Patents by Inventor Yoshikazu Nakanishi
Yoshikazu Nakanishi 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).
-
Patent number: 11885162Abstract: A counter balance device for a sash window includes a spiral balance having a hand-wound spiral rod connected to wind a torsion spring to generate an initial spring force that counter balances the window's weight for keeping the sash up when raised. The lower end of the spiral rod is connected to a rotation shaft rotatably disposed on a slide block. When a large repulsion force produced by the torsion spring is applied to the spiral rod, the rotation shaft is urged in a direction reverse to the rotation direction of the spiral rod by a buffer spring having a spring force which is larger than the initial spring force so that the rotation of the rotation shaft is tolerated.Type: GrantFiled: February 18, 2022Date of Patent: January 30, 2024Inventor: Yoshikazu Nakanishi
-
Publication number: 20230265700Abstract: A counter balance device for a sash window includes a spiral balance having a hand-wound spiral rod connected to wind a torsion spring to generate an initial spring force that counter balances the window's weight for keeping the sash up when raised. The lower end of the spiral rod is connected to a rotation shaft rotatably disposed on a slide block. When a large repulsion force produced by the torsion spring is applied to the spiral rod, the rotation shaft is urged in a direction reverse to the rotation direction of the spiral rod by a buffer spring having a spring force which is larger than the initial spring force so that the rotation of the rotation shaft is tolerated.Type: ApplicationFiled: February 18, 2022Publication date: August 24, 2023Inventor: Yoshikazu NAKANISHI
-
Patent number: 10385599Abstract: A spiral balance device for sash windows has a pipe inside of which extends a spiral rod having a screw section. A lower end of the spiral rod extends through a slot in a coupling rotatably disposed inside the lower end of the pipe and projects from the lower end of the pipe. A torsion spring has an upper end fixed near the upper end of the pipe and a lower end fixed to the coupling. A fixing member is fixed within the upper end of the pipe, and an adjustment member rotatably disposed below the fixing member engages with the upper end of the spiral rod. A ratchet mechanism disposed between the fixing member and adjustment member allows rotation of the adjustment member in a direction of winding the torsion spring and prevents rotation of the adjustment member in a direction of unwinding the torsion spring.Type: GrantFiled: July 2, 2018Date of Patent: August 20, 2019Assignee: NAKANISHI INDUSTRIAL CO., LTD.Inventor: Yoshikazu Nakanishi
-
Publication number: 20190032385Abstract: A spiral balance device for sash windows has a pipe inside of which extends a spiral rod having a screw section. A lower end of the spiral rod extends through a slot in a coupling rotatably disposed inside the lower end of the pipe and projects from the lower end of the pipe. A torsion spring has an upper end fixed near the upper end of the pipe and a lower end fixed to the coupling. A fixing member is fixed within the upper end of the pipe, and an adjustment member rotatably disposed below the fixing member engages with the upper end of the spiral rod. A ratchet mechanism disposed between the fixing member and adjustment member allows rotation of the adjustment member in a direction of winding the torsion spring and prevents rotation of the adjustment member in a direction of unwinding the torsion spring.Type: ApplicationFiled: July 2, 2018Publication date: January 31, 2019Inventor: Yoshikazu NAKANISHI
-
Patent number: 9593516Abstract: A multipoint mortise lock mechanism for a swinging door, including a central cassette assembly operably coupled to an upper remote locking point assembly and a lower remote locking point assembly by a remote locking linkage. The central cassette assembly includes a housing, a deadbolt mechanism, a latchbolt mechanism, a remote locking point mechanism and an anti-slam mechanism. The anti-slam mechanism includes an anti-slam plunger that when in an extended position engages the remote locking linkage via a boss and a slot and thereby inhibits movement of the remote locking linkage whereby deployment of the remote locking point assemblies is prevented. The deadbolt mechanism includes a deadbolt extendible from the central cassette that is independently operable from the remote locking point mechanism. The deadbolt mechanism further includes an anti-back drive mechanism.Type: GrantFiled: October 8, 2013Date of Patent: March 14, 2017Assignee: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji, Douglas A. Nolte, Craig M. Doring
