Calculadora de Divisor de Engrenagens \u2013 Solu\u00e7\u00f5es Profissionais de Divis\u00e3o de Engrenagens<\/title>\n <style>\n #my-gear-calculator *,\n #my-gear-calculator *::before,\n #my-gear-calculator *::after {\n margin: 0 !important;\n padding: 0 !important;\n box-sizing: border-box !important;\n }\n #my-gear-calculator {\n font-family: -apple-system, BlinkMacSystemFont, \"Segoe UI\", Roboto, Oxygen-Sans, Ubuntu, Cantarell, \"Helvetica Neue\", sans-serif !important;\n color: #333 !important;\n background: #f9f9f9 !important;\n padding: 0 !important;\n }\n #my-gear-calculator .calculator-container {\n background: #fff !important;\n border-radius: 8px !important;\n box-shadow: 0 2px 10px rgba(0,0,0,0.08) !important;\n padding: 20px !important;\n margin: 30px auto !important;\n max-width: 900px !important;\n }\n #my-gear-calculator .section {\n margin-bottom: 30px !important;\n }\n #my-gear-calculator h2 {\n color: #000 !important;\n margin-bottom: 15px !important;\n font-size: 1.5em !important;\n }\n #my-gear-calculator .parameter-list {\n display: grid !important;\n grid-template-columns: repeat(auto-fit, minmax(250px, 1fr)) !important;\n gap: 15px !important;\n margin-bottom: 20px !important;\n }\n #my-gear-calculator .parameter-item {\n background: #f8f9fa !important;\n padding: 10px !important;\n border-radius: 4px !important;\n font-size: 15px !important;\n }\n #my-gear-calculator .input-form {\n display: grid !important;\n gap: 15px !important;\n margin-bottom: 0 !important;\n }\n #my-gear-calculator .two-col-form {\n grid-template-columns: repeat(2, 1fr) !important;\n }\n #my-gear-calculator .input-group {\n display: flex !important;\n flex-direction: column !important;\n }\n #my-gear-calculator label {\n margin-bottom: 5px !important;\n font-weight: 500 !important;\n }\n #my-gear-calculator input, #my-gear-calculator select {\n padding: 8px !important;\n border: 1px solid #ddd !important;\n border-radius: 4px !important;\n font-size: 16px !important;\n }\n #my-gear-calculator .calculate-btn {\n background: #007bff !important;\n color: white !important;\n border: none !important;\n padding: 12px 24px !important;\n border-radius: 4px !important;\n cursor: pointer !important;\n font-size: 16px !important;\n transition: background 0.3s, color 0.3s !important;\n width: 200px !important;\n margin: 20px auto 0 auto !important;\n display: block !important;\n text-align: center !important;\n }\n #my-gear-calculator .calculate-btn:hover {\n background: #0056b3 !important;\n color: #fff !important;\n }\n #my-gear-calculator .results {\n display: none !important;\n background: #e9ecef !important;\n padding: 20px !important;\n border-radius: 4px !important;\n margin-top: 20px !important;\n }\n #my-gear-calculator .result-item {\n margin-bottom: 10px !important;\n font-size: 1.1em !important;\n }\n #my-gear-calculator .result-value {\n font-weight: bold !important;\n color: #007bff !important;\n }\n #my-gear-calculator .button-row {\n width: 100% !important;\n display: flex !important;\n justify-content: center !important;\n margin-top: 0 !important;\n }\n @media (max-width: 768px) {\n #my-gear-calculator .input-form, #my-gear-calculator .two-col-form {\n grid-template-columns: 1fr !important;\n }\n #my-gear-calculator .parameter-list {\n grid-template-columns: 1fr !important;\n }\n }\n <\/style>\n<\/head>\n<body>\n <div id=\"my-gear-calculator\">\n <div class=\"calculator-container\">\n \n <div class=\"section\">\n <h2>Explica\u00e7\u00f5es dos par\u00e2metros<\/h2>\n <div class=\"parameter-list\">\n <div class=\"parameter-item\"><strong>N\u00famero de Divis\u00f5es (N):<\/strong> N\u00famero de posi\u00e7\u00f5es de indexa\u00e7\u00e3o para o toca-discos.<\/div>\n <div class=\"parameter-item\"><strong>Tempo de indexa\u00e7\u00e3o por divis\u00e3o (t1, s):<\/strong> \u00c9 hora de a unidade concluir um movimento de indexa\u00e7\u00e3o.