Abstract: A cable tie having a head for receiving a tail for binding various objects is provided wherein a head of an integral buckle is tilted so that the tail portion is more easily received. By employing a tilted head, of preferably 30 degrees, a 15-20% increase in performance over similar cables ties of the prior art has been achieve. In addition, a cable tie is provided that includes a bulged or coined portion. A leading edge of the band that is associated with the buckle also includes a bulged or coined portion. The bulged portions are preferably created by a coining process and facilitate binding mechanically the band to the buckle. In addition, a cable tie is provided wherein a head of the integral buckle is interconnected to the band via angled side walls. The angled side walls increase an opening in the buckle that receives the band such that during tensioning less energy is needed to tension the cable tie around a bundle of cables, for example.

Abstract: An electrical harness assembly is provided for coupling a first electrical component in a vehicle to a second electrical component in a removable vehicle portion. The assembly includes a first harness having a first connector and a second connector and configured to be coupled to the first electrical component. The assembly further includes a second harness having a third connector and a fourth connector and configured to be coupled to the second electrical component. In a first state, the first connector mates with the third connector and the second connector mates with the fourth connector, and in a second state, the first connector mates with the second connector.

Abstract: An internal gear pump including a stepper motor coupled to a drive shaft that is coupled to a rotor and meshed with an idler is disclosed. A controller is linked to the stepper motor. The stepper motor imparts a stepped rotational movement to the drive shaft wherein a single 360° rotation of the drive shaft comprises a plurality of steps. The controller sends a signal to the stepper motor to rotate the drive shaft a predetermined number of steps, based upon an inputted dispense amount. The signal causes the stepper motor to rotate the drive shaft a predetermined number of steps. The controller calculates the predetermined number of steps based upon the inputted dispense amount using an algorithm that is derived experimentally that defines a relationship between dispense amount and the number of steps required for each dispense amount. The algorithm is unique for each fluid to be pumped.

Abstract: An internal gear pump including a stepper motor coupled to a drive shaft that is coupled to a rotor and meshed with an idler is disclosed. A controller is linked to the stepper motor. The stepper motor imparts a stepped rotational movement to the drive shaft wherein a single 360° rotation of the drive shaft comprises a plurality of steps. The controller sends a signal to the stepper motor to rotate the drive shaft a predetermined number of steps, based upon an inputted dispense amount. The signal causes the stepper motor to rotate the drive shaft a predetermined number of steps. The controller calculates the predetermined number of steps based upon the inputted dispense amount using an algorithm that is derived experimentally that defines a relationship between dispense amount and the number of steps required for each dispense amount. The algorithm is unique for each fluid to be pumped.