Pipi hao kila kuhiliʻole

A stainless steel gear rack is a linear component made from stainless steel that features a series of teeth along its length. It is designed to mesh with a gear, enabling the conversion of rotational motion into linear motion.

A stainless steel gear rack is a linear component made from stainless steel that features a series of teeth along its length. It is designed to mesh with a gear, enabling the conversion of rotational motion into linear motion.

TOHE helu
Mod.1-12, ʻae pū me DP. Hae CP
KEKAHI
ʻAe ka ʻoka liʻiliʻi, lawa ka waihona
mea
Steel, kuhiliʻole kila, oka a kila, kalapona kila etc.
KA ʻĀHUI
Mīkini CNC, Hobbing
ka waihoʻoluʻu
Kūlohelohe, ʻEleʻele
LENGTH
300mm ke 2000mm
HOLE KAHUAHI
Wahi a nā mea kūʻai aku i nā koina unuhi

Basic Functional Features:

1. Linear Motion Transmission: The main function of a stainless steel gear rack is to convert the rotational motion of a gear into linear motion along its length. This enables precise and controlled linear movement in various applications.

2. High Strength and Durability: Stainless steel gear racks are known for their excellent strength and durability. They can withstand heavy loads and prolonged use without significant wear or deformation.

3. Corrosion Resistance: Due to their stainless steel construction, these gear racks offer high resistance to corrosion and rust. This makes them suitable for use in demanding environments where exposure to moisture, chemicals, or harsh weather conditions may occur.

4. Smooth and Precise Operation: Stainless steel gear racks provide smooth and accurate linear motion. The teeth on the gear rack mesh with the gear's teeth, ensuring precise positioning and controlled movement.

pono:

1. Excellent Mechanical Properties: Stainless steel gear racks exhibit high mechanical strength, allowing them to handle heavy loads and provide reliable performance over an extended period.

2. Wide Range of Applications: Stainless steel gear racks find application in various industries, including automation, machinery, marine, renewable energy, and construction. They are used in conveyor systems, robotics, automotive machinery, marine propulsion systems, and more.

3. Longevity and Reliability: Stainless steel gear racks offer exceptional durability and a long service life. They are resistant to wear and can withstand demanding operating conditions, ensuring reliable performance over time.

4. Corrosion Resistance: The stainless steel material used in the construction of these gear racks provides excellent corrosion resistance, making them suitable for use in challenging environments where exposure to moisture, chemicals, or corrosive agents may occur.

5. Maintenance-Free Operation: Stainless steel gear racks require minimal maintenance due to their durability and resistance to wear. This reduces downtime and maintenance costs associated with regular upkeep.

ʻūhā kila kila

Applications of stainless steel gear racks:

1. Automation Systems: Stainless steel gear racks are widely used in automated machinery and systems for precise linear motion control. They are employed in conveyor systems, pick-and-place mechanisms, and robotic applications.

2. Industrial Machinery: Stainless steel gear racks are utilized in various industrial machinery, such as CNC machines, cutting machines, printing presses, and packaging equipment. They provide accurate and reliable linear motion in these applications.

3. Automotive Industry: Stainless steel gear racks find application in automotive systems, including steering systems, seat adjustment mechanisms, and sliding doors. They enable smooth and controlled linear movement in these automotive applications.

4. Construction and Building Systems: Stainless steel gear racks are employed in construction equipment and building systems, such as elevators, escalators, and sliding gates. They facilitate safe and efficient vertical or horizontal motion.

5. Marine and Offshore Applications: Stainless steel gear racks are used in marine propulsion systems, shipbuilding, and offshore equipment. They provide reliable linear motion in harsh marine environments, thanks to their corrosion resistance.

ʻūhā kila kila

Working Principle of Stainless Steel Gear Racks:

Stainless steel gear racks operate based on the principle of gear engagement. Here's how they work:

1. Rotary Input: A driving gear, typically a gear with teeth arranged in a circular pattern, provides rotational input.

2. Meshing with Gear Rack: The teeth of the rotating gear mesh with the teeth of the stainless steel gear rack. This meshing creates a mechanical connection between the gear and the gear rack.

3. Transfer of Motion: As the driving gear rotates, its teeth push against the teeth of the gear rack, causing the gear rack to move linearly along its length.

4. Linear Output: The linear motion of the gear rack can be utilized for various purposes, such as moving a carriage, actuating a mechanism, or driving a load in a straight line.

The gear teeth on the gear rack and the driving gear are designed to match in shape and pitch, ensuring efficient and smooth transfer of rotational motion into linear motion. The gear rack's teeth engage with the gear teeth, transmitting the rotational force and converting it into linear movement.

By harnessing the principles of gear engagement, stainless steel gear racks provide a reliable and precise means of converting rotary motion into controlled linear motion, enabling a wide range of applications in different industries.

ʻūhā kila kila

Choosing the right stainless steel gear rack involves considering the following factors:

1. Load Capacity: Determine the required load capacity of the gear rack, which depends on the maximum force or torque that the gear rack needs to transmit in your application.

2. Precision Requirements: Based on the precision requirements of your application, select the appropriate gear rack precision grade. Higher precision grades often require more accurate manufacturing and stricter process control.

3. Length and Size: Select the suitable gear rack length and size based on the space limitations and stroke requirements of your application. Ensure that the gear rack can accommodate the required linear travel range.