<\/div>\n <div class=\"parameter-item\"><strong>Tempo de indexa\u00e7\u00e3o por divis\u00e3o (t2, s):<\/strong> Tempo total para um ciclo de indexa\u00e7\u00e3o.<\/div>\n <div class=\"parameter-item\"><strong>Velocidade do eixo de entrada (n, rpm):<\/strong> Velocidade de rota\u00e7\u00e3o do eixo de entrada.<\/div>\n <div class=\"parameter-item\"><strong>Di\u00e2metro de engrenagem grande (D2, mm):<\/strong> Di\u00e2metro da engrenagem grande.<\/div>\n <div class=\"parameter-item\"><strong>Peso da engrenagem grande (W2, kg):<\/strong> Peso da engrenagem grande.<\/div>\n <div class=\"parameter-item\"><strong>Di\u00e2metro da engrenagem pequena (D1, mm):<\/strong> Di\u00e2metro da engrenagem pequena.<\/div>\n <div class=\"parameter-item\"><strong>Peso da engrenagem pequena (W1, kg):<\/strong> Peso da engrenagem pequena.<\/div>\n <div class=\"parameter-item\"><strong>Peso do dispositivo (m1, kg):<\/strong> Peso de um \u00fanico equipamento.<\/div>\n <div class=\"parameter-item\"><strong>Peso da pe\u00e7a de trabalho (m2, kg):<\/strong> Peso de uma \u00fanica pe\u00e7a de trabalho.<\/div>\n <div class=\"parameter-item\"><strong>N\u00famero de lumin\u00e1rias (N1):<\/strong> N\u00famero total de lumin\u00e1rias no toca-discos.<\/div>\n <div class=\"parameter-item\"><strong>Raio do c\u00edrculo de passo do dispositivo (Re, mm):<\/strong> Dist\u00e2ncia do centro at\u00e9 a posi\u00e7\u00e3o do dispositivo.<\/div>\n <div class=\"parameter-item\"><strong>Raio efetivo do suporte da base girat\u00f3ria (Rf, mm):<\/strong> Raio de suporte efetivo da base do toca-discos.<\/div>\n <div class=\"parameter-item\"><strong>\u00c2ngulo do perfil do came (\u03b8, graus):<\/strong> \u00c2ngulo de came para um ciclo de indexa\u00e7\u00e3o.<\/div>\n <div class=\"parameter-item\"><strong>Di\u00e2metro da plataforma girat\u00f3ria (D, mm):<\/strong> Di\u00e2metro do prato girat\u00f3rio.<\/div>\n <div class=\"parameter-item\"><strong>Espessura da plataforma girat\u00f3ria (Dh, mm):<\/strong> Espessura do prato girat\u00f3rio.<\/div>\n <div class=\"parameter-item\"><strong>Fator de seguran\u00e7a (e):<\/strong> Fator de seguran\u00e7a de projeto.<\/div>\n <div class=\"parameter-item\"><strong>Coeficiente de atrito (\u03bc):<\/strong> Coeficiente de atrito entre partes m\u00f3veis.<\/div>\n <div class=\"parameter-item\"><strong>Efici\u00eancia hipot\u00e9tica (\u03b7):<\/strong> Efici\u00eancia mec\u00e2nica assumida.<\/div>\n <div class=\"parameter-item\"><strong>Velocidade radial m\u00e1xima (Vm, m\/s):<\/strong> Velocidade radial m\u00e1xima da plataforma girat\u00f3ria.<\/div>\n <div class=\"parameter-item\"><strong>Velocidade axial m\u00e1xima (Am, m\/s):<\/strong> Velocidade axial m\u00e1xima da plataforma girat\u00f3ria.<\/div>\n <div class=\"parameter-item\"><strong>Coeficiente de For\u00e7a Radial M\u00e1ximo (Qm):<\/strong> Coeficiente m\u00e1ximo para c\u00e1lculo de for\u00e7a radial.<\/div>\n <\/div>\n <\/div>\n\n \n \n\n \n <div class=\"section\">\n <h2>Calculadora<\/h2>\n <form id=\"calculator-form\" class=\"input-form two-col-form\" action=\"\">\n <div class=\"input-group\">\n <label for=\"N\">N\u00famero de Divis\u00f5es (N):<\/label>\n <input type=\"number\" id=\"N\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"t1\">Tempo de indexa\u00e7\u00e3o por divis\u00e3o (t1, s):<\/label>\n <input type=\"number\" id=\"t1\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"t2\">Tempo de indexa\u00e7\u00e3o por divis\u00e3o (t2, s):<\/label>\n <input type=\"number\" id=\"t2\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"n\">Velocidade do eixo de entrada (n, rpm):<\/label>\n <input type=\"number\" id=\"n\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"D2\">Di\u00e2metro de engrenagem grande (D2, mm):<\/label>\n <input type=\"number\" id=\"D2\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"W2\">Peso