`
`3. A wiper blade according to claim 1,
`characterized in that wind deflection
`strip (42) is designed as a binary
`component whose longitudinal area
`provided with the claw-like extensions
`(56) is made of a harder material than a
`longitudinal area lying closer to the
`base point (46).
`
`Costco Exhibit 1028, p. 1
`
`
`
`Kraemer et al. '264 Claim 3
`
`3. A wiper blade according to claim 1,
`characterized in that wind deflection
`strip (42) is designed as a binary
`component whose longitudinal area
`provided with the claw-like extensions
`(56) is made of a harder material than a
`longitudinal area lying closer to the
`base point (46).
`
`Costco Exhibit 1028, p. 2
`
`
`
`Kraemer et al. '264 Claim 3
`
`3. A wiper blade according to claim 1,
`characterized in that wind deflection
`strip (42) is designed as a binary
`component whose longitudinal area
`provided with the claw-like extensions
`(56) is made of a harder material than a
`longitudinal area lying closer to the
`base point (46).
`
`Costco Exhibit 1028, p. 3
`
`
`
`Kraemer et al. '264 Claim 3
`
`3. A wiper blade according to claim 1,
`characterized in that wind deflection
`strip (42) is designed as a binary
`component whose longitudinal area
`provided with the claw-like extensions
`(56) is made of a harder material than a
`longitudinal area lying closer to the
`base point (46).
`
`Costco Exhibit 1028, p. 4