| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 074501600 |
And hand operator
| 135 |
| 074502500 |
Specific cable or sheath structure
| 35 |
| 074502400 |
And sheath support, connector, or anchor
| 33 |
| 074502600 |
Specific cable connector or guide
| 32 |
| 0745015R0 |
Constant tension sustaining
| 10 |
| 074502300 |
Including rolling antifriction elements | 2 |
| 20110011198 | Brake Level for a Bicycle - A brake level for a bicycle is assembled and disassembled by a locking method. After assembly of the brake level, a brake cable can be assembled to the brake level just by means of a single through hole. By such arrangements, the assembling cost of the brake level can be reduced, and the brake level can be assembled and disassembled repeatedly. | 01-20-2011 |
| 20140230598 | Brake adapter - A brake adapter for a bicycle brake is provided with a bent, rigid tube including a plurality of transverse holes communicating with interior of the bent, rigid tube; and a plurality of rollers rotatably disposed in the transverse holes respectively. Both ends of each transverse hole are smaller than both ends of each roller respectively. | 08-21-2014 |
| Entries |
| Document | Title | Date |
|---|
| 20100058882 | Oscillating or Low Speed Electric Machine Apparatus - Electric Machines (i.e., electric motors or generators) convert electricity to mechanical work (or vice versa) by applying mechanical power to the shaft of the electric machine or extracting mechanical power form the shaft of the electric machine. This restricts the electrical characteristics, such as frequency or voltage, to the movement of the shaft of the electric machine in accordance to electric machine theory. In some cases, it is desired to perform electromechanical conversion from unorthodox movement, such as pulsating movement, slow movement, or low power movement. In many cases this is not possible with even electronic control without a transmission to convert the mechanical power to a compatible motion. However, by pre-establishing the compatible speed and inertial momentum of the rotor body of the electric machine while moving the entire body of the electric machine in accordance to the incompatible movement, the mechanical energy of the movement can be readily produced or absorbed to desired electrical characteristics. | 03-11-2010 |
| 20100275705 | ROTOR ASSEMBLY HAVING INTEGRAL DAMPING MEMBER FOR DEPLOYMENT WITHIN MOMENTUM CONTROL DEVICE - A rotor assembly is provided for deployment within a momentum control device including a rotor assembly housing. In one embodiment, the rotor assembly includes a rotor shaft rotatably mounted within the rotor assembly housing, a floating bearing cartridge disposed around a first end portion of the rotor shaft, and a radially-compliant damping member. The radially-compliant damping member is mechanically coupled between the floating bearing cartridge and the rotor assembly housing, as taken along an emitted disturbance path. The radially-compliant damping member reduces the transmission of vibratory forces from the floating bearing cartridge to the rotor assembly housing to reduce emitted disturbances during operation of the momentum control device. | 11-04-2010 |
| 20090071283 | SELECTIVE REMOTE HEAD RESTRAINT ACTUATION - A head restraint actuation system includes a head restraint positionable in an upright and folded position. Repositioning of the head restraint is accomplished through the action of a head restraint actuator. The head restraint actuator is in communication with the head restraint. An actuating cable system includes a cable that is in communication with the head restraint actuator and a user operated handle. User initiated movement of the handle causes movement of the cable thereby causing the head restraint to be positioned in the folded position. The activation system is able to simultaneously actuate a plurality of head restraints. | 03-19-2009 |
| 20100116083 | THROTTLE CONTROL DEVICE - In this throttle control device, the device body secured to a steering wheel is provided with a throttle lever for pulling a control cable and the cover is attached to the upper part of the device body. The throttle control device includes a protruded rim that is formed on one of the outer surfaces of the upper both side walls of the device body and the inner surfaces of both side parts of the cover, a recessed groove capable of slidably engaging with the rim is slantingly formed in the other, the protruded rim is engaged with the recessed groove and slid, and the cover is locked to the device body at its slid end whereby the cover is fixed onto the device body. | 05-13-2010 |
| 20100186537 | CLAMP JAW AND CLAMP - In one embodiment, a clamp jaw includes a face having an annular groove therein and a linear groove therein tangent to the annular groove. In another embodiment, an assembly includes an overhand loop in a cord compressed between two faces. | 07-29-2010 |