da engrenagem grande (W2, kg):<\/label>\n <input type=\"number\" id=\"W2\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"D1\">Di\u00e2metro da engrenagem pequena (D1, mm):<\/label>\n <input type=\"number\" id=\"D1\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"W1\">Peso da engrenagem pequena (W1, kg):<\/label>\n <input type=\"number\" id=\"W1\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"m1\">Peso do dispositivo (m1, kg):<\/label>\n <input type=\"number\" id=\"m1\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"m2\">Peso da pe\u00e7a de trabalho (m2, kg):<\/label>\n <input type=\"number\" id=\"m2\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"N1\">N\u00famero de lumin\u00e1rias (N1):<\/label>\n <input type=\"number\" id=\"N1\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Re\">Raio do c\u00edrculo de passo do dispositivo (Re, mm):<\/label>\n <input type=\"number\" id=\"Re\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Rf\">Raio efetivo do suporte da base girat\u00f3ria (Rf, mm):<\/label>\n <input type=\"number\" id=\"Rf\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"theta\">\u00c2ngulo do perfil do came (\u03b8, graus):<\/label>\n <input type=\"number\" id=\"theta\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"D\">Di\u00e2metro da plataforma girat\u00f3ria (D, mm):<\/label>\n <input type=\"number\" id=\"D\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Dh\">Espessura da plataforma girat\u00f3ria (Dh, mm):<\/label>\n <input type=\"number\" id=\"Dh\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"e\">Fator de seguran\u00e7a (e):<\/label>\n <input type=\"number\" id=\"e\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"mu\">Coeficiente de atrito (\u03bc):<\/label>\n <input type=\"number\" id=\"mu\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"eta\">Efici\u00eancia hipot\u00e9tica (\u03b7):<\/label>\n <input type=\"number\" id=\"eta\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Vm\">Velocidade radial m\u00e1xima (Vm, m\/s):<\/label>\n <input type=\"number\" id=\"Vm\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Am\">Velocidade axial m\u00e1xima (Am, m\/s):<\/label>\n <input type=\"number\" id=\"Am\" step=\"0.01\" required>\n <\/div>\n <div class=\"input-group\">\n <label for=\"Qm\">Coeficiente de For\u00e7a Radial M\u00e1ximo (Qm):<\/label>\n <input type=\"number\" id=\"Qm\" step=\"0.01\" required>\n <\/div>\n <input type=\"hidden\" name=\"trp-form-language\" value=\"pt\"\/><\/form>\n <div class=\"button-row\">\n <button type=\"submit\" form=\"calculator-form\" class=\"calculate-btn\">Calcular<\/button>\n <\/div>\n <\/div>\n\n \n <div id=\"results\" class=\"results\">\n <h2>Resultados do c\u00e1lculo<\/h2>\n <div class=\"result-item\">\n Peso da plataforma girat\u00f3ria (a\u00e7o) (W3): <span class=\"result-value\" id=\"W3\">0<\/span> kg\n <\/div>\n <div class=\"result-item\">\n Peso total do dispositivo (W4): <span class=\"result-value\" id=\"W4\">0<\/span> kg\n <\/div>\n <div class=\"result-item\">\n Peso total da pe\u00e7a de trabalho (W5): <span class=\"result-value\" id=\"W5\">0<\/span> kg\n <\/div>\n <div class=\"result-item\">\n Momento de in\u00e9rcia de engrenagem pequena (I1): <span class=\"result-value\" id=\"I1\">0<\/span> kg\u00b7m\u00b2\n <\/div>\n <div class=\"result-item\">\n Grande momento de in\u00e9rcia da engrenagem (I2): <span class=\"result-value\" id=\"I2\">0<\/span> kg\u00b7m\u00b2\n <\/div>\n <div class=\"result-item\">\n Momento de in\u00e9rcia da plataforma girat\u00f3ria (I3): <span class=\"result-value\" id=\"I3\">0<\/span> kg\u00b7m\u00b2\n <\/div>\n <div class=\"result-item\">\n Momento de in\u00e9rcia do dispositivo (I4): <span class=\"result-value\" id=\"I4\">0<\/span> kg\u00b7m\u00b2\n <\/div>\n <div class=\"result-item\">\n Momento de in\u00e9rcia