Descrição do produto
|
item |
value |
|
Garantia |
1 year |
|
Indústrias aplicáveis |
Manufacturing Plant, Construction works , Energy & Mining, Other |
|
Customized support |
OEM |
|
Arranjo de Engrenagens |
Minhoca |
|
Torque de saída |
118-160N.M |
|
Place of Origin |
ZheJiang , China |
|
Input speed |
1400rpm |
|
Output speed |
14-186.7rpm |
|
Razão |
7.5,10,15,20,25,30,40,50,60,80,100 |
|
Material |
Aluminum alloy Die casting |
|
Nome do produto |
NRV Worm Gear Reducer |
|
MOQ |
10pcs |
|
Cor |
Customization |
PRODUCTS CHARACTERISTICS
1. Mad of high-quality aluminum alloy,light weight and non-rusting
2. Large output torque
3. Smooth in running and low in noise,can work long time in dreadful conditions.
4. High in radiating efficiency.
5. Good-looking in appearance,durable in service life and small in volume.
6. Suitable for omnibearing installation.
Perguntas frequentes
Q1:Are you a manufacturer or trading company?
Yes, We are a leading manufacturer specialized in production of various kinds of small and medium-sized
motor.
Q2:How to choose a gearbox which meets our requirement?
Você pode consultar nosso catálogo para escolher a caixa de câmbio ou podemos ajudá-lo a escolher quando você fornecer as informações.
As informações técnicas referentes ao torque de saída necessário, à velocidade de saída e aos parâmetros do motor, etc.
Q3:What information shall we give before placing a purchase order?
a) Type of the gearbox, ratio, input and output type, input flange, mounting position, and motor information etc.
b) Cor da caixa.
c) Quantidade a comprar.
d) Outros requisitos especiais.
Q4:What industries are your gearboxes being used?
Our gearboxes are widely used in the areas of textile, food processing, beverage, chemical industry, escalator,automatic storage equipment, metallurgy, tabacco, environmental protection, logistics and etc.
Q5:How about your delivery time?
For micro brush dc gear motor, the sample delivery time is 2-5 days, bulk delivery time is about 15-20 days, depends on the order qty. For brushless dc motor, the sample deliver time is about 10-15 days; bulk time is 15-20 days.Please take the sales confirmation for final reference.
Q6:What’s your warranty terms?
One year
| Aplicativo: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car |
|---|---|
| Função: | Distribuição de potência, embreagem, mudança de torque de acionamento, mudança de direção de acionamento, mudança de velocidade, redução de velocidade, aumento de velocidade |
| Layout: | as for Request |
| Dureza: | Superfície dentária endurecida |
| Instalação: | as for Request |
| Etapa: | as for Request |
| Exemplos: |
US$ 38/Piece
1 unidade (pedido mínimo) | |
|---|
| Personalização: |
Disponível
| Solicitação personalizada |
|---|
What are the advantages and disadvantages of using a worm gear?
A worm gear offers several advantages and disadvantages that should be considered when selecting it for a specific application. Here’s a detailed explanation of the advantages and disadvantages of using a worm gear:
Advantages of using a worm gear:
- High gear reduction ratio: Worm gears are known for their high gear reduction ratios, which allow for significant speed reduction and torque multiplication. This makes them suitable for applications that require precise motion control and high torque output.
- Compact design: Worm gears have a compact design, making them space-efficient and suitable for applications where size is a constraint. The worm gear’s compactness allows for easy integration into machinery and equipment with limited space.
- Self-locking capability: One of the key advantages of a worm gear is its self-locking property. The angle of the worm thread prevents the reverse rotation of the output shaft, eliminating the need for additional braking mechanisms. This self-locking feature is beneficial for maintaining position and preventing backdriving in applications where holding the load in place is important.
- Quiet operation: Worm gears typically operate with reduced noise levels compared to other gear types. The sliding action between the worm and the worm wheel teeth results in smoother and quieter operation, making them suitable for applications where noise reduction is desired.