| 20110226081 | CONTROL CABLE - A control cable | 09-22-2011 |
| 20120036957 | MANUAL TRANSMISSION REVERSE LOCKOUT SYSTEM - A shifter assembly may include a shift lever, an actuation member, a coupling, a first cable and a second cable. The shift lever may be connected to a housing for pivotable motion relative to the housing. The actuation member may be connected to the shift lever and may be movable relative thereto between a first position and a second position. The coupling may be connected to the shift lever and may include first and second members slidably engaging each other. The first cable may have a first end connected to the second member and a second end that can be coupled to a reverse lockout mechanism. The second cable may be connected to the actuation member and the second member of the coupling such that movement of the actuation member relative to the shift lever causes corresponding motion of the second member relative to the shift lever. | 02-16-2012 |
| 20130283960 | CONVERTER ARRANGEMENT FOR A MECHANICAL ACTUATOR - An actuator has at least one mechanical activation device, to which at least one activation cable for activating field elements in the external system of the actuator is mounted. In order to implement such an actuator in a low-maintenance fashion, the activation cable is guided to a mechanical-electronic converter from which at least one electrical line leads to electronic systems of the field elements of the external system of the actuator. | 10-31-2013 |
| 20140208885 | ROTATING CONTROL ASSEMBLY WITH DOUBLE CABLE, WITH ADJUSTMENT OF THE CABLE TENSION - Rotating control assembly with double cable, comprising a first and a second actuator device both having a respective rotating pulley and being connected together by two cables both fixed to the pulley of the first actuator device and to the pulley of the second actuator device, wherein the pulley of the first actuator device and the pulley of the second actuator device are identical to each other, each of the pulleys being mounted on a respective base, and wherein each actuator device comprises a guide part having a pair of resilient wings which press on respective sections of the cables in immediate proximity to areas where the cables are wound onto the respective pulley. | 07-31-2014 |
| 20140352483 | REMOTE ALIGNMENT TOOL - A remote alignment system and a remote alignment tool for aligning a plurality of remotely operated tools are disclosed. In an embodiment, the alignment tool includes at least two sleeves. An exterior surface of each of the at least two sleeves is affixed to an exterior surface of an adjacent sleeve of the at least two sleeves. A tool retainer is disposed on an inner surface of each of the at least two sleeves for selectively retaining at least an axial position of a remote tool relative to the sleeve. | 12-04-2014 |
| 20160160953 | DEVICE FOR TRIGGERING A GAS SPRING - A device for triggering a gas spring comprises an actuating device and an actuating element which is operatively connected to the actuating device and acts on an end-side trigger of the gas spring. The actuating element acts on the trigger and is designed as a lever arrangement which reduces or multiplies the force and/or distance and which comprises an actuating lever, which is connected to the actuating device. The device also comprises at least one trigger lever, which interacts with the actuating lever and which acts on the trigger and a housing. A first housing connecting unit is provided on the housing. The connected actuating device is guided substantially parallel to the longitudinal direction of the gas spring. A second housing connecting unit is provided on the housing. The connected actuating device is guided substantially transverse to the longitudinal direction of the gas spring. | 06-09-2016 |
| 20160160954 | DEVICE FOR TRIGGERING A GAS SPRING - A device for triggering a gas spring comprises an actuating device and an actuating element connected to the actuating device and acts on an end-side trigger of the gas spring. The actuating element acts on the trigger and is designed as a lever arrangement which reduces or multiplies the force and/or distance and which comprises an actuating lever connected to the actuating device. The device also comprises one trigger lever, which interacts with the actuating lever and acts on the trigger, and a housing. The housing has a gas spring connection unit. The upper end region of the gas spring can be connected to the trigger, which is guided into the interior of the housing. The gas spring connection unit has a continuous opening with an inner thread. In a clearance, there are devices that clamp and/or form-fittingly fix the upper end region of the gas spring in the housing. | 06-09-2016 |