-
Patent number: 8899635Abstract: A multi-point lock assembly with shoot bolts adapted to fit a wide range of door heights with a limited number of standard components. The shoot bolts of the assembly can be trimmed to length and attached to other standard components to form the assembly.Type: GrantFiled: October 5, 2009Date of Patent: December 2, 2014Assignee: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji, Douglas A. Nolte
-
Patent number: 8850744Abstract: A securing mechanism for a hinged sidelight panel. The securing mechanism includes a center latch bolt for latching the hinged sidelight panel and remote locking mechanisms for locking the hinged sidelight panel. A single lever handle is used to selectively retract the remote locking mechanisms and the latch bolt. At a first orientation of the handle, both the remote locking mechanisms and the latch bolt are engaged. At a second orientation of the handle, the latch bolt remains engaged, but the remote locking mechanisms retracted. At a third orientation, both the remote locking mechanisms and the latch bolt are disengaged. The orientation of the handle informs an observer whether the locks are engaged. In one embodiment, the full rotation is about 90°, enabling the use of longer lever handles without interference from door frames.Type: GrantFiled: March 15, 2013Date of Patent: October 7, 2014Assignee: Truth Hardware CorporationInventors: Leonard P. Bauman, Yoshikazu Nakanishi, Manabu Shimoji, Naokazu Suzuki
-
Publication number: 20140212133Abstract: A control device for an optical channel monitor includes: at least one of a processor and a circuit configured to stop calibration of a measured wavelength when no peak intensity of a wavelength of incoming light is detected, the optical channel monitor measuring a light intensity at the measured wavelength, the at least one of processor and circuit configured to determine presence of a peak intensity in the incoming light when detecting the incoming light with a light intensity equal to or more than a given intensity, the at least one of processor and circuit configured to permit the calibration of the measured wavelength which has been stopped to be resumed when the wavelength peak is determined to be present.Type: ApplicationFiled: November 25, 2013Publication date: July 31, 2014Applicant: FUJITSU LIMITEDInventors: Masumi Kobayashi, Tatsuo Nagayoshi, Masanori Eiro, Yoshikazu Nakanishi, Masato Miyake
-
Publication number: 20140191514Abstract: A multipoint mortise lock mechanism for a swinging door, including a central cassette assembly operably coupled to an upper remote locking point assembly and a lower remote locking point assembly by a remote locking linkage. The central cassette assembly includes a housing, a deadbolt mechanism, a latchbolt mechanism, a remote locking point mechanism and an anti-slam mechanism. The anti-slam mechanism includes an anti-slam plunger that when in an extended position engages the remote locking linkage via a boss and a slot and thereby inhibits movement of the remote locking linkage whereby deployment of the remote locking point assemblies is prevented. The deadbolt mechanism includes a deadbolt extendible from the central cassette that is independently operable from the remote locking point mechanism. The deadbolt mechanism further includes an anti-back drive mechanism.Type: ApplicationFiled: October 8, 2013Publication date: July 10, 2014Applicant: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji, Douglas A. Nolte, Craig M. Doring
-
Publication number: 20140026489Abstract: A securing mechanism for a hinged sidelight panel. The securing mechanism includes a center latch bolt for latching the hinged sidelight panel and remote locking mechanisms for locking the hinged sidelight panel. A single lever handle is used to selectively retract the remote locking mechanisms and the latch bolt. At a first orientation of the handle, both the remote locking mechanisms and the latch bolt are engaged. At a second orientation of the handle, the latch bolt remains engaged, but the remote locking mechanisms retracted. At a third orientation, both the remote locking mechanisms and the latch bolt are disengaged. The orientation of the handle informs an observer whether the locks are engaged. In one embodiment, the full rotation is about 90°, enabling the use of longer lever handles without interference from door frames.Type: ApplicationFiled: March 15, 2013Publication date: January 30, 2014Applicant: Truth Hardware CorporationInventors: Leonard P. Bauman, Yoshikazu Nakanishi, Manabu Shimoji, Naokazu Suzuki
