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✓ Certificações CE e ISO 9001 Proporções 5:1 – 100:1

Acionamento por engrenagem helicoidal para alimentadores de parafuso

Acionamento por engrenagem helicoidal para alimentadores de parafuso

Screw feeders transfer bulk material from a hopper or silo outlet to the next process stage at a controlled volumetric rate. The drive unit must deliver stable, low-speed torque continuously, accommodate the variable resistance as material compacts and arches in the hopper throat, and maintain set speed without hunting. The worm gear drive is the industry-standard drive for screw feeders due to its compact single-stage high reduction, right-angle output, and ability to maintain exact output speed under variable load without electronic correction.

In Australian mining, cement, and chemical processing, screw feeders handling fine abrasive powders — iron ore fines, cement raw meal, fly ash, lime — require drive units completely sealed against ingress. The worm gearbox’s low-profile sealed housing and standard IP65 protection make it the correct choice for dusty material handling environments.

The compact form factor of worm gearboxes — with output shafts available in solid and hollow bore configurations — adapts directly to the screw feeder’s central tube structure, enabling shaft-through mounting without external couplings that could become packed with process material.

Aplicações e casos de uso na indústria

Worm gear drives appear throughout the screw feeder circuit in processing plants:

  • Silo and hopper discharge screw feeders — constant low-speed material extraction against variable head pressure
  • Loss-in-weight feeder drive — precise rate control for batching and dosing operations
  • Twin-screw mixer drive — coordinated rotation of two screws at matched speeds
  • Inclined screw elevator — upward material transfer at angles to 45°; self-lock prevents material rollback
  • Rotary valve (airlock) drive — slow precision rotation of rotor between pressure zones

Material specification for screw feeder service: Worm shaft in carbon steel with surface hardening and precision-ground helical thread. Worm wheel in cast phosphor bronze — critical for the sustained sliding contact typical of screw feeder operation. Housing in grey cast iron with heat dissipation fins. Sealed input and output penetrations to IP65.

Selection principle: Screw feeder drives are classified as uniform-load continuous duty (SF=1.0 for standard; SF=1.25 for feeders handling material that may compact). Output speed is typically 2–20 RPM for volumetric feeders and 20–80 RPM for transfer screws.

Worm Gear Drive for Screw Feeders application

Especificações técnicas e guia de seleção

Utilize a tabela abaixo para identificar o modelo apropriado. Os principais parâmetros incluem relação de redução, torque de saída, dimensões do eixo e material da carcaça. Sempre aplique o correto Fator de Serviço (FS) para o seu ciclo de trabalho.

Parâmetro Faixa/Valor típico Notas de seleção
Razão 20:1 – 100:1 Covers output speeds 14–70 RPM at 1,400 RPM motor input
Torque de saída 10 – 4,200 N·m Frame 025–150; confirm SF before frame selection
Input Shaft IEC 60034 B5/B14 flange Direct-mount to 4-pole standard motors
Output Shaft Solid or hollow bore Hollow bore enables direct screw shaft pass-through
Material de construção Grey Iron with fin casting Thermal management for continuous low-speed operation
Lubrication Oil bath, standard mineral ISO VG 220 Synthetic PAO for 24-hour continuous duty
Classe de proteção Padrão IP65 Critical for fine powder and dust environments

Fator de Serviço (FS): Carga uniforme SF=1,0 | Choque moderado SF=1,25–1,5 | Choque pesado / 24 h contínuo SF=1,75–2,0

Temperatura ambiente: Unidades padrão com classificação de -10°C a +40°C. Locais com altas temperaturas ambientes na Austrália (>45°C) exigem lubrificante para altas temperaturas e redução térmica de acordo com a norma 15%.

Caixa de engrenagens helicoidais NMRV NRV

Caixa de engrenagens helicoidais da série NMRV / NRV

Disponível nos tamanhos de carcaça 025 a 150. Relações de redução de estágio único de 5:1 a 100:1. Torque de saída de até 4.200 N·m. Carcaça em alumínio ou ferro fundido nodular. Flange do motor IEC B5/B14. Grau de proteção IP65 padrão, IP66/IP67 opcional. Lubrificação com óleo sintético ou mineral.

Padrões de Conformidade e Qualidade

✓ ISO 9001:2015
Sistema de gestão da qualidade certificado. Cada unidade é fabricada e inspecionada sob um SGQ documentado com rastreabilidade completa.
✓ Certificação CE
Certificação CE em conformidade com a Diretiva de Máquinas da UE. Amplamente aceita em projetos de engenharia na Austrália e Nova Zelândia.
Interface de motor IEC 60034
Dimensões de flange e eixo de acordo com as normas IEC. Compatibilidade de montagem direta com todas as principais marcas de motores.
✓ Proteção IP65 / IP66
À prova de poeira e resistente a jatos de água de alta pressão. O padrão para instalações externas na Austrália.

Estudos de caso

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Case Study 1 — Cement Raw Mill Screw Feeder, Victoria

Cement Manufacturing
Limestone Silo Discharge Screw Feeder

Problema enfrentado pelo cliente: A cement plant’s limestone silo screw feeder was overheating during the 22-hour daily operating cycle — housing temperature reaching 92°C and tripping the motor protection relay at hour 18 of each shift.

