Patents by Inventor Tomiei Kuwa
Tomiei Kuwa has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10939705Abstract: Provided herein is a portable aerosol device including, in some embodiments, a mouthpiece, a cartridge, and a shell configured for inserting the cartridge into the shell. Regarding the cartridge, the cartridge can include a tank configured to hold a vaporizable material, a wick and a heating element for vaporizing the material, an air path to the wick and the heating element, an aerosol path from the wick and the heating element, and a battery configured to power the portable aerosol device. The air and aerosol paths can be at least partially positioned in a space between the tank and the battery. Regarding the shell, the shell can include an air intake hole, a viewing window, a closed end, and an insertion opening.Type: GrantFiled: June 18, 2018Date of Patent: March 9, 2021Assignee: TMA Labs LLCInventors: Tomiei Kuwa, Mark Hoashi, Vardan Kushkyan, Gayk Mikaelyan
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Publication number: 20180360119Abstract: Provided herein is a portable aerosol device including, in some embodiments, a mouthpiece, a cartridge, and a shell configured for inserting the cartridge into the shell. Regarding the cartridge, the cartridge can include a tank configured to hold a vaporizable material, a vaporizing means for vaporizing the material, an air path to the vaporizing means, an aerosol path from the vaporizing means, and a battery configured to power the portable aerosol device. The vaporizing means can include a wick configured to wick the material from the tank to a heating element configured to heat wicked material to a vaporization temperature thereof and provide an aerosol of the wicked material. The air and aerosol paths can be at least partially positioned in a space between the tank and the battery. Regarding the shell, the shell can include an air intake hole, a viewing window, a closed end, and an insertion opening.Type: ApplicationFiled: June 18, 2018Publication date: December 20, 2018Applicant: TMA LABS LLCInventors: Tomiei Kuwa, Mark Hoashi, Vardan Kushkyan, Gayk Mikaelyan
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Patent number: 7670008Abstract: In an oblique projection optical system for performing enlargement projection from a primary image surface on the reduction side to a secondary image surface on the enlargement side, at least one reflective surface having an optical power is provided, and, assuming that of the aforementioned surfaces, the reflective surface located on the most secondary image surface side in the optical path is a first curved reflective surface, the first curved reflective surface has a portion having a positive optical power and a portion having a negative optical power.Type: GrantFiled: November 3, 2005Date of Patent: March 2, 2010Assignee: Konica Minolta Opto, Inc.Inventor: Tomiei Kuwa
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Publication number: 20080273177Abstract: A projection optical system for projecting, while enlarging, an image formed on an image formation surface onto an image projection surface from an oblique direction relative thereto has at least three optically powered reflective surfaces and a refractive lens surface having a non-rotation-symmetric free-form curved surface and disposed between the first and second reflective surfaces as counted from the image formation surface side.Type: ApplicationFiled: July 1, 2008Publication date: November 6, 2008Applicants: Konica Minolta Opto, Inc., Minolta Co., Ltd.Inventors: Masayuki IMAOKA, Tomokazu Masubuchi, Jun Ishihara, Tomiei Kuwa
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Patent number: 7434944Abstract: In an image projection apparatus, the deflection axis of the pixels of a display device is parallel to the longer sides of the display area of the display device, and the entrance pupil of a projection optical system is displaced from the line normal to the center of the display area in the direction parallel to the shorter sides of the display device. The distance from the display device to the optical component closest thereto is determined based on the intersection between the lowermost ray of projection light that leaves the lower end of the display area and reaches the entrance pupil of the projection optical system and the uppermost ray of illumination light that leaves the illumination optical system and reaches the upper end of the display device.Type: GrantFiled: August 23, 2005Date of Patent: October 14, 2008Assignee: Konica Minolta Opto, Inc.Inventors: Yasumasa Sawai, Tomiei Kuwa
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Patent number: 7411737Abstract: A projection optical system for projecting, while enlarging, an image formed on an image formation surface onto an image projection surface from an oblique direction relative thereto has at least three optically powered reflective surfaces and a refractive lens surface having a non-rotation-symmetric free-form curved surface and disposed between the first and second reflective surfaces as counted from the image formation surface side.Type: GrantFiled: October 18, 2005Date of Patent: August 12, 2008Assignees: Konica Minolta Opto, Inc., Minolta Co., Ltd.Inventors: Masayuki Imaoka, Tomokazu Masubuchi, Jun Ishihara, Tomiei Kuwa