-
Patent number: 8550506Abstract: A multipoint mortise lock mechanism for a swinging door, including a central cassette assembly operably coupled to an upper remote locking point assembly and a lower remote locking point assembly by a remote locking linkage. The central cassette assembly includes a housing, a deadbolt mechanism, a latchbolt mechanism, a remote locking point mechanism and an anti-slam mechanism. The anti-slam mechanism includes an anti-slam plunger that when in an extended position engages the remote locking linkage via a boss and a slot and thereby inhibits movement of the remote locking linkage whereby deployment of the remote locking point assemblies is prevented. The deadbolt mechanism includes a deadbolt extendible from the central cassette that is independently operable from the remote locking point mechanism. The deadbolt mechanism further includes an anti-back drive mechanism.Type: GrantFiled: June 30, 2010Date of Patent: October 8, 2013Assignee: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji, Douglas A. Nolte, Craig M. Doring
-
Patent number: 8398126Abstract: A multipoint lock for sliding doors. The multipoint lock mounted to a sliding door generally includes an active locking device having an active latch, and two passive locking devices, each having a passive latch. The latches are independently depth adjustable relative to an edge of the sliding door. The active locking device further includes sets of fastener apertures for receiving and securing a handle assembly thereto in at least two different positions. A lever having an actuator pin of the handling assembly can be positioned at various locations on the handle assembly such that fastener apertures of the handle assembly align with a different set of handle apertures of the active locking device depending on the position of the lever, Actuation of the active locking device by movement of the lever shifts the active latch and the passive latches simultaneously between locked and unlocked positions.Type: GrantFiled: May 21, 2008Date of Patent: March 19, 2013Assignee: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji
-
Patent number: 8376414Abstract: A multi-point latch assembly having a single adjustment point for shifting the position of two or more latching members. The latch mechanism includes a housing and a carrier assembly received in the housing. The carrier assembly includes a pair of latch hooks. A carrier position adjustment assembly operably couples the housing and the carrier assembly such that the carrier assembly is selectively shiftable in the housing with the carrier position adjustment assembly to alter the distance the latch hooks protrude from the housing when the latch hooks are positioned in the second position. An anti-slam mechanism may also be coupled with the carrier, and may be selectively shiftable with the same adjustment mechanism.Type: GrantFiled: April 4, 2008Date of Patent: February 19, 2013Assignee: Truth Hardware CorporationInventors: Yoshikazu Nakanishi, Manabu Shimoji
-
Publication number: 20130026768Abstract: According to embodiments of the invention, a device for securing the passive panel of a double door assembly includes a rotatable handle for retracting and extending remote bolts to secure the passive panel to the door frame, and a lock bolt that can be extended and retracted by a separate control to secure the passive panel to the active panel.Type: ApplicationFiled: May 3, 2012Publication date: January 31, 2013Inventors: Douglas A. Nolte, Yoshikazu Nakanishi, Manabu Shimoji
-
Patent number: 8331787Abstract: Even during a protection period in which a state transition is not caused from an ALC state to an ALD state, when an output light level that is inputted is below a threshold for ALC transition read from a memory, a processor causes a transition by switching an internal state from an ALC state to an ALD state. Then, an ALD operation is started, outputting a control voltage to a VAT control unit so as to achieve a predetermined fixed attenuation amount.Type: GrantFiled: March 30, 2009Date of Patent: December 11, 2012Assignee: Fujitsu LimitedInventors: Takeshi Noma, Haruki Tanaka, Yoshikazu Nakanishi, Makoto Ohtou, Hideaki Sugiya, Ichiro Nakajima, Toshihiro Suzuki
