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正翻译步骤 4

步骤 4
What's underneath the scissor mechanism? Hey, we'll ask the questions here—you just finish taking this thing apart. Wait, scratch that—reverse it. Here's a look at the "Apple-designed rubber dome that stores more potential energy for a responsive key press."
  • What's underneath the scissor mechanism? Hey, we'll ask the questions here—you just finish taking this thing apart.

  • Wait, scratch that—reverse it.

  • Here's a look at the "Apple-designed rubber dome that stores more potential energy for a responsive key press."

  • Beneath that, a backlight assembly with an interesting pattern—more on that later.

  • And bordering all that, a thin black gasket—presumably to stop the bright bits from bleeding out past the edge of the key.

  • Compared once again with the desktop Magic Keyboard:

  • The two scissor mechanisms look nearly identical. The old Magic scissor is ever-so-slightly thicker (1.6 vs 1.38 mm).

  • 0.22 mm may not seem like much, but no doubt a lot of engineering went into the re-creation of this slender new scissor switch.

剪刀式键盘的机制如何运作?嘿,你可以带着这个问题,和我们一起探索。

请稍等。

这是“ Apple 设计的橡胶圆顶,可为响应式按键存储更多的潜在能量”。

在此之下,具有有趣图案的背光组件——稍后会详细介绍。

紧接所有边缘的是一个薄的黑色垫圈,以防止明亮的碎片渗出钥匙边缘。

与台式机魔术键盘再次进行比较:

两种剪刀机制看起来几乎相同。旧的魔术剪刀的厚度过小(1.6 vs. 1.38 mm)。

0.22 mm 似乎并不多,但毫无疑问,这种细长的新型剪式开关的重新设计需要大量的工程设计。

在开源创作共享许可协议下,你的投稿已被许可