da pe\u00e7a (I5): <span class=\"result-value\" id=\"I5\">0<\/span> kg\u00b7m\u00b2\n <\/div>\n <div class=\"result-item\">\n Acelera\u00e7\u00e3o angular m\u00e1xima do eixo de sa\u00edda (\u03b11): <span class=\"result-value\" id=\"alpha1\">0<\/span> rad\/s\u00b2\n <\/div>\n <div class=\"result-item\">\n Torque est\u00e1tico (torque de momento de in\u00e9rcia) (Ti): <span class=\"result-value\" id=\"Ti\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Momento de in\u00e9rcia da mesa de trabalho (Ti2): <span class=\"result-value\" id=\"Ti2\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque de momento de in\u00e9rcia de engrenagem pequena (Ti1): <span class=\"result-value\" id=\"Ti1\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque de atrito (Tf): <span class=\"result-value\" id=\"Tf\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque de trabalho (Tw): <span class=\"result-value\" id=\"Tw\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque de carga total (Tt): <span class=\"result-value\" id=\"Tt\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque de carga real (Te): <span class=\"result-value\" id=\"Te\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Torque do eixo de entrada (Tc): <span class=\"result-value\" id=\"Tc\">0<\/span> N\u00b7m\n <\/div>\n <div class=\"result-item\">\n Pot\u00eancia necess\u00e1ria (P): <span class=\"result-value\" id=\"P\">0<\/span> kW\n <\/div>\n <\/div>\n <\/div>\n <\/div>\n\n <script>\n document.querySelector('#my-gear-calculator #calculator-form').addEventListener('submit', function(e) {\n e.preventDefault();\n \/\/ Get input values\n const N = parseFloat(document.querySelector('#my-gear-calculator #N').value);\n const t1 = parseFloat(document.querySelector('#my-gear-calculator #t1').value);\n const t2 = parseFloat(document.querySelector('#my-gear-calculator #t2').value);\n const n = parseFloat(document.querySelector('#my-gear-calculator #n').value);\n const D2 = parseFloat(document.querySelector('#my-gear-calculator #D2').value);\n const W2 = parseFloat(document.querySelector('#my-gear-calculator #W2').value);\n const D1 = parseFloat(document.querySelector('#my-gear-calculator #D1').value);\n const W1 = parseFloat(document.querySelector('#my-gear-calculator #W1').value);\n const m1 = parseFloat(document.querySelector('#my-gear-calculator #m1').value);\n const m2 = parseFloat(document.querySelector('#my-gear-calculator #m2').value);\n const N1 = parseFloat(document.querySelector('#my-gear-calculator #N1').value);\n const Re = parseFloat(document.querySelector('#my-gear-calculator #Re').value);\n const Rf = parseFloat(document.querySelector('#my-gear-calculator #Rf').value);\n const theta = parseFloat(document.querySelector('#my-gear-calculator #theta').value);\n const D = parseFloat(document.querySelector('#my-gear-calculator #D').value);\n const Dh = parseFloat(document.querySelector('#my-gear-calculator #Dh').value);\n const eVal = parseFloat(document.querySelector('#my-gear-calculator #e').value);\n const mu = parseFloat(document.querySelector('#my-gear-calculator #mu').value);\n const eta = parseFloat(document.querySelector('#my-gear-calculator #eta').value);\n const Vm = parseFloat(document.querySelector('#my-gear-calculator #Vm').value);\n const Am = parseFloat(document.querySelector('#my-gear-calculator #Am').value);\n const Qm = parseFloat(document.querySelector('#my-gear-calculator #Qm').value);\n\n \/\/ Constants\n const pi = Math.PI;\n const rho = 7850; \/\/ Steel density kg\/m^3\n const G = 9.8; \/\/ Gravity acceleration m\/s^2\n const fc = eVal; \/\/ Safety factor\n \/\/ The following are not defined in input, set as 1 or need clarification:\n const w = 1; \/\/ Placeholder for angular velocity or weight, need clarification\n const R = 1; \/\/ Placeholder for radius, need clarification\n const S = 1; \/\/ Placeholder for