-
Patent number: 8182755Abstract: A method and apparatus for easily generating ozone with a high concentration in the air without requiring a high voltage power supply or a vacuum apparatus, wherein an ozone gas with a high concentration is generated in the atmosphere around a hemimorphic crystal of which the direction of polarization is uniform by placing the crystal in the air and repeatedly heating and cooling the crystal, are provided.Type: GrantFiled: November 21, 2007Date of Patent: May 22, 2012Assignees: Kyoto University, The DoshishaInventors: Yoshiaki Ito, Shinzo Yoshikado, Yoshikazu Nakanishi
-
Publication number: 20120085637Abstract: A method and apparatus for easily generating ozone with a high concentration in the air without requiring a high voltage power supply or a vacuum apparatus, wherein an ozone gas with a high concentration is generated in the atmosphere around a hemimorphic crystal of which the direction of polarization is uniform by placing the crystal in the air and repeatedly heating and cooling the crystal, are provided.Type: ApplicationFiled: November 21, 2007Publication date: April 12, 2012Inventors: Yoshiaki Ito, Shinzo Yoshikado, Yoshikazu Nakanishi
-
Patent number: 8121490Abstract: A transponder includes a CDR section that extracts clocks from an input signal, an oscillating section that can output various frequencies to the CDR section, a frequency instruction processing section that instructs the oscillating section to output an arbitrary frequency, a detection processing section, and a frame processing section control section. The detection processing section determines whether the frequency output from the oscillating section and an input signal synchronize in frequency or not in response to an instruction by the frequency instruction processing section, and detects a synchronization frequency. The frame processing section control section operates a frame processing section based on the synchronization frequency detected by the detection processing section.Type: GrantFiled: March 11, 2008Date of Patent: February 21, 2012Assignee: Fujitsu LimitedInventors: Tomoyuki Sakata, Yoshikazu Nakanishi, Haruki Tanaka, Kouichi Maeda, Takeshi Noma
-
Publication number: 20100327610Abstract: A multipoint mortise lock mechanism for a swinging door, including a central cassette assembly operably coupled to an upper remote locking point assembly and a lower remote locking point assembly by a remote locking linkage. The central cassette assembly includes a housing, a deadbolt mechanism, a latchbolt mechanism, a remote locking point mechanism and an anti-slam mechanism. The anti-slam mechanism includes an anti-slam plunger that when in an extended position engages the remote locking linkage via a boss and a slot and thereby inhibits movement of the remote locking linkage whereby deployment of the remote locking point assemblies is prevented. The deadbolt mechanism includes a deadbolt extendible from the central cassette that is independently operable from the remote locking point mechanism. The deadbolt mechanism further includes an anti-back drive mechanism.Type: ApplicationFiled: June 30, 2010Publication date: December 30, 2010Inventors: Yoshikazu Nakanishi, Manabu Shimoji, Douglas A. Nolte, Craig M. Doring
-
Publication number: 20100260322Abstract: An X-ray generator comprises a container (1) for maintaining a high vacuum or low pressure gas atmosphere internally, a hemimorphic crystal (4), temperature raising/lowering means (3, 5-7), and a metal target (8) for generating X-rays. In this X-ray generator the metal target (8) has a pointed protrusion protruding toward the hemimorphic crystal (4). When X-rays are generated by raising/lowering the temperature of the hemimorphic crystal (4) by using the temperature raising/lowering means (3, 5-7), the intensity of an electric field formed between the hemimorphic crystal (4) and the metal target (8) increases at the pointed end of the protrusion and thus the intensity of X-rays generated through collision of electrons against the metal target (8) increases. Consequently, an X-ray generator employing a hemimorphic crystal, which is capable of generating X-rays with practically sufficient intensity can be provided.Type: ApplicationFiled: October 22, 2008Publication date: October 14, 2010Applicants: KYOTO UNIVERSITY, THE DOSHISHA, ASAHI ROENTGEN IND. CO., LTD., FUTABA CORPORATIONInventors: Yoshiaki Ito, Shinzo Yoshikado, Yoshikazu Nakanishi, Shinji Fukao, Toru Nakamura, Shigeo Ito, Takeshi Tonegawa, Yohei Fujimura