China Professional Right Power Steering Rack and Pinion for New Hiace 2WD Kdh200 Lh200 44200-26401/44200-26400/44200- 26470/44200-26471 helical bevel gear

Product Description

1. Certificate: ISO9001, QS9000, TS16949
2. Guarantee: 12 months

Our power steering rack is popupar to America, west Europe and South Africa.

We can produce different steeting rack according to customer’s demand. With experience and technique advantage, we can be trusted to customize every detail of your order.

Vehicle TOYOTA NEW HIACE 4X2  KDH200/LH200
OEM 44200-26401/44200-26400/44200-26470/44250-16470/44250-26501/44200-26471
XIHU (WEST LAKE) DIS.-DRIVE RIGHT HAND

We also supply other RHD steering rack for TOYOTA:
44200-0K030
44200-0K571
44250-0K600/44250-0K800
44250-0K710/44250-0K660
44250-0K710/44250-0K660
44250-12480
44250-12290/44250-12420
44200-13571/44250-57170
45510-12290
45510-02600
45510-12460/45510-57100
45510-12460/45510-57100
45510-12290
44250-26040
44200-26491
44200-26470
44250-60012
44200-35050
44200-65710
44250-60040
44200-60090
44200-60130
44250-0B080
44200-BZ571
44200-BZ040
45510-BZ120
44250-52052
45510-52040
45510-0D550
45510-42571
44250-3320/44250-33061/44250-33250
44250-06190
45510-06071
44200-26410
45510-58571/45510-58571
45510-58571/45510-58571
44200-BZ070-000
45500-BZ012
44250-38571
45510-BZ170
45502-BZ040

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After-sales Service: 12 Months
Warranty: 12 Months
Type: Steering Gears/Shaft
Material: Aluminum, Steel, Rubber, Plastic
Certification: ISO
Automatic: Power
Customization:
Available

|

Customized Request

plastic gear rack

Can rack and pinion systems withstand variations in environmental conditions?

Rack and pinion systems are designed to operate reliably under various environmental conditions. Here’s a detailed explanation of how these systems can withstand variations in environmental conditions:

Rack and pinion systems are commonly used in a wide range of industries and applications, and they are engineered to withstand different environmental factors. Some key considerations regarding the ability of rack and pinion systems to withstand variations in environmental conditions include:

  • Temperature: Rack and pinion systems are designed to operate effectively within a specified temperature range. The materials chosen for the components should be capable of withstanding both high and low temperatures without significant degradation. For example, steel or stainless steel components can handle a wider temperature range compared to certain plastics. In extreme temperature conditions, additional measures such as insulation or cooling systems may be required to ensure optimal performance.
  • Humidity and Moisture: Rack and pinion systems can be designed to operate in environments with high humidity or moisture. Materials with good corrosion resistance, such as stainless steel or certain plastics, are often used to minimize the risk of rust or degradation due to moisture exposure. Proper sealing and protective coatings can also be applied to sensitive components to prevent water ingress and maintain system integrity.
  • Dust and Particles: In environments where there is a presence of dust, dirt, or other particles, rack and pinion systems can be designed with protective measures. Sealed enclosures, gaskets, or covers can be employed to minimize the entry of contaminants into the system. Choosing materials with low friction properties can help reduce the accumulation of particles on the gear surfaces, ensuring smooth operation and minimizing wear.
  • Chemical Exposure: Rack and pinion systems may encounter exposure to various chemicals depending on the application. In such cases, material selection is crucial to ensure compatibility with the specific chemical environment. Stainless steel or plastics that exhibit resistance to chemicals can be chosen to prevent corrosion or degradation. It’s important to consider the specific chemical composition, concentration, and duration of exposure when selecting materials.
  • Vibration and Shock: Rack and pinion systems can be designed to withstand vibrations and shocks that may occur in certain applications. Robust construction, proper mounting, and securing mechanisms can help minimize the impact of vibrations and shocks on the system. Damping materials or isolation techniques may be employed to further reduce the transmission of vibrations and protect sensitive components.
  • Outdoor and Harsh Environments: Rack and pinion systems used in outdoor or harsh environments may require additional protection. Enclosures, coatings, or specialized seals can be employed to shield the system from exposure to sunlight, rain, dust, or corrosive elements. Materials with enhanced UV resistance and weatherproof properties may be chosen to ensure long-term performance and durability.

By considering factors such as temperature, humidity, moisture, dust, chemicals, vibration, shock, and environmental exposure, rack and pinion systems can be designed to withstand variations in environmental conditions. Proper material selection, sealing mechanisms, protective coatings, and maintenance practices play crucial roles in ensuring the system’s reliability and longevity in diverse operating environments.

plastic gear rack

Can rack and pinion systems be used in the automotive industry, and if so, where?