stroke or step, need clarification\n const Z = 1; \/\/ Placeholder for gear ratio, need clarification\n\n \/\/ Derived values\n const R1 = D1 \/ 2 \/ 1000; \/\/ Small gear radius in meters\n const R2 = D2 \/ 2 \/ 1000; \/\/ Large gear radius in meters\n const Dt = Dh; \/\/ Use thickness as height for volume calculation (if not, please clarify)\n\n \/\/ 1. Turntable Weight (Steel) (W3)\n const W3 = (Math.pow(D2, 2) * pi \/ 4 * Dt * rho) \/ 1000;\n \/\/ 2. Total Fixture Weight (W4)\n const W4 = m1 * N1;\n \/\/ 3. Total Workpiece Weight (W5)\n const W5 = m2 * N1;\n \/\/ 4. Small Gear Moment of Inertia (I1)\n const I1 = (W1 * Math.pow(R1, 2)) \/ (2 * G);\n \/\/ 5. Large Gear Moment of Inertia (I2)\n const I2 = (W2 * Math.pow(R2, 2)) \/ (2 * G);\n \/\/ 6. Turntable Moment of Inertia (I3)\n const I3 = (W3 * Math.pow(R2, 2)) \/ (2 * G);\n \/\/ 7. Fixture Moment of Inertia (I4)\n const I4 = (W4 * Math.pow(Re \/ 1000, 2)) \/ G;\n \/\/ 8. Workpiece Moment of Inertia (I5)\n const I5 = (W5 * Math.pow(Re \/ 1000, 2)) \/ G;\n \/\/ 9. Output Shaft Maximum Angular Acceleration (\u03b11)\n const alpha1 = 72 * pi * Am * Math.pow(N, 2) \/ (S * Math.pow(theta \/ m1, 2));\n \/\/ 10. Static Torque (Moment of Inertia Torque) (Ti)\n \/\/ Ti = Ti1 + Ti2 (see below)\n \/\/ 11. Worktable Moment of Inertia Torque (Ti2)\n \/\/ \u03b12 is not defined, use alpha1 as placeholder\n const alpha2 = alpha1;\n const Ti2 = (I2 + I3 + I4 + I5) * Math.pow(N \/ N1, 2) * alpha2 * (N1 \/ N);\n \/\/ 12. Small Gear Moment of Inertia Torque (Ti1)\n const Ti1 = I1 * alpha1;\n \/\/ 13. Friction Torque (Tf)\n const Tf = mu * w * R * (N \/ N1);\n \/\/ 14. Working Torque (Tw) = 0\n const Tw = 0;\n \/\/ 15. Total Load Torque (Tt)\n const Ti = Ti1 + Ti2;\n const Tt = Ti + Tf + Tw;\n \/\/ 16. Actual Load Torque (Te)\n const Te = Tt * fc;\n \/\/ 17. Input Shaft Torque (Tc)\n const Tc = 360 \/ (S * theta) * Qm * Te;\n \/\/ 18. Required Power (P)\n const P = (Tc * n) \/ (975 * Z);\n\n \/\/ Display results\n document.querySelector('#my-gear-calculator #W3').textContent = W3.toFixed(2);\n document.querySelector('#my-gear-calculator #W4').textContent = W4.toFixed(2);\n document.querySelector('#my-gear-calculator #W5').textContent = W5.toFixed(2);\n document.querySelector('#my-gear-calculator #I1').textContent = I1.toExponential(3);\n document.querySelector('#my-gear-calculator #I2').textContent = I2.toExponential(3);\n document.querySelector('#my-gear-calculator #I3').textContent = I3.toExponential(3);\n document.querySelector('#my-gear-calculator #I4').textContent = I4.toExponential(3);\n document.querySelector('#my-gear-calculator #I5').textContent = I5.toExponential(3);\n document.querySelector('#my-gear-calculator #alpha1').textContent = alpha1.toExponential(3);\n document.querySelector('#my-gear-calculator #Ti').textContent = Ti.toFixed(2);\n document.querySelector('#my-gear-calculator #Ti2').textContent = Ti2.toFixed(2);\n document.querySelector('#my-gear-calculator #Ti1').textContent = Ti1.toFixed(2);\n document.querySelector('#my-gear-calculator #Tf').textContent = Tf.toFixed(2);\n document.querySelector('#my-gear-calculator #Tw').textContent = Tw.toFixed(2);\n document.querySelector('#my-gear-calculator #Tt').textContent = Tt.toFixed(2);\n document.querySelector('#my-gear-calculator #Te').textContent = Te.toFixed(2);\n document.querySelector('#my-gear-calculator #Tc').textContent = Tc.toFixed(2);\n document.querySelector('#my-gear-calculator #P').textContent = P.toExponential(3);\n\n \/\/ Show results section\n document.querySelector('#my-gear-calculator #results').style.display = 'block';\n });\n <\/script>\n<\/body>\n<\/html>","protected":false},"excerpt":{"rendered":"<p>Discover the precision and efficiency of our Rotary Index Table Calculator, designed to enhance your industrial machining processes. 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