Intelligent Door Lock System that Minimizes Inertia Applied to Components
First Claim
1. An intelligent door lock system with components, comprising:
- a drive shaft of a lock device;
a processor coupled to a wireless communication device;
an energy source coupled to a circuit; and
a device that converts energy into mechanical energy coupled to the circuit and the drive shaft, the device that converts energy being coupled to the energy source to receive energy from the energy source; and
wherein a ramp-up speed, a steady state speed and a ramp down speed are applied to the device that converts energy into mechanical energy, the ramp-up speed being applied when a first component initially engages with a second component, the steady state speed is applied following the initial engagement and is a an operational speed that the device that converts energy uses during a standard operation mode, and the ramp down speed is applied as the first and second components begin a state of non-engagement.
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Accused Products
Abstract
An intelligent door lock system includes components, a drive shaft of a lock device, a processor coupled to a wireless communication device, and an energy source coupled to a circuit. A device that converts energy into mechanical energy is coupled to the circuit and the drive shaft. The device that converts energy is coupled to the energy source to receive energy from the energy source. A ramp-up speed, a steady state speed and a ramp down speed are applied to the device that converts energy into mechanical energy. The ramp-up speed is applied when a first component initially engages with a second component. The steady state speed is applied following the initial engagement and is an operational speed that the device which converts energy uses during a standard operation mode. The ramp down speed is applied as the first and second components begin a state of non-engagement.
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Citations
22 Claims
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1. An intelligent door lock system with components, comprising:
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a drive shaft of a lock device; a processor coupled to a wireless communication device; an energy source coupled to a circuit; and a device that converts energy into mechanical energy coupled to the circuit and the drive shaft, the device that converts energy being coupled to the energy source to receive energy from the energy source; and wherein a ramp-up speed, a steady state speed and a ramp down speed are applied to the device that converts energy into mechanical energy, the ramp-up speed being applied when a first component initially engages with a second component, the steady state speed is applied following the initial engagement and is a an operational speed that the device that converts energy uses during a standard operation mode, and the ramp down speed is applied as the first and second components begin a state of non-engagement. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. An intelligent door lock system with components, comprising:
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a drive shaft means of a lock device means; a processor means coupled to a wireless communication device means; an energy source means coupled to a circuit means; and a device that converts energy into mechanical energy means coupled to the circuit means and the drive shaft means, the device that converts energy means being coupled to the energy source means to receive energy from the energy source means; and wherein a ramp-up speed, a steady state speed and a ramp down speed are applied to the device that converts energy into mechanical energy means, the ramp-up speed being applied when a first component means initially engages with a second component means, the steady state speed is applied following the initial engagement and is an operational speed that the device that converts energy means uses during a standard operation mode, and the ramp down speed is applied as the first and second components means begin a state of non-engagement.
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22. A method for locking and unlocking a door that has an intelligent door lock system with components, comprising:
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providing a drive shaft of a lock device; using a processor coupled to a wireless communication device; using an energy source coupled to a circuit; and using a device that converts energy into mechanical energy coupled to the circuit and the drive shaft, the device that converts energy being coupled to the energy source to receive energy from the energy source; and operating at a ramp-up speed, a steady state speed and a ramp down speed, the ramp-up speed being applied when a first component initially engages with a second component, the steady state speed is applied following the initial engagement and is a an operational speed that the device that converts energy uses during a standard operation mode, and the ramp down speed is applied as the first and second components begin a state of non-engagement.
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Specification