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Patent number: 7239452Abstract: A projection optical system for performing enlargement projection from a primary image surface on the reduction side to a secondary image surface on the enlargement side has, from the primary image surface side, a lens optical system including two or more lens elements sharing a common rotation-symmetry axis and each having an optical power, a first reflective optical element having an optical power, and a second reflective optical element having a negative optical power. The projection optical system is non-telecentric toward the reduction side, and a prescribed condition is.Type: GrantFiled: April 7, 2005Date of Patent: July 3, 2007Assignee: Konica Minolta Opto, Inc.Inventor: Tomiei Kuwa
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Publication number: 20060192902Abstract: In an image projection apparatus, the deflection axis of the pixels of a display device is parallel to the longer sides of the display area of the display device, and the entrance pupil of a projection optical system is displaced from the line normal to the center of the display area in the direction parallel to the shorter sides of the display device. The distance from the display device to the optical component closest thereto is determined based on the intersection between the lowermost ray of projection light that leaves the lower end of the display area and reaches the entrance pupil of the projection optical system and the uppermost ray of illumination light that leaves the illumination optical system and reaches the upper end of the display device.Type: ApplicationFiled: August 23, 2005Publication date: August 31, 2006Inventors: Yasumasa Sawai, Tomiei Kuwa
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Publication number: 20060176579Abstract: A projection optical system for performing enlargement projection from a primary image surface on the reduction side to a secondary image surface on the enlargement side has, from the primary image surface side, a lens optical system including two or more lens elements sharing a common rotation-symmetry axis and each having an optical power, a first reflective optical element having an optical power, and a second reflective optical element having a negative optical power. The projection optical system is non-telecentric toward the reduction side, and a prescribed condition is.Type: ApplicationFiled: April 7, 2005Publication date: August 10, 2006Inventor: Tomiei Kuwa
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Publication number: 20060164605Abstract: In an oblique projection optical system for performing enlargement projection from a primary image surface on the reduction side to a secondary image surface on the enlargement side, at least one reflective surface having an optical power is provided, and, assuming that of the aforementioned surfaces, the reflective surface located on the most secondary image surface side in the optical path is a first curved reflective surface, the first curved reflective surface has a portion having a positive optical power and a portion having a negative optical power.Type: ApplicationFiled: November 3, 2005Publication date: July 27, 2006Inventor: Tomiei Kuwa
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Publication number: 20060152822Abstract: A projection optical system for projecting, while enlarging, an image formed on an image formation surface onto an image projection surface from an oblique direction relative thereto has at least three optically powered reflective surfaces and a refractive lens surface having a non-rotation-symmetric free-form curved surface and disposed between the first and second reflective surfaces as counted from the image formation surface side.Type: ApplicationFiled: October 18, 2005Publication date: July 13, 2006Inventors: Masayuki Imaoka, Tomokazu Masubuchi, Jun Ishihara, Tomiei Kuwa
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Publication number: 20060056037Abstract: A projection optical system for performing enlargement projection from a primary image surface located on the reduction side to a secondary image surface located on the enlargement side has, from the secondary image surface side, at least two reflective surfaces. Of the first and the second reflective surface counted from the secondary image surface side, at least one has a negative optical power. At least one Fresnel reflective surface having a positive or negative optical power is disposed within the entire projection optical system.Type: ApplicationFiled: February 18, 2005Publication date: March 16, 2006Inventor: Tomiei Kuwa
