vibe-openscad

tier-2-hex-bolt / gpt-5-codex

5 run / 累計 45.6s / 累計 $0.0448

openai gpt 5 codex bare

bare (provider default effort)

run detail →
render
bare render of tier-2-hex-bolt
loading STL…
success 8.9s · 200/964t · $0.0099
SCAD (14 lines) 
af = 13;
head_height = 5.3;
shank_diameter = 8;
shank_length = 30;

module m8_hex_bolt() {
    union() {
        cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
        translate([0, 0, -shank_length])
            cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
    }
}

m8_hex_bolt();
パラメータ (4)
スライダを動かすと openscad-wasm で再レンダリング

prompt

OpenSCAD で、規格に準じた M8 サイズの六角ボルトを作ってください。
ねじ山自体は省略してよく、円柱のシャンクで構いません。

寸法は以下に従ってください:
- 頭部は六角柱で、対辺距離(across-flats)13mm、高さ 5.3mm
- シャンク(軸部)は直径 8mm、長さ 30mm の円柱
- ボルト全体の中心軸は +Z 軸方向
- 頭部の底面が原点(z=0)に来るように配置し、シャンクは z<0 側へ伸ばす

完成したコード全体を ```openscad ... ``` のフェンスで囲んで出力してください。コードのみで、追加の説明は不要です。

variant: effort

lownot run
medium (default) success
medium
8.9s · 200/964t · $0.0099
SCAD (14 lines) 
af = 13;
head_height = 5.3;
shank_diameter = 8;
shank_length = 30;

module m8_hex_bolt() {
    union() {
        cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
        translate([0, 0, -shank_length])
            cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
    }
}

m8_hex_bolt();
highnot run
maxnot run
xhighnot run

iteration: iter-png

i1 success
iter 1
5.2s · 1040/368t · $0.0050
diff vs bare: +0/-0 
  af = 13;
  head_height = 5.3;
  shank_diameter = 8;
  shank_length = 30;
  
  module m8_hex_bolt() {
      union() {
          cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
          translate([0, 0, -shank_length])
              cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
      }
  }
  
  m8_hex_bolt();
SCAD (14 lines) 
af = 13;
head_height = 5.3;
shank_diameter = 8;
shank_length = 30;

module m8_hex_bolt() {
    union() {
        cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
        translate([0, 0, -shank_length])
            cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
    }
}

m8_hex_bolt();
i2 success
iter 2
12.2s · 1040/1082t · $0.0121
diff vs i1: +0/-0 
  af = 13;
  head_height = 5.3;
  shank_diameter = 8;
  shank_length = 30;
  
  module m8_hex_bolt() {
      union() {
          cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
          translate([0, 0, -shank_length])
              cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
      }
  }
  
  m8_hex_bolt();
SCAD (14 lines) 
af = 13;
head_height = 5.3;
shank_diameter = 8;
shank_length = 30;

module m8_hex_bolt() {
    union() {
        cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
        translate([0, 0, -shank_length])
            cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
    }
}

m8_hex_bolt();
i3 success
iter 3
10.4s · 1040/659t · $0.0079
diff vs i2: +0/-0 
  af = 13;
  head_height = 5.3;
  shank_diameter = 8;
  shank_length = 30;
  
  module m8_hex_bolt() {
      union() {
          cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
          translate([0, 0, -shank_length])
              cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
      }
  }
  
  m8_hex_bolt();
SCAD (14 lines) 
af = 13;
head_height = 5.3;
shank_diameter = 8;
shank_length = 30;

module m8_hex_bolt() {
    union() {
        cylinder(h = head_height, r = af / sqrt(3), $fn = 6);
        translate([0, 0, -shank_length])
            cylinder(h = shank_length, r = shank_diameter / 2, $fn = 100);
    }
}

m8_hex_bolt();