Beyond the three customizable panels, and the fabulous choice of tough and fashionable fabrics, TIMBUK2 messenger bags are chock-full of organization pockets and compartments. The many pockets and compartments are expertly designed for carrying water bottles, laptops and tablets, glasses, cellphones, pens, business cards, keys (tethered), stowaway valuables, and for packing in extra gear and/or books. An adjustable strap with a cam buckle enables you to secure the bag to your body, for biking, for example. Otherwise, the cam buckle enables you to find the perfect length for using the messenger as a shoulder bag or tote. With 25 years of experience designing the TIMBUK2 classic messenger bags, informed by consumer testing and feedback, this San Francisco native company has the art of messenger bags finetuned to perfection!

Included below, a drawing extracted from the patent, together with an image of a custom designed, and marketed, 3-panel classic messenger bag, in vibrant colors on the outside and packed to the brim inside.

References
MPEP – Chapt. 1502-01 - Distinction between design and utility patent
Timbuk2 Designs Inc.

Tuesday, July 3, 2018

Oh, patents! Plae's customizable kids shoes (3)

Copyright © Françoise Herrmann

Plae Inc., shoes are also designed for kids! Plae Inc., shoes for kids are customizable, flexible, durable, lightweight, washable, and easy to slip on and off.

The design of the customizable straps on Plae Inc., kids shoes has been granted several US design patents. As a reminder: “a utility patent” protects the way an article is used and works (35 U.S.C. 101), while a “design patent” protects the way an article looks (35 U.S.C. 171) [MPEP Chapt. 1502.01; [R-07.2015]]. 

The following four US design patents, each titled Upper for a shoe with removable straps were awarded for Plae Inc., kids shoes.
  • USD807007 S1 – 2018-01-09 - Upper for a shoe with removable straps
  • USD734014 (S) ― 2015-07-14 - Upper for a shoe with removable straps
  • USD734013 (S) ― 2015-07-14 - Upper for shoe with removable straps 
  • USD734015 (S) ― 2015-07-14|- Upper for shoe with removable strap 

The table below includes a drawing from each of the patents, together with images of sample marketed shoes.  


Plae Inc., kids shoes come in a wide variety of styles. Kid styles can be matched with adult styles (on the Sidekicks page). Shoe straps can be purchased separately to customize the look. The beta version of a Tab Lab, at the Plae Inc., website, enables kids to virtually select their shoes, and to swap the tabs for a preview of how the shoes will look. 

The short video below shows easy it is to swap and customize the Plae Inc., straps. 


References
Plae Inc.
https://www.plae.co/
Plae Inc. Tab Lab(beta)
https://www.plae.co//tablab
Plae Inc Sidekicks
https://www.plae.co/shop/sidekicks/
MPEP – Chapt. 1502-01 – Distinction between design and utility patent

Monday, July 2, 2018

Oh, patents! Plae’s Mulberry INNERSPACE™ sole system (2)

Copyright © Françoise Herrmann

Makers, have fun! 
Plae’s hi-tech Mulberry sneakers are also equipped with a trademarked and patented INNERSPACE™ sole system. The INNERSPACE™ sole system comprises two swappable inner soles: the SPACEFOAM™ sole that comes with the sneaker, and the SPACEFRAME™ sole, which is included as a downloadable template for 3D printing, and customization.  The SPACEFOAM™ sole offers cushy comfort. The 3D printable SPACEFRAME™ sole offers more bounce, which is a patented “trampoline" effect.  

The INNERSPACE™ sole system is recited in the family patent applications WO2017147490 (A1) / US2017245591 (A1), both titled Insole with suspended mesh surface.  The patent recites a mesh insole stretched and suspended across an inner cavity of the shoe. The cavity has a foam base and a rigid frame on the bottom. The air that circulates, between the mesh sole and the foam base on a rigid frame, creates an air chamber that generates the bounce called the “trampoline" effect.  The patent also recites a 3D knitting process for manufacturing the mesh inner sole. In Plae's Mulberry marketed product, the 3D knitting process is transferred to the buyer who receives the 3D template for the mesh SPACEFRAME™ inner sole, as an option for customizing the INNERSPACE™ of the sneakers.

The abstract of the INNSERSACE™ sole system invention is included below, together with a patent drawing of the mesh insole for the full length of the shoe.  An image of the INNERSPACE™ sole system options is included above.
An insole is provided that is constructed out of a mesh material that is stretched and suspended over a cavity formed in a shoe. The mesh surrounds a foam base and a rigid frame positioned under the foam base. The foam base is shaped so that a cavity is formed between the top surface of the foam base and the mesh positioned over the foam base to provide a “trampoline” effect for  a  wearer's foot. 
[Abstract WO2017147490A1 / US2017245591A1]
References
Plae Inc.
Downloadable SPACEFRAME 3D model (for adult men and women)
Plae Inc. INNERSPACE™ (video)

Sunday, July 1, 2018

Oh, patents! Plae’s Mulberry STAELACE™ (1)

Copyright © Françoise Herrmann

Looking for footwear that is comfortable, practical, and stylish-for-a cause --all bundled in one?

Try on Plae’s blue and green Mulberry! Plae's blue and green Mulberry is a limited-edition sneaker with a patented closure system, patented 3D printable inner soles, and 100% proceeds earmarked for The SF Battery’s Battery Powered philanthropic program.
 

The patented closure system, trademarked STAELACE™, is recited in the US patent application US2017112237 titled Footwear closure system. The invention comprises a lacing system that can be adjusted for tension, and secured without a bow, using a single hand. The invention primarily addresses the difficulty of tying, loosening and tightening shoelaces, for kids, disabled adults, and the elderly. The invention also addresses the risks of loosened and untied shoelaces. Thus, the patent recites an improved lacing system, comprising a customizable button for tethering and untethering the laces, and a slider in the back of the shoe to adjust the tension of the laces.


The abstract for Plae's STAELACE™ invention is included below, together with patent drawings of the lace tethered to the button (Figs.1) and untethered (Fig 2), and of the slider in the back of the shoe (Fig. 8). An image of the marketed green and blue Mulberry is also included above. 

A closure system for a shoe includes a single shoelace which can be secured and tightened through the use of one hand. The shoe includes a button around which the shoelace is wrapped to facilitate easy removal of the shoe. In one embodiment one end of the shoelace is secured under the upper of the shoe near the toe and a second end of the shoelace is secured in a slider that is slidably mounted on the rear of the shoe to provide micro-adjustments of the tightness of the shoe. Alternatively, the shoe includes a strip of piping around the rear of the shoe and a slider in which the second end of the shoelace is secured slides along the piping when the user wants to make micro-adjustments. The adjustment of the tightness of the shoe can also be made by sliding a barrel that is located over the top of the tongue. [Abstract US2017112237]

The SF Battery, Battery Powered philanthropic program generously funds childhood nutrition, gun safety, conserving the planet, women’s health and dignity, empowering youth, mental health, ending extreme poverty, plus more. The SF Battery is owned by BEBO founders Xochi and Michael Birch

References
Plae Inc.
The Battery SF
Bebo