Calculadora de placa de indexaci\u00f3n: herramienta profesional de dise\u00f1o mec\u00e1nico<\/title>\n <meta name=\"description\" content=\"Calculadora profesional de placas de indexaci\u00f3n que le ayuda a calcular sus par\u00e1metros con rapidez y precisi\u00f3n. Compatible con m\u00faltiples m\u00e9todos de indexaci\u00f3n y conforme a los est\u00e1ndares internacionales.\">\n <style>\n \/* \u6dfb\u52a0\u547d\u540d\u7a7a\u95f4\u524d\u7f00\uff0c\u907f\u514d\u6837\u5f0f\u51b2\u7a81 *\/\n .indexing-calculator-wrapper {\n --primary-color: #333333;\n --secondary-color: #333333;\n --text-color: #333;\n --border-color: #ddd;\n --success-color: #4CAF50;\n --error-color: #f44336;\n font-family: -apple-system, BlinkMacSystemFont, \"Segoe UI\", Roboto, \"Helvetica Neue\", Arial, sans-serif;\n line-height: 1.6;\n color: var(--text-color);\n padding: 20px;\n max-width: 1200px;\n margin: 0 auto;\n position: relative;\n z-index: 1;\n }\n\n .indexing-calculator-wrapper * {\n box-sizing: border-box;\n }\n\n .indexing-calculator-wrapper .calculator-container {\n background: #fff;\n border-radius: 8px;\n box-shadow: 0 2px 10px rgba(0,0,0,0.1);\n padding: 20px;\n margin-top: 20px;\n position: relative;\n z-index: 1;\n }\n\n .indexing-calculator-wrapper .section {\n margin-bottom: 30px;\n position: relative;\n z-index: 1;\n }\n\n .indexing-calculator-wrapper .section-title {\n font-size: 1.5em;\n color: var(--primary-color);\n margin-bottom: 15px;\n padding-bottom: 10px;\n border-bottom: 2px solid var(--border-color);\n }\n\n .indexing-calculator-wrapper .parameters-grid {\n display: grid;\n grid-template-columns: repeat(auto-fit, minmax(300px, 1fr));\n gap: 20px;\n margin-bottom: 20px;\n }\n\n .indexing-calculator-wrapper .parameter-item {\n background: #f8f9fa;\n padding: 15px;\n border-radius: 6px;\n border: 1px solid var(--border-color);\n }\n\n .indexing-calculator-wrapper .parameter-item h3 {\n color: var(--secondary-color);\n margin-bottom: 10px;\n }\n\n .indexing-calculator-wrapper .diagram-container {\n text-align: center;\n margin: 30px 0;\n }\n\n .indexing-calculator-wrapper .diagram-container img {\n max-width: 100%;\n height: auto;\n border-radius: 8px;\n box-shadow: 0 2px 8px rgba(0,0,0,0.1);\n }\n\n .indexing-calculator-wrapper .input-group {\n margin-bottom: 15px;\n }\n\n .indexing-calculator-wrapper .input-group label {\n display: block;\n margin-bottom: 5px;\n font-weight: 500;\n }\n\n .indexing-calculator-wrapper .input-group input {\n width: 100%;\n padding: 8px 12px;\n border: 1px solid var(--border-color);\n border-radius: 4px;\n font-size: 16px;\n }\n\n .indexing-calculator-wrapper .input-group input:focus {\n outline: none;\n border-color: var(--primary-color);\n box-shadow: 0 0 0 2px rgba(33,150,243,0.2);\n }\n\n .indexing-calculator-wrapper .calculate-btn {\n background: #2196f3;\n color: white;\n border: none;\n padding: 12px 48px;\n border-radius: 4px;\n cursor: pointer;\n font-size: 16px;\n transition: all 0.3s;\n display: block;\n margin: 20px auto;\n width: 200px;\n }\n\n .indexing-calculator-wrapper .calculate-btn:hover {\n background: #1976d2;\n color: white;\n }\n\n .indexing-calculator-wrapper .results {\n margin-top: 20px;\n padding: 20px;\n border: 1px solid var(--border-color);\n border-radius: 6px;\n display: none;\n }\n\n .indexing-calculator-wrapper .results.show {\n display: block;\n }\n\n .indexing-calculator-wrapper .result-item {\n margin-bottom: 10px;\n padding: 10px;\n background: #f8f9fa;\n border-radius: 4px;\n }\n\n .indexing-calculator-wrapper .result-item strong {\n color: var(--secondary-color);\n }\n\n @media (max-width: 768px) {\n .indexing-calculator-wrapper .parameters-grid {\n grid-template-columns: 1fr;\n }\n\n .indexing-calculator-wrapper .calculator-container {\n padding: 15px;\n }\n\n .indexing-calculator-wrapper .section-title {\n font-size: 1.3em;\n }\n }\n <\/style>\n<\/head>\n<body>\n <div class=\"indexing-calculator-wrapper\">\n <div class=\"calculator-container\">\n <div class=\"section\">\n <h2 class=\"section-title\">Par\u00e1metros<\/h2>\n <div class=\"parameters-grid\">\n <div class=\"parameter-item\"><strong>N\u00famero de divisiones (N):<\/strong> El n\u00famero de partes iguales para dividir la pieza de trabajo, por ejemplo: 4, 6, 8, 12, etc.