Yes, rack and pinion systems are widely used in the automotive industry for various applications that require precise motion control. Here’s a detailed explanation of how rack and pinion systems are employed in the automotive industry:

Rack and pinion systems offer several advantages that make them suitable for automotive applications:

  • Steering Systems: One of the primary applications of rack and pinion systems in the automotive industry is in steering systems. Rack and pinion steering systems provide a direct and efficient method for converting rotational motion into linear motion, allowing the driver to control the direction of the vehicle. In this setup, the pinion is connected to the steering shaft, while the rack is attached to the front wheels. As the driver turns the steering wheel, the pinion rotates, causing the rack to move laterally and steer the wheels. Rack and pinion steering systems are commonly used in passenger cars, light trucks, and SUVs due to their compact design, precise control, and responsive handling characteristics.
  • Power Steering: Rack and pinion systems are also utilized in power steering systems to enhance the ease of steering for the driver. In power steering setups, hydraulic or electric assist mechanisms are incorporated into the rack and pinion system to reduce the effort required to turn the steering wheel. These mechanisms provide additional force or torque to assist the driver, making steering more comfortable and responsive. Power steering systems based on rack and pinion mechanisms are prevalent in modern vehicles, offering improved maneuverability and control.
  • Transmission Shifters: Rack and pinion systems can be employed in transmission shifters to facilitate gear shifting in manual or automated manual transmissions. The rack and pinion mechanism translates the linear movement of the gear shifter lever into rotational movement to engage different gears. This allows the driver to select the desired gear position for efficient power delivery and vehicle performance. Rack and pinion transmission shifters offer precise and reliable gear selection, contributing to smooth shifting and improved drivability.
  • Convertible Top Mechanisms: In convertible vehicles, rack and pinion systems can be utilized in the mechanisms responsible for raising or lowering the convertible top. The rack is typically integrated into the folding framework, while the pinion is driven by an electric motor or hydraulic actuator. By rotating the pinion, the rack moves linearly, causing the convertible top to be raised or lowered. Rack and pinion convertible top mechanisms provide controlled and synchronized movement, allowing for convenient and efficient operation of the convertible roof.
  • Other Applications: Rack and pinion systems find additional applications in the automotive industry, such as throttle control mechanisms, suspension systems, seat adjustments, and sunroof mechanisms. These systems utilize rack and pinion mechanisms to achieve precise and reliable control over various functions in the vehicle, enhancing comfort, convenience, and overall performance.

In summary, rack and pinion systems are extensively used in the automotive industry for steering systems, power steering, transmission shifters, convertible top mechanisms, and various other applications. Their ability to provide precise motion control, compact design, responsiveness, and reliability makes them a preferred choice in automotive engineering, contributing to improved safety, comfort, and driving experience.

plastic gear rack

What are the primary components of a rack and pinion setup?

In a rack and pinion setup, there are two primary components that make up the mechanism: the rack and the pinion gear. Here’s a detailed explanation of each component:

  • Rack: The rack is a straight bar with teeth cut along its length. It resembles a gear but in a linear form. The rack is typically a long, narrow strip made of metal or a durable engineering plastic. The teeth on the rack are evenly spaced and have a specific profile that allows them to mesh with the teeth on the pinion gear. The rack can be stationary, meaning it remains fixed in place, or it can move linearly in response to the rotational motion of the pinion gear.
  • Pinion Gear: The pinion gear is a small circular gear with teeth that mesh with the teeth on the rack. It is usually mounted on a rotating shaft, such as a motor shaft or an actuator. When rotational force is applied to the pinion gear, it rotates, causing the teeth on the pinion to engage with the teeth on the rack. The pinion gear transfers its rotational motion to the rack, resulting in linear motion. The size and design of the pinion gear, including the number and shape of its teeth, are chosen based on the specific application requirements.

Together, the rack and pinion gear form a mechanical linkage that converts rotational motion into linear motion. As the pinion gear rotates, its teeth push against the teeth on the rack, causing the rack to move linearly. This linear motion can be harnessed for various applications, such as steering systems, robotic arms, linear actuators, and other mechanisms that require controlled linear movement.

In summary, the rack and pinion setup consists of a rack, a straight bar with teeth, and a pinion gear, a small circular gear. These two components work together to enable the conversion of rotational motion into linear motion, offering a versatile and efficient solution for various mechanical systems.

China Professional Right Power Steering Rack and Pinion for New Hiace 2WD Kdh200 Lh200 44200-26401/44200-26400/44200- 26470/44200-26471 helical bevel gearChina Professional Right Power Steering Rack and Pinion for New Hiace 2WD Kdh200 Lh200 44200-26401/44200-26400/44200- 26470/44200-26471 helical bevel gear
editor by Dream 2024-05-09

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rack pinions

As one of leading rack pinions manufacturers, suppliers and exporters of mechanical products, We offer rack pinions and many other products.

Please contact us for details.

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