This bar serves to notify visitors of important updates

1

Yiming-Essebi Machine Series Center

Home Multi Station Bolt Former 6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26
6 Die 6 Blow use friendly Multi Station Cold Heading Machine Make M18-M26

Share to:

6 Die 6 Blow Multi-Station Cold Heading Machine delivers exceptional cost efficiency, making it an ideal choice for manufacturers looking to optimize their production processes while maintaining high-quality standards.
库存: 0
Inquire
Add to Basket

Specification


ModelUnitKD-606KD-608KD-610KD-613
Forging stationNo.6666
Forging forceKgf5800092000120000160000
Max.cut-off diamm8121618
Max.cut-off lengthmm100140165220
Production speedpcs/min200160150100
Master die ejection strokemm90130145200
Punch die ejection strokemm30404060
Main sliding table strokemm130160195270
Overall dims. Of main diemm50*10060*13075*13580*190
Overall dims. Of punch diemm40*10045*11555*12570*130
Overall dims. Of cut of diemm28*4540*6045*6070*69
Die pitchmm608094110
Applicable bolt diamm3-64-86-108-16
Shank length of blankmm10-8520-11520-11520-180
Max flange diamm17192532
Main engine motorKW22303755
Machine weightKgs9600220002600045000
Machine dimensionmm3500*2200*22004200*2750*25004530*3300*22006000*4100*3000



ModelUnitKD-613LKD-616KD-620KD-625
Forging stationNo.6666
Forging forceKgf160000280000410000600000
Max.cut-off diamm18263238
Max.cut-off lengthmm285240260295
Production speedpcs/min70958060
Master die ejection strokemm280220255270
Punch die ejection strokemm60606070
Main sliding table strokemm380275350365
Overall dims. Of main diemm93*294108*220125*240148*250
Overall dims. Of punch diemm60*23275*18590*215120*270
Overall dims. Of cut of diemm60*10084*12085*120109*150
Die pitchmm110129140160
Applicable bolt diamm8-1610-1812-2416-32
Shank length of blankmm20-26220-20025-24025-240
Max flange diamm32424856
Main engine motorKW5590115132
Machine weightKgs480006500091000150000
Machine dimensionmm7500*4500*300013600*6300*290015200*5750*325016500*6800*3300


6 Die 6 Blow Process


  1. First Die & Blow: Cutting/Shearing

    • Task: Cuts the metal wire to the required length.

    • Outcome: Ensures uniform blanks for consistent processing.

  2. Second Die & Blow: Heading/Upsetting

    • Task: Forms the head of the fastener by compressing or reshaping one end of the blank.

    • Outcome: Creates the initial form of the fastener's head.

  3. Third Die & Blow: Extrusion

    • Task: Reduces or elongates sections of the workpiece to achieve specific dimensions or profiles.

    • Outcome: Adds features like undercuts or extended sections.

  4. Fourth Die & Blow: Piercing/Punching

    • Task: Creates holes, slots, or other internal features within the component.

    • Outcome: Adds necessary internal cavities or holes.

  5. Fifth Die & Blow: Trimming/Shaping

    • Task: Refines the final geometry of the part, removing excess material.

    • Outcome: Ensures the part meets exact specifications.

  6. Sixth Die & Blow: Final Forming

    • Task: Completes any remaining shaping, such as rolling threads or adding grooves.

    • Outcome: Produces the finished fastener ready for use.



Cost Efficiency


  • Reduced Material Waste:
    The machine's automated and precise operation ensures that raw materials are used optimally, minimizing scrap and waste. By forming parts to near-net shape, the need for excessive trimming or machining is eliminated, further conserving material.


  • Lower Labor Costs:
    With its fully automated processes, the machine significantly reduces the need for manual intervention. This not only cuts down on labor expenses but also minimizes human error, leading to consistent quality and higher productivity.


  • Minimized Secondary Operations:
    The advanced capabilities of the machine allow it to produce components with intricate shapes and tight tolerances in a single setup. This eliminates or reduces the need for additional machining, grinding, or finishing processes, saving both time and resources.

  • Near-Net-Shape Production:
    The cold heading process achieves parts that are very close to their final dimensions, reducing the need for costly post-processing steps. This not only lowers production costs but also accelerates the overall manufacturing timeline.