Solução: Upgraded from an undersized NMRV-063 to NMRV-090 (same ratio 40:1) with synthetic PAO ISO VG 320. The larger frame reduced equilibrium operating temperature by 18°C. A partially clogged outlet adding 35% to running torque was also cleared.

Resultado: Housing temperature stabilised at 67°C during the full 22-hour shift with no thermal trips. The synthetic lubricant oil change interval extended to 5,000 hours.

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Case Study 2 — Chemical Dosing Screw, Perth WA

Water Treatment Chemicals
Loss-in-Weight Lime Dosing Feeder

Problema enfrentado pelo cliente: A water treatment plant’s lime dosing screw feeder was producing inconsistent dose rates — gearbox output varying ±4 RPM around the setpoint due to backlash, causing pH control instability in the clarifier circuit.

Solução: NMRV-040 worm gearbox (ratio 60:1) replaced the helical unit. Worm mesh eliminates backlash at low speeds, reducing speed variation to below ±0.2 RPM at the 8 RPM setpoint.

Resultado: Clarifier pH consistency improved from ±0.3 pH to ±0.05 pH. Lime consumption reduced by 7% through more precise dosing.

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Case Study 3 — Grain Auger Elevator, Southern Queensland

Grain Storage
Inclined Grain Auger (30° inclination)

Problema enfrentado pelo cliente: A grain storage facility’s 30° inclined auger was allowing grain to roll back through the auger flights after each operational stop. A separate backstop ratchet mechanism was jamming on fine grain particles.

Solução: NMRV-063 worm gearbox (ratio 40:1, IP65, food-grade H1 lubricant) replaced the open helical gearbox and ratchet combination. The worm self-lock prevented any rollback on stop.

Resultado: Grain rollback eliminated entirely. The ratchet mechanism and its quarterly maintenance requirement were removed from the site maintenance schedule. The same model was subsequently installed on seven further auger points at the facility.

Linha de produtos de caixas de engrenagens sem-fim

Caixas de engrenagens helicoidais da série NMRV / NRV — tamanhos de estrutura 025 a 150, fabricadas de acordo com a norma ISO 9001:2015.

Por que nos escolher?

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Mais de 20 anos de experiência em fabricação.
Produção com certificação ISO desde 2003. Caixas de engrenagens helicoidais exportadas para mais de 60 países.

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Suporte técnico remoto
Diagnóstico por videochamada em todos os fusos horários australianos. Resposta rápida sem visitas presenciais.

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Personalização OEM/ODM
Eixos não padronizados, furos ocos, flanges e relações personalizadas. Análise completa do desenho disponível.

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Valor direto da fábrica
Sem margem de distribuidor. Preços transparentes por volume, com economias significativas em pedidos recorrentes.

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Estoque disponível e envio rápido.
Molduras padrão NMRV/NRV em estoque. Pedidos urgentes processados ​​para frete expresso.

Perguntas frequentes

▼ What output speed range is typical for a screw feeder worm gearbox?
Volumetric screw feeders typically operate at 2–30 RPM output shaft speed. Transfer screws handling bulk material over longer distances may run at 20–80 RPM. With a standard 4-pole motor (1,400 RPM input), these speeds correspond to ratios of 18:1 (for 80 RPM output) to 100:1 (for 14 RPM output). Most single-stage worm gearboxes cover 5:1 to 100:1, handling the majority of screw feeder applications with a standard motor.
▼ What is the best way to couple a worm gearbox to a screw feeder shaft?
The preferred method is a hollow bore output — the screw shaft passes through the gearbox bore and is secured with a keyway and locking collar. This eliminates the need for a flexible coupling, reduces alignment sensitivity, and prevents material from packing around a projecting coupling. Hollow bore is available on NMRV/NRV frames 030 and above.
▼ Does a worm gearbox on a screw feeder need to be self-locking?
For inclined screws (any inclination above 0°) or for screws handling sticky materials that could cause backflow, self-locking is important to prevent material rollback when the drive stops. For horizontal screws with non-cohesive dry material, self-locking is helpful but not critical. All standard NMRV/NRV worm gearboxes with ratios of 20:1 and above are self-locking under normal load conditions.
▼ What causes worm gearbox overheating on screw feeders, and how is it prevented?
Primary causes: (1) undersized frame relative to continuous thermal power rating, (2) incorrect lubricant viscosity for ambient temperature, (3) blocked housing ventilation fins, (4) elevated ambient above 40°C. Prevention: select frame size based on thermal power rating for continuous-duty applications, use synthetic PAO lubricant for 24-hour operation, and specify a frame one size larger than the torque calculation minimum for continuous-duty screw feeders in hot Australian environments.
▼ Can I use a VFD (variable frequency drive) with a worm gearbox on a screw feeder?
Yes — VFD control is fully compatible with worm gearboxes and is frequently used on dosing screw feeders to adjust feed rate without changing the gearbox ratio. When operating at reduced speed (below 600 RPM motor input), ensure adequate motor cooling — specify a forced-ventilation (FV) motor or a larger motor frame. The gearbox itself is unaffected by VFD operation and does not require any modification.

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