<\/div>\n <div class=\"parameter-item\"><strong>Relaci\u00f3n de gusanos (i):<\/strong> La relaci\u00f3n de transmisi\u00f3n del engranaje helicoidal, normalmente es 40:1 o 60:1.<\/div>\n <div class=\"parameter-item\"><strong>Agujeros de placa (n):<\/strong> El n\u00famero de orificios disponibles en la placa indexadora, por ejemplo: 24, 30, 36, etc.<\/div>\n <div class=\"parameter-item\"><strong>Di\u00e1metro de la placa de indexaci\u00f3n (D<sub>T<\/sub>):<\/strong> El di\u00e1metro de la placa indexadora.<\/div>\n <div class=\"parameter-item\"><strong>Espesor de la placa de indexaci\u00f3n (L<sub>T<\/sub>):<\/strong> El espesor de la placa indexadora.<\/div>\n <div class=\"parameter-item\"><strong>Di\u00e1metro de la pieza de trabajo (D<sub>O<\/sub>):<\/strong> El di\u00e1metro de la pieza de trabajo.<\/div>\n <div class=\"parameter-item\"><strong>Espesor de la pieza de trabajo (L<sub>O<\/sub>):<\/strong> El espesor de la pieza de trabajo.<\/div>\n <div class=\"parameter-item\"><strong>Densidad del material de la pieza de trabajo (\u03c1):<\/strong> La densidad del material de la pieza de trabajo.<\/div>\n <div class=\"parameter-item\"><strong>N\u00famero de piezas de trabajo (n):<\/strong> El n\u00famero total de piezas de trabajo.<\/div>\n <div class=\"parameter-item\"><strong>Distancia desde el centro de la placa hasta la pieza de trabajo (l):<\/strong> La distancia desde el centro de la placa indexadora hasta la pieza de trabajo.<\/div>\n <div class=\"parameter-item\"><strong>\u00c1ngulo de indexaci\u00f3n (\u03b8):<\/strong> El \u00e1ngulo de indexaci\u00f3n.<\/div>\n <div class=\"parameter-item\"><strong>Tiempo de indexaci\u00f3n (t):<\/strong> Es hora de indexar.<\/div>\n <div class=\"parameter-item\"><strong>Relaci\u00f3n de tiempo de aceleraci\u00f3n\/desaceleraci\u00f3n (A):<\/strong> La relaci\u00f3n entre el tiempo de aceleraci\u00f3n y desaceleraci\u00f3n.<\/div>\n <div class=\"parameter-item\"><strong>Relaci\u00f3n de la caja de cambios (i):<\/strong> La relaci\u00f3n de reducci\u00f3n de la caja de cambios.<\/div>\n <div class=\"parameter-item\"><strong>Eficiencia de la caja de cambios (\u03b7<sub>GRAMO<\/sub>):<\/strong> La eficiencia de la caja de cambios.<\/div>\n <div class=\"parameter-item\"><strong>GRAMO:<\/strong> Par\u00e1metro definido por el usuario G.<\/div>\n <div class=\"parameter-item\"><strong>Pi (\u03c0):<\/strong> El valor de pi, por defecto es 3,1416.<\/div>\n <div class=\"parameter-item\"><strong>Inercia del motor (J<sub>METRO<\/sub>):<\/strong> La inercia del motor.<\/div>\n <div class=\"parameter-item\"><strong>Factor de seguridad (S):<\/strong> El factor de seguridad para el c\u00e1lculo.<\/div>\n <\/div>\n <\/div>\n\n <div class=\"section\">\n <h2 class=\"section-title\">Calculadora<\/h2>\n <form id=\"calculatorForm\" action=\"\">\n <div class=\"parameters-grid\" style=\"grid-template-columns: repeat(2, 1fr);\">\n <div class=\"input-group\">\n <label for=\"divisions\">N\u00famero de divisiones (N):<\/label>\n <input type=\"number\" id=\"divisions\" name=\"divisions\" required min=\"2\" step=\"1\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"wormRatio\">Relaci\u00f3n de gusanos (i):<\/label>\n <input type=\"number\" id=\"wormRatio\" name=\"wormRatio\" required min=\"1\" step=\"1\" value=\"40\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"plateHoles\">Agujeros de placa (n):<\/label>\n <input type=\"number\" id=\"plateHoles\" name=\"plateHoles\" required min=\"1\" step=\"1\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"D_T\">Di\u00e1metro