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Patent number: 6690517Abstract: A tilt projection optical system, that performs enlarged projection from the primary image plane on the reduction side to the second image plane on the enlargement side without forming an intermediate real image while being located at an angled position, has, sequentially from the primary image plane side: a refractive lens group including an aperture; a bending mirror that rotates the optical axis for the optical system after said bending mirror by approximately 90 degrees; and an optical group including at least one reflective surface that has a negative power; wherein the construction is such that the radius of the circle that encompasses all the light rays involved in the image formation on the second image plane and that is parallel to the surfaces of each lens of the refracting lens group enlarges once and then converges in terms of its radius on the enlargement side from the aperture of the refracting lens group, and wherein a predetermined condition is met.Type: GrantFiled: October 11, 2001Date of Patent: February 10, 2004Assignee: Minolta Co., Ltd.Inventors: Soh Ohzawa, Tomiei Kuwa
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Patent number: 6624952Abstract: A projection optical system projects an enlarged image of a light valve image onto a screen. The system has, from the conjugate enlargement side: a negative front lens unit, optical path turning means (including a reflecting surface), a positive rear lens unit, and projection light preparing means, which can separate illumination and projection light, or can integrate light of different colors, or can do both. Each of the front and rear lens units includes at least one aspherical surface. The front lens unit has a negative first lens element at its conjugate-enlargement end and a negative second lens element at the conjugate reduction side of the first lens element. The rear lens unit includes a positive third lens element made of an anomalous dispersion material. The center of the light valve is not located on the optical axis of the rear lens unit.Type: GrantFiled: June 24, 2002Date of Patent: September 23, 2003Assignee: Minolta Co., Ltd.Inventors: Tomiei Kuwa, Soh Ohzawa, Kohtaro Hayashi
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Publication number: 20030137744Abstract: A projection optical system that, by using projection light emanating from a light valve illuminated by illumination light, projects an enlarged image of an image displayed on the light valve onto a screen has, from the conjugate enlargement side: a front lens unit having a negative optical power as a whole, including at least one aspherical surface, having a first lens element having a negative optical power disposed at the conjugate-enlargement-side end thereof, and having a second lens element having a negative optical power disposed on the conjugate reduction side of the first lens element; optical path turning means, including a reflecting surface, for turning the light path of the light emanating from the front lens unit; a rear lens unit having a positive optical power as a whole, including at least one aspherical surface, and including a third lens element made of an anomalous dispersion material and having a positive optical power; and projection light preparing means disposed between the rear lens uType: ApplicationFiled: June 24, 2002Publication date: July 24, 2003Applicant: MINOLTA CO., LTD.Inventors: Tomiei Kuwa, Soh Ohzawa, Kohtaro Hayashi
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Publication number: 20020071186Abstract: A tilt projection optical system that performs enlarged projection from the primary image plane on the reduction side to the second image plane on the enlargement side without forming an intermediate real image while being located at an angled position, said tilt projection optical system has, sequentially from the primary image plane side, a refractive lens group including an aperture; a bending mirror that rotates the optical axis for the optical system after said bending mirror by approximately 90 degrees; and an optical group including at least one reflective surface that has a negative power; wherein the construction is such that the radius of the circle that encompasses all the light rays involved in the image formation on the screen and that is parallel to the surfaces of each lens of the refracting lens group enlarges once and then converges in terms of its radius on the enlargement side from the aperture of the refracting lens group, and wherein the predetermined condition is met.Type: ApplicationFiled: October 11, 2001Publication date: June 13, 2002Applicant: MINOLTA CO.,LTD.Inventors: Soh Ohzawa, Tomiei Kuwa
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Patent number: D866853Type: GrantFiled: April 22, 2019Date of Patent: November 12, 2019Assignee: TMA Labs LLCInventors: Mark Hoashi, Vardan Kushkyan, Tomiei Kuwa