ለሃይድሮሊክ መሳሪያ ስብስብ የሃይድሮሊክ እቃዎችን እንዴት እንደሚመርጡ ?

Lovelod ለተለያዩ የኢንዱስትሪ ትግበራዎች የተነደፉ የተለያዩ ከፍተኛ አፈፃፀም የሃይድሮሊክ ተካያቶችን ይሰጣል. እነዚህ ተሃድሶዎች የተገነቡት ከፍተኛ ተጽዕኖዎችን ለመቋቋም የተገነባ ነው, አስፈላጊ በሆኑ አካባቢዎች ውስጥ አስተማማኝነትን እና ደህንነትን ማረጋገጥ. ከታች የኛ የሃይድሮሊክ ቱቦ ሞዴሎች ዝርዝር መግለጫ ነው, ቁሳቁሶች, እና ዝርዝር መግለጫዎች:

ቴርሞ-ፕላስቲክ የሃይድሮሊክ ቱቦዎች

1. BH-7006 ተከታታይ
   • ቁሳቁስ: ቴርሞ-ፕላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 4 ሚ.ሜ
   • የሥራ ጫና: 20,000 psi
   • የፍንዳታ ግፊት: 60,000 psi
   • መጨረሻ 1: ጂ-1/4"
   • መጨረሻ 2: ጂ-1/4"
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-7010)
     • 6 ኤም (BH-7020)
2. BH-7106 ተከታታይ
   • ቁሳቁስ: ቴርሞ-ፕላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 4 ሚ.ሜ
   • የሥራ ጫና: 30,000 psi
   • የፍንዳታ ግፊት: 78,000 psi
   • መጨረሻ 1: ጂ-1/4"
   • መጨረሻ 2: ጂ-1/4"
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-7110)
     • 6 ኤም (BH-7120)
3. BH-7206 ተከታታይ
   • ቁሳቁስ: ቴርሞ-ፕላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 6 ሚ.ሜ
   • የሥራ ጫና: 10,000 psi
   • የፍንዳታ ግፊት: 40,000 psi
   • መጨረሻ 1: 3/8 - Npt
   • መጨረሻ 2: 3/8 - Npt
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-7210)
     • 6 ኤም (BH-7220)
4. BH-7306 ተከታታይ
   • ቁሳቁስ: ቴርሞ-ፕላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 10 ሚ.ሜ
   • የሥራ ጫና: 10,000 psi
   • የፍንዳታ ግፊት: 20,000 psi
   • መጨረሻ 1: 3/8 - Npt
   • መጨረሻ 2: 3/8 - Npt
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-7310)
     • 6 ኤም (BH-7320)

የጎማ ሃይድሮሊክ ቱቦዎች

1. BH-8206N ተከታታይ
   • ቁሳቁስ: ላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 6 ሚ.ሜ
   • የሥራ ጫና: 10,000 psi
   • የፍንዳታ ግፊት: 20,000 psi
   • መጨረሻ 1: 3/8 - Npt
   • መጨረሻ 2: 3/8 - Npt
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-8210N)
     • 6 ኤም (BH-8220N)
2. BH-8206C ተከታታይ
   • ቁሳቁስ: ላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 6 ሚ.ሜ
   • የሥራ ጫና: 10,000 psi
   • የፍንዳታ ግፊት: 20,000 psi
   • መጨረሻ 1: 3/8 - NPT ከBC-201B እና አቧራ ካፕ ጋር
   • መጨረሻ 2: 3/8 - NPT ከBC-201B እና አቧራ ካፕ ጋር
   • ርዝመቶች ይገኛሉ:
     • 1.8 ኤም
     • 3 ኤም (BH-8210C)
     • 6 ኤም (BH-8220C)
3. BH-8206TC ተከታታይ
   • ቁሳቁስ: ላስቲክ
   • የውስጥ ዲያሜትር (መታወቂያ): 6 ሚ.ሜ
   • የሥራ ጫና: 10,000 psi
   • የፍንዳታ ግፊት: 20,000 psi
   • መጨረሻ 1: 1/4 - NPT ከBC-202B እና አቧራ ካፕ ጋር
   • መጨረሻ 2: 1/4 - NPT ከBC-202B እና አቧራ ካፕ ጋር
   • ርዝመት ይገኛል።: 1.8 ኤም

ቁልፍ ባህሪዎች እና ጥቅሞች:

• ከፍተኛ ግፊት መቋቋም: እስከ የስራ ጫናዎችን ለመቆጣጠር የተነደፈ 30,000 psi, ከፍንዳታ ግፊቶች ጋር 78,000 psi, በከፍተኛ ጭንቀት መተግበሪያዎች ውስጥ ደህንነትን እና ዘላቂነትን ማረጋገጥ.
• ሁለገብ ግንኙነቶች: G-1/4ን ጨምሮ በተለያዩ የክር አይነቶች ይገኛል።" እና 3/8" Npt, ለተለያዩ የሃይድሮሊክ ስርዓቶች ተስማሚ.
• ዘላቂ ቁሳቁሶች: ከቴርሞ-ፕላስቲክ ወይም ጎማ የተሰራ, ተለዋዋጭነትን መስጠት, ዘላቂነት, እና ለመልበስ እና ለመቀደድ መቋቋም.
• የተሟሉ መፍትሄዎች: ቱቦዎች አስፈላጊ የሆኑ ማያያዣዎች እና መከላከያ የአቧራ ክዳን ያላቸው ናቸው, በሃይድሮሊክ ስርዓቶች ውስጥ ወዲያውኑ ለመጠቀም ዝግጁ.
• ባለብዙ ርዝመቶች: የተለያዩ የመጫኛ መስፈርቶችን ለማሟላት በተለያየ ርዝመት ውስጥ ይገኛል.

የሎንግሎድ የሃይድሮሊክ ቱቦዎች ዘመናዊ የኢንዱስትሪ አተገባበርን ለማሟላት የተነደፉ ናቸው, ከፍተኛ ግፊት ባለው አካባቢ ውስጥ አስተማማኝ አፈፃፀም መስጠት. ከተለያዩ ቁሳቁሶች ጋር, መጠኖች, እና የግንኙነት ዓይነቶች, these hoses offer a versatile solution for hydraulic systems.

Choosing the right hydraulic fitting is crucial to ensure the safety, ቅልጥፍና, and longevity of a hydraulic system. The selection process depends on various factors, including the type of application, the hydraulic system's pressure requirements, the fluid used, and compatibility with existing components.

Choose the appropriate hydraulic fitting:

1. Understand the Application Requirements

• የግፊት ደረጃ: Determine the maximum operating pressure of your hydraulic system. The fitting must withstand this pressure without failure.
• የሙቀት መጠን: Consider the temperature range of the hydraulic fluid and environment. Some materials are better suited to high or low temperatures.
• Fluid Compatibility: Ensure the fitting material is compatible with the type of hydraulic fluid used (ለምሳሌ., mineral oil, water-based, synthetic fluids).

2. Identify the Fitting Type

• Thread Type: Hydraulic fittings come with different thread types, such as NPT (National Pipe Thread), BSP (British Standard Pipe), JIC (Joint Industry Council), and Metric. The thread type should match the existing system components.
• Connection Type: Choose between various connection types like:
  • Compression Fittings: Common in lower-pressure systems.
  • O-Ring Face Seal (ORFS): Ideal for high-pressure applications, providing a leak-free connection.
  • Bite-Type Fittings: Suitable for medium to high-pressure systems, commonly used in mobile equipment.
  • Flare Fittings: Often used in lower-pressure applications.
• Adapter Fittings: If you need to connect different thread types or sizes, use adapter fittings.

3. Choose the Material

• Steel: Commonly used for high-pressure applications, providing strength and durability.
• Stainless Steel: Offers corrosion resistance, ideal for harsh environments or when using corrosive fluids.
• Brass: Suitable for lower-pressure systems and non-corrosive fluids.
• Aluminum: Lightweight and corrosion-resistant, often used in mobile and aerospace applications.
• Thermoplastic: Used for low-pressure applications, especially where flexibility is required.

4. Consider the Fitting Size

• ዲያሜትር: Match the inner diameter (መታወቂያ) and outer diameter (OD) of the fitting to the hydraulic hose or tube.
• Thread Size: Ensure the thread size matches the ports of the hydraulic components.
• Flow Requirements: Larger fittings allow for higher flow rates; ensure the fitting size supports your system’s flow requirements.

5. Check for Sealing Mechanisms

• O-Rings: Common in ORFS and other fittings to prevent leaks. Ensure the O-ring material is compatible with the hydraulic fluid.
• Tapered Threads: Often used in NPT fittings, providing a seal when the fitting is tightened.
• Flat-Faced Seals: Used in high-pressure systems to create a reliable, leak-proof connection.

6. Evaluate Installation and Maintenance

• Ease of Installation: Some fittings require special tools or procedures. Choose a fitting that aligns with your installation capabilities.
• Serviceability: Consider how easy it is to disconnect and reconnect the fitting for maintenance purposes.

7. Standards and Certifications

• ISO Standards: Check if the fitting meets international standards such as ISO 8434 for fittings, ensuring quality and compatibility.
• Manufacturer Specifications: Always follow longlood’s recommendations and specifications for selecting and installing fittings.

8. Consider Future Needs

• Scalability: If your hydraulic system may expand, consider fittings that are compatible with a wide range of components and pressures.
• Availability: Ensure the fittings you choose are readily available for future maintenance or system expansion.

9. Consult with Experts

• If unsure, consult with hydraulic specialists or the fitting manufacturer to ensure you choose the correct fitting for your application.

By considering these factors, you can choose the right hydraulic fitting that meets the specific needs of your hydraulic system, ensuring reliable and efficient operation.