de la placa de indexaci\u00f3n (D<sub>T<\/sub>):<\/label>\n <input type=\"number\" id=\"D_T\" name=\"D_T\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"L_T\">Espesor de la placa de indexaci\u00f3n (L<sub>T<\/sub>):<\/label>\n <input type=\"number\" id=\"L_T\" name=\"L_T\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"D_W\">Di\u00e1metro de la pieza de trabajo (D<sub>O<\/sub>):<\/label>\n <input type=\"number\" id=\"D_W\" name=\"D_W\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"L_W\">Espesor de la pieza de trabajo (L<sub>O<\/sub>):<\/label>\n <input type=\"number\" id=\"L_W\" name=\"L_W\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"density\">Densidad del material de la pieza de trabajo (\u03c1):<\/label>\n <input type=\"number\" id=\"density\" name=\"density\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"workpieceCount\">N\u00famero de piezas de trabajo (n):<\/label>\n <input type=\"number\" id=\"workpieceCount\" name=\"workpieceCount\" step=\"1\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"distance\">Distancia desde el centro de la placa hasta la pieza de trabajo (l):<\/label>\n <input type=\"number\" id=\"distance\" name=\"distance\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"angle\">\u00c1ngulo de indexaci\u00f3n (\u03b8):<\/label>\n <input type=\"number\" id=\"angle\" name=\"angle\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"indexingTime\">Tiempo de indexaci\u00f3n (t):<\/label>\n <input type=\"number\" id=\"indexingTime\" name=\"indexingTime\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"accDecRatio\">Relaci\u00f3n de tiempo de aceleraci\u00f3n\/desaceleraci\u00f3n (A):<\/label>\n <input type=\"number\" id=\"accDecRatio\" name=\"accDecRatio\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"gearboxRatio\">Relaci\u00f3n de la caja de cambios (i):<\/label>\n <input type=\"number\" id=\"gearboxRatio\" name=\"gearboxRatio\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"gearboxEfficiency\">Eficiencia de la caja de cambios (\u03b7<sub>GRAMO<\/sub>):<\/label>\n <input type=\"number\" id=\"gearboxEfficiency\" name=\"gearboxEfficiency\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"G\">GRAMO:<\/label>\n <input type=\"number\" id=\"G\" name=\"G\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"pi\">Pi (\u03c0):<\/label>\n <input type=\"number\" id=\"pi\" name=\"pi\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"motorInertia\">Inercia del motor (J<sub>METRO<\/sub>):<\/label>\n <input type=\"number\" id=\"motorInertia\" name=\"motorInertia\" step=\"any\">\n <\/div>\n <div class=\"input-group\">\n <label for=\"safetyFactor\">Factor de seguridad (S):<\/label>\n <input type=\"number\" id=\"safetyFactor\" name=\"safetyFactor\" step=\"any\">\n <\/div>\n <\/div>\n <button type=\"submit\" class=\"calculate-btn\">Calcule<\/button>\n <input type=\"hidden\" name=\"trp-form-language\" value=\"es\"\/><\/form>\n <\/div>\n\n <div class=\"section\">\n <div id=\"results\" class=\"results\">\n <h2 class=\"section-title\">Resultados de los c\u00e1lculos<\/h2>\n <div class=\"result-item\">\n <strong>Giros de rotaci\u00f3n de la placa:<\/strong>\n <span id=\"turns\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Orificios de rotaci\u00f3n de la placa:<\/strong>\n <span id=\"holes\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>\u00c1ngulo de rotaci\u00f3n de la placa:<\/strong>\n <span id=\"angle\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Tiempo de aceleraci\u00f3n\/desaceleraci\u00f3n (t<sub>0<\/sub>):<\/strong>\n <span id=\"accDecTime\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Aceleraci\u00f3n angular del eje de salida de la caja de cambios (\u03b2<sub>GRAMO<\/sub>):<\/strong>\n <span id=\"gearboxAngularAcc\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Velocidad m\u00e1xima del