- High shock-load resistance: Worm gears have good shock-load resistance due to the sliding contact between the worm and the worm wheel teeth. This makes them suitable for applications that involve sudden or intermittent loads, such as lifting and hoisting equipment.
- Easy installation and maintenance: Worm gears are relatively easy to install and maintain. They often come as a compact unit, requiring minimal assembly. Lubrication maintenance is crucial for optimal performance and longevity, but it is typically straightforward and accessible.
Disadvantages of using a worm gear:
- Lower efficiency: Worm gears tend to have lower mechanical efficiency compared to some other gear types. The sliding action between the worm and the worm wheel teeth generates higher frictional losses, resulting in reduced efficiency. However, efficiency can be improved through careful design, quality manufacturing, and proper lubrication.
- Limited speed capability: Worm gears are not suitable for high-speed applications due to their sliding contact and the potential for heat generation. High speeds can lead to increased friction, wear, and reduced efficiency. However, they excel in low to moderate speed applications where high torque output is required.
- Heat generation: The sliding action between the worm and the worm wheel generates friction, which can result in heat generation. In high-load or continuous-duty applications, this heat buildup can affect the efficiency and longevity of the system. Proper lubrication and heat dissipation measures are necessary to mitigate this issue.
- Less suitable for bidirectional motion: While worm gears offer excellent self-locking capabilities in one direction, they are less efficient and less suitable for bidirectional motion. Reversing the direction of the input or output shaft can lead to increased friction, reduced efficiency, and potential damage to the gear system.
- Lower accuracy in positioning: Worm gears may have lower accuracy in positioning compared to some other gear types, such as precision gear systems. The sliding contact and inherent backlash in worm gears can introduce some degree of positioning error. However, for many applications, the accuracy provided by worm gears is sufficient.
- Potential for wear and backlash: Over time, the sliding action in worm gears can lead to wear and the development of backlash, which is the play or clearance between the worm and the worm wheel teeth. Regular inspection, maintenance, and proper lubrication are necessary to minimize wear and reduce backlash.
When considering the use of a worm gear, it’s essential to evaluate the specific requirements of the application and weigh the advantages against the disadvantages. Factors such as torque requirements, speed limitations, positional stability, space constraints, and overall system efficiency should be taken into account to determine if a worm gear is the right choice.
Can worm gears be used in heavy-duty machinery and equipment?
Yes, worm gears can be used in heavy-duty machinery and equipment. Here’s a detailed explanation of their suitability for such applications:
1. High torque transmission: One of the key advantages of worm gears is their ability to transmit high torque. The unique design of the worm and worm wheel allows for efficient torque generation and power transmission. This makes worm gears well-suited for heavy-duty applications that require the transfer of substantial rotational forces.
2. Compact size: Worm gears offer a compact and space-saving solution for heavy-duty machinery. Their compact design allows for the transmission of high torque in a relatively small package. This is particularly advantageous in applications where space constraints or compact design requirements are present.
3. Self-locking feature: Worm gears exhibit a self-locking characteristic, meaning that the worm can prevent the back-driving of the gear system. This feature is beneficial in heavy-duty machinery where it is essential to maintain a fixed position or prevent the system from reversing under load. The self-locking capability of worm gears provides stability and safety in various heavy-duty applications.
4. High gear ratios: Worm gears can achieve high gear ratios, which is advantageous in heavy-duty machinery that requires precise speed reduction. The high gear ratios allow for fine control of rotational speed and torque output, enabling the gear system to match the requirements of heavy loads and demanding operating conditions.
5. Durable construction: Worm gears are typically manufactured using robust materials such as alloy steels, cast iron, or bronze. These materials offer excellent strength, wear resistance, and durability, making worm gears capable of withstanding the heavy loads and harsh operating environments encountered in heavy-duty machinery.
6. Overload protection: The unique design of worm gears provides inherent overload protection. When the load exceeds the gear’s capacity, the sliding action between the worm and worm wheel causes a high frictional force, limiting the torque transmission and preventing damage to the gear system. This overload protection feature is valuable in heavy-duty machinery where sudden load spikes or unexpected overloads can occur.