4. Pitch and Module: Choose the appropriate pitch and module of the gear rack based on the speed and torque requirements of your application. Smaller pitches and modules are typically suitable for high-speed motion, while larger pitches and modules are suitable for high torque and heavy-load applications.

5. Environmental Considerations: Take into account any special requirements of your application's environment. If the gear rack will be used in a corrosive or high-temperature environment, ensure that you select a stainless steel material with appropriate corrosion resistance and high-temperature properties.

6. Service Life: Consider the desired service life of the gear rack. Higher-quality stainless steel materials and manufacturing processes usually provide longer service life.

7. Cost-effectiveness: Consider both the performance requirements and budget limitations to choose a gear rack that offers good value for money.

ʻO mākou nā mea hana o ka laka a me nā pine pinion e like me ka mea e koi ai nā mea kūʻai. Hana ʻia kēia mau mea mai nā ʻano mea like ʻole e like me ka hao hao, hao kila, kila kila, kila hao kahi i paʻakikī ai nā niho a ʻo ke keleawe kekahi.

ʻūhā kila kila

E pili ana iā EVER POWER

EVER POWER has rich experience in customizing various spur gear rack and helical gear racks, such as ʻūlili uilaʻūhā kila kilaʻūlili uilas, laina laina laina a ʻūlili uila no ka mea ea uila. Our factory can also produce nylon helical gear racks and plastic helical gear racks and pinions. We are pleased to offer professional services for rack and pinion manufacturing. If you need customized drawings, please get in touch with us.

Ma kahi o ka gear rack, hāʻawi pū kā mākou hui i nā huahana ʻāpana hoʻouna like ʻole, e like me pahu pahu mahiailāʻau kū ptokaulahao a pākaukaupaukūʻolokaʻa nā paukūʻolokaʻaea compressors, nā mea hana mīkini a me nā huahana ʻē aʻe. Hoʻokipaʻia nā mea kūʻai e nīnau e pili ana i nā huahana i hoʻopilikinoʻia.

Additional 'ike

hoʻoponopono

na hyw

ʻIke kikoʻī huahana:

  • Loaʻa i nā kūlana maʻamau a me nā mea ʻole
  • Me ke kūlana kiʻekiʻe a me ka hoʻokūkū
  • Hāʻawi hoʻokele
  • Hāʻawe e like me ka noi a ka mea kūʻai.

Hoʻohiki mākou e hāʻawi i ke kumukūʻai maikaʻi loa e ka mea kiʻekiʻe ma china! ʻAe mākou i ke kauoha kūikawā e pili ana i nā huahana. Inā makemake ʻoe i kā mākou huahana. E ʻoluʻolu mai hoʻokaʻulua e hoʻokaʻaʻike iā mākou. ʻOluʻolu mākou e hāʻawi iā ʻoe i ka ʻike kikoʻī. Hoʻohiki mākou e palekana kā mākou huahana a ma ke ʻano kiʻekiʻe a me ke kumukūʻai kūpono. Inā makemake ʻoe i kā mākou huahana, e ʻoluʻolu e leka uila iā mākou. Ke ʻimi pono nei mākou i kāu hana like.

Lawe ʻia ka hapa nui o kā mākou huahana i ʻEulopa a i ʻAmelika paha, i loaʻa nā huahana maʻamau a kū ʻole hoʻi. Hiki iā mākou ke hana e like me kāu kahakiʻi a i ʻole hāpana. Hiki i nā mea ke kūlana a i ʻole no kāu noi kūikawā. Inā koho ʻoe iā mākou, koho ʻoe i ka hilinaʻi.

hōʻike maikaʻi pruduct

Loaʻa nā lako

1. Hana Kino: SS201, SS303, SS304, SS316, SS416, SS420
2. Steel:C45(K1045), C46(K1046),C20
3. Kaha: C36000 (C26800), C37700 (HPb59), C38500 (HPb58), C27200 (CuZn37), C28000 (CuZn40)
4. Bronze: C51000, C52100, C54400, a pēlā aku
5. ʻOhana: 1213, 12L14,1215
6. Aluminium: Al6061, Al6063
7.OEM e like me kāu noi
huahana mea i loaʻa

ʻIlikai ʻili

Annealing, canonization kūlohelohe, hoʻomaʻamaʻa wela, anai ʻana, plating nickel, plating chrome, plinc zinc, passivization melemele, passivization gula, satin, ʻili ʻeleʻele i pena ʻia etc.

Ke Kaʻina Hana

ʻO ka mīkini ʻana o CNC, ka punch, ka hoʻohuli ʻana, ka wili ʻana, ka ʻeli ʻana, ka wili ʻana, ka hoʻopili ʻana, ka hoʻopili ʻana a me ka ʻākoakoa
hoʻopau huahana

QC & palapala

Nānā ponoʻī nā mea ʻenehana i ka hana ʻana, hōʻoia hope loa ma mua o ka pūʻolo e ka luna loiloi ʻoihana
ISO9001: 2008, ISO14001: 2001, ISO / TS 16949: 2009

Pūʻolo & Ka manawa alakaʻi

Nui: Nā kiʻi
Wahi lāʻau / ipu a me pallet, a i ʻole e like me nā kikoʻī kikoʻī.
15-25day mau laʻana. ʻĀina offcial 30-45day
Awa: Ke awa ʻo Shanghai / Ningbo
pūʻolo huahana