eje de salida de la caja de cambios (N):<\/strong>\n <span id=\"gearboxMaxSpeed\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Aceleraci\u00f3n angular del eje del motor (\u03b2<sub>METRO<\/sub>):<\/strong>\n <span id=\"motorAngularAcc\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Velocidad del eje de salida del motor (N<sub>METRO<\/sub>):<\/strong>\n <span id=\"motorOutputSpeed\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Par de carga (T<sub>L<\/sub>):<\/strong>\n <span id=\"loadTorque\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Inercia de la mesa (J<sub>T<\/sub>):<\/strong>\n <span id=\"tableInertia\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Inercia de la pieza de trabajo (J<sub>metro<\/sub>):<\/strong>\n <span id=\"workpieceInertia\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Masa de la pieza de trabajo (m<sub>metro<\/sub>):<\/strong>\n <span id=\"workpieceMass\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Inercia de carga total (J<sub>L<\/sub>):<\/strong>\n <span id=\"totalLoadInertia\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Carga reflejada al eje del motor (J<sub>Lm<\/sub>):<\/strong>\n <span id=\"loadReflectedMotor\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Par de aceleraci\u00f3n del eje del motor (T<sub>s<\/sub>):<\/strong>\n <span id=\"motorAccTorque\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Par requerido (T):<\/strong>\n <span id=\"requiredTorque\"><\/span>\n <\/div>\n <div class=\"result-item\">\n <strong>Relaci\u00f3n de inercia (N1):<\/strong>\n <span id=\"inertiaRatio\"><\/span>\n <\/div>\n <\/div>\n <\/div>\n <\/div>\n <\/div>\n\n <script>\n document.getElementById('calculatorForm').addEventListener('submit', function(e) {\n e.preventDefault();\n \n \/\/ \u8f93\u5165\u9879\n const N = parseFloat(document.getElementById('divisions').value);\n const i = parseFloat(document.getElementById('wormRatio').value);\n const n = parseFloat(document.getElementById('plateHoles').value);\n const D_T = parseFloat(document.getElementById('D_T').value);\n const L_T = parseFloat(document.getElementById('L_T').value);\n const D_W = parseFloat(document.getElementById('D_W').value);\n const L_W = parseFloat(document.getElementById('L_W').value);\n const density = parseFloat(document.getElementById('density').value);\n const workpieceCount = parseFloat(document.getElementById('workpieceCount').value);\n const l = parseFloat(document.getElementById('distance').value);\n const theta = parseFloat(document.getElementById('angle').value);\n const t = parseFloat(document.getElementById('indexingTime').value);\n const A = parseFloat(document.getElementById('accDecRatio').value);\n const gearboxRatio = parseFloat(document.getElementById('gearboxRatio').value);\n const gearboxEfficiency = parseFloat(document.getElementById('gearboxEfficiency').value);\n const G = parseFloat(document.getElementById('G').value);\n const pi = parseFloat(document.getElementById('pi').value) || Math.PI;\n const motorInertia = parseFloat(document.getElementById('motorInertia').value);\n const safetyFactor = parseFloat(document.getElementById('safetyFactor').value);\n \/\/ \u8ba1\u7b97\u9879\n \/\/ 1. t0 = t * A\n const t0 = t * A;\n \/\/ 2. \u03b2G = (theta * 2 * pi \/ 360) \/ (t0 * (t - t0))\n const betaG = (theta * 2 * pi \/ 360) \/ (t0 * (t - t0));\n \/\/ 3. N = (betaG * t0 \/ (2 * pi)) * 60\n const gearboxMaxSpeed = (betaG * t0 \/ (2 * pi)) * 60;\n \/\/ 4. \u03b2M = \u03b2G * i\n const betaM = betaG * i;\n \/\/ 5. NM = N * i\n const motorOutputSpeed = gearboxMaxSpeed * i;\n \/\/ 6. JT = (pi \/ 32) * density * L_T * Math.pow(D_T, 4)\n const tableInertia = (pi \/ 32) * density * L_T * Math.pow(D_T, 4);\n \/\/ 7. Jm1 = (pi \/ 32) * density * L_W * Math.pow(D_W, 4)\n const workpieceInertia1 = (pi \/ 32) * density * L_W * Math.pow(D_W, 4);\n \/\/ 8. mW = density * L_W * pi * Math.pow(D_W \/ 2, 2)\n const workpieceMass = density * L_W * pi * Math.pow(D_W \/ 2, 2);\n \/\/ 9. JW = n * (Jm1 + mW * l^2)\n const workpieceInertia = workpieceCount * (workpieceInertia1 + workpieceMass * Math.pow(l, 2));\n \/\/ 10. JL = JT + JW\n const totalLoadInertia = tableInertia + workpieceInertia;\n \/\/ 11. JLm = JL \/ Math.pow(i, 2)\n const loadReflectedMotor = totalLoadInertia \/ Math.pow(i, 2);\n \/\/ 12. Ts = (JLm + motorInertia) * betaM \/ gearboxEfficiency\n const motorAccTorque = (loadReflectedMotor + motorInertia) * betaM \/ gearboxEfficiency;\n \/\/ 13. TL = G (\u5982\u6709\u66f4\u8be6\u7ec6\u516c\u5f0f\u53ef\u8865\u5145)\n const loadTorque = G;\n \/\/ 14. T = (Ts + TL) * S\n const requiredTorque = (motorAccTorque + loadTorque) * safetyFactor;\n \/\/ 15. N1 = (JL \/ i^2) \/ motorInertia\n const inertiaRatio = loadReflectedMotor \/ motorInertia;\n \/\/ \u8f93\u51fa\u5230\u9875\u9762\n document.getElementById('turns').textContent = (i \/ N).toFixed(2) + ' turns';\n document.getElementById('holes').textContent = Math.round(((i \/ N) - Math.floor(i \/ N)) * n) + ' holes';\n document.getElementById('angle').textContent = (360 \/ N).toFixed(2) + '\u00b0';\n document.getElementById('accDecTime').textContent = isFinite(t0) ? t0.toFixed(4) : '';\n document.getElementById('gearboxAngularAcc').textContent = isFinite(betaG) ? betaG.toExponential(4) : '';\n document.getElementById('gearboxMaxSpeed').textContent = isFinite(gearboxMaxSpeed) ? gearboxMaxSpeed.toFixed(2) : '';\n document.getElementById('motorAngularAcc').textContent = isFinite(betaM) ? betaM.toExponential(4) : '';\n document.getElementById('motorOutputSpeed').textContent = isFinite(motorOutputSpeed) ? motorOutputSpeed.toFixed(2) : '';\n document.getElementById('tableInertia').textContent = isFinite(tableInertia) ? tableInertia.toExponential(4) : '';\n document.getElementById('workpieceInertia').textContent = isFinite(workpieceInertia) ? workpieceInertia.toExponential(4) : '';\n document.getElementById('workpieceMass').textContent = isFinite(workpieceMass) ? workpieceMass.toExponential(4) : '';\n document.getElementById('totalLoadInertia').textContent = isFinite(totalLoadInertia) ? totalLoadInertia.toExponential(4) : '';\n document.getElementById('loadReflectedMotor').textContent = isFinite(loadReflectedMotor) ? loadReflectedMotor.toExponential(4) : '';\n document.getElementById('motorAccTorque').textContent = isFinite(motorAccTorque) ? motorAccTorque.toExponential(4) : '';\n document.getElementById('loadTorque').textContent = isFinite(loadTorque) ? loadTorque.toExponential(4) : '';\n document.getElementById('requiredTorque').textContent = isFinite(requiredTorque) ? requiredTorque.toExponential(4) : '';\n document.getElementById('inertiaRatio').textContent = isFinite(inertiaRatio) ? inertiaRatio.toFixed(2) : '';\n document.getElementById('results').classList.add('show');\n });\n <\/script>\n<\/body>\n<\/html>","protected":false},"excerpt":{"rendered":"<p>Discover the perfect indexing table for your needs with our Indexing Table Selection Calculator. 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Descubra la mesa indexadora perfecta para sus necesidades con nuestra Calculadora de Selecci\u00f3n de Mesas Indexadoras. Esta herramienta intuitiva simplifica el proceso de selecci\u00f3n considerando factores esenciales como la capacidad de carga, el tama\u00f1o de la mesa y la precisi\u00f3n de rotaci\u00f3n. Dise\u00f1ada para ofrecer recomendaciones precisas, ayuda a ingenieros y operarios a optimizar sus configuraciones para una mayor productividad. Tanto si trabaja en proyectos industriales a gran escala como en tareas de precisi\u00f3n complejas, nuestra calculadora le garantiza encontrar la mesa indexadora m\u00e1s adecuada de forma eficiente. Aumente la eficiencia y la precisi\u00f3n de su proyecto con la ayuda de nuestros expertos en MechStream.<\/p>\n\n\n