7. Wide range of applications: Worm gears find applications in various heavy-duty machinery and equipment across different industries. Some examples include cranes, winches, elevators, mining machinery, construction equipment, rolling mills, heavy-duty conveyors, and marine propulsion systems. The versatility of worm gears makes them suitable for a wide range of heavy-duty applications.
It is important to note that while worm gears offer several advantages for heavy-duty machinery, there are certain considerations to keep in mind. These include proper lubrication to minimize friction and wear, adequate cooling to manage heat generation, proper alignment to ensure efficient power transmission, and regular maintenance to inspect for signs of wear or damage. By addressing these factors, worm gears can reliably and effectively meet the demands of heavy-duty machinery and equipment.
Como instalar um sistema de engrenagem helicoidal?
A instalação de um sistema de engrenagem helicoidal requer atenção cuidadosa para garantir o alinhamento correto, a lubrificação adequada e a fixação segura. A seguir, estão os passos gerais envolvidos na instalação de um sistema de engrenagem helicoidal:
- Prepare os componentes: Antes da instalação, certifique-se de que todos os componentes do sistema de engrenagem helicoidal, incluindo o parafuso sem-fim, a coroa, os rolamentos e a carcaça, estejam limpos e isentos de contaminantes ou danos. Inspecione os componentes em busca de sinais de desgaste ou defeitos.
- Verificar alinhamento: Verifique se as superfícies de contato do parafuso sem-fim e da coroa estão limpas e livres de quaisquer detritos. Certifique-se de que os dentes da engrenagem se encaixam corretamente e que não há folga excessiva ou desalinhamento. Faça os ajustes ou reparos necessários antes de prosseguir com a instalação.
- Aplique lubrificante: Lubrifique o sistema de engrenagem helicoidal de acordo com as recomendações do fabricante. Selecione um lubrificante adequado que proporcione lubrificação suficiente e reduza o atrito entre o parafuso sem-fim e a coroa durante a operação. Aplique o lubrificante uniformemente nos dentes da engrenagem e em outras superfícies de contato.
- Montagem: Posicione o sistema de engrenagem helicoidal no local desejado, levando em consideração quaisquer restrições de espaço ou requisitos de montagem. Utilize fixadores apropriados, como parafusos ou porcas, para prender o sistema com segurança à estrutura ou base circundante. Certifique-se de que as superfícies de montagem estejam limpas, planas e capazes de suportar as forças e cargas exercidas pelo sistema de engrenagem.
- Alinhamento e ajuste: Após a montagem do sistema de engrenagem helicoidal, verifique novamente o alinhamento e faça os ajustes necessários. Certifique-se de que a engrenagem helicoidal e a coroa estejam devidamente encaixadas e que não haja folga excessiva ou travamento. Preste atenção às tolerâncias de alinhamento especificadas pelo fabricante.
- Testes e operação: Após a instalação, realize um teste funcional completo do sistema de engrenagem helicoidal. Verifique se ele opera suavemente, sem ruídos ou vibrações incomuns. Verifique o engate correto dos dentes da engrenagem e assegure-se de que o sistema funcione conforme o esperado sob diferentes condições de carga. Monitore o desempenho do sistema durante a operação inicial e resolva quaisquer problemas ou anormalidades imediatamente.
É importante seguir as instruções de instalação específicas fornecidas pelo fabricante do sistema de engrenagens. Diferentes projetos e aplicações de engrenagens helicoidais podem ter requisitos ou considerações de instalação adicionais que devem ser levados em conta.
A instalação correta de um sistema de engrenagem helicoidal garante seu funcionamento confiável, minimiza o desgaste e maximiza sua vida útil. Caso tenha dúvidas sobre qualquer aspecto do processo de instalação, recomenda-se consultar o fabricante ou buscar a ajuda de um profissional qualificado.
editor by CX 2023-09-15
