POWER-CHECK เครื่องมือวัดแรงดึงของเครื่องจักร CNC Machining Center
ตัวแทนจำหน่ายสินค้า OTT-JAKOB Power-Check 2 OTT-JAKOB POWER-CHECK เครื่องมือวัดแรงดึงของเครื่องจักร CNC Machining Center ตัวแทนจำหน่ายสินค้า OTT-JAKOB Power-Check 2 OTT-JAKOB POWER-CHECK เครื่องมือวัดแรงดึงของเครื่องจักร CNC Machining Center ตัวแทนจำหน่ายสินค้า OTT-JAKOB Power-Check 2 OTT-JAKOB POWER-CHECK เครื่องมือวัดแรงดึงของเครื่องจักร CNC Machining Center
Last Update : 14/05/2024 11:44:31
จำหน่ายสินค้าของทาง Arobotech AUTO REST
จำหน่ายและนำเข้าสินค้าของทาง Arobotech AUTO REST AROBOTECH STEADY REST สนใจติดต่อได้ที่คุณภูรินทร์ 098-4288648 LINE ID : 0984288648
Runout Arbors for lathe Centers
TAC Rockford runout arbors for lathe centers are manufactured using hardened gauge-quality steel, and include a certificate of accuracy.
MicroCentric Air Chuck
Quick Change Collet Chucks Precision Air Chucks Precision Power Chucks Conventional Collet Chucks Diaphragm Chucks KSF Power Chucks SPECIAL TURNKEY WORKHOLDING SYSTEMS สนใจสินค้าสอบถามที่เบอร์ 0984288648 คุณภูรินทร์
Last Update : 24/02/2024 08:04:43
เครื่องวัดแรงดึง ForceCheck for Spindel Machine
เครื่องวัดแรงดึง DRAWBAR CLAMPING FORCE GAGE Spindle Drawbar Force Gauge Drawbar Gauge Spindle Clamping Force Force Check KM6350 KM10080 Spindle Draw Bar force gauge testing CNC DrawBar Gauge Tool Clamping Force Clamp Force Meter Drawbar Force Gauge
KELCH Safecontrol 4.0 Force Check
KELCH Safecontrol 4.0 Force Check for spindle force BT30 BT40 BT50 HSK25 HSK32 HSK40 HSK50 HSK63 HSK100
Last Update : 24/07/2023 15:36:12
ForceCheck - TAC Rockford
ForceCheck - TAC Rockford ForceCheck HSK Taper Drawbar Force Gauges For measuring drawbar retention force on HSK (Hollow-Shank Taper) standard spindles
Last Update : 23/07/2023 08:40:34
Polygon Solutions Rotary Broach Tools T-40 Torx GO and NOGO Gage Set
Rotary Broaches
Rotary Broach Tool Holders
Go & NoGo Gages
Torx Rotary Broaches
Rotary Broach Tool Holders
Go & NoGo Gages
Hexagon (Hex) Go/NoGo Gages
Square Go/No-Go Gauges
Hexalobular Go/NoGo Gages
T-40 Torx GO and NOGO Gage Set
Brand : Pneumatic rotary tables
Pneumatic rotary tables กระบอกลมแบบหมุนล็อคตำแหน่งโดยใช้ลม G.P.A. Italiana pneumatic rotary indexing tables are available in two versions: TAR 270 and TAR 160 ขนาดโต๊ะหมุนมีสองแบบ 160 mm 270 mm
COFA and MICROCOFA Deburring Tool for Elliptical or Contoured Surfaces Stock Standard Tools 2mm - 41mm (.080" - 1.614") • Forward and backward deburring in one pass • Consistent deburring on even and uneven surfaces • Easy operation • TiN coated carbide inserts • Simple design for minimal stock
Deburr Elliptical Holes
The COFA tool will deburr the contours of an elliptical hole when two holes intersect or a hole is not perpendicular to the surface. The COFA with a standard blade can be used when the large intersecting hole is two or more times the smaller or for surfaces up to 15°. Deburr more extreme contours by using the 30° blade with extra clearance relief.
Radiused Edge breaks on Flat Parts
Deburr the front and back of any through hole with a smooth tapered edge break to relieve stress points and sharp corners. Use the new blade with 10° clearance relief for better tool life when deburring flat parts.
How Does the COFA Tool Work? As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole and the blade rocks upward. The result is a tapered, radiused edge break.
When the blade is in the hole, only the ground and polished non-cutting ball touches the surface protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle.
When the blade reaches the bottom of the part, it springs back into cutting position and the back cutting edge deburrs the bottom of the hole as the tool is withdrawn. When the blade is inside the hole, the tool can be rapid fed out and on to the next hole.
SNAP and MicroSNAP
SNAP and MICROSNAP Economic front and back chamfering in One Operation, with very easy blade changes. Stock Standard Tools 2mm -25mm (.080" - .984")
• Production front and back deburring and chamfering. • Easy to handle and operate • No Presetting • Quick and easy blade changes • Longer tool life (carbide-TiN)
High Quality Consistent Chamfers:
The SNAP blades are ground with a patented geometry developed by Heule to produce quality chamfers and eliminate secondary burrs. Different chamfer sizes can be achieved by selecting a different blade. There is no need for adjustments or operator intervention.
How Does the SNAP Tool Work? As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole by cutting a 45° chamfer. As the tool feeds into the part, the blade is forced into the body, and slides in the blade window.
When the blade is in the hole, only the ground gliding surface touches the hole, protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle. When the blade reaches the back of the part the coiled spring acts with the control bolt to push it back out into cutting position. The back edge is deburred and chamfered as the tool is withdrawn. When the blade is again in the hole, the tool can be rapid fed out and on to the next hold.
COFA in Cast Iron:
This cast iron valve body is being deburred with the COFA deburring tool. The manufacturer is running the tool at 1400 rpm with a feed rate of 0.010ipr. The reported insert life is 17,000+ parts
COFA in Steel
This steel clevice is being deburred with the COFA deburring tool. The manufacturer is running the tool at 180SFM and 0.010ipr. Blade life is approximately 3,000-4,000 holes.
COFA and MicroCOFA
COFA and MICROCOFA Deburring Tool for Elliptical or Contoured Surfaces Stock Standard Tools 2mm - 41mm (.080" - 1.614") • Forward and backward deburring in one pass • Consistent deburring on even and uneven surfaces • Easy operation • TiN coated carbide inserts • Simple design for minimal stock
Deburr Elliptical Holes
The COFA tool will deburr the contours of an elliptical hole when two holes intersect or a hole is not perpendicular to the surface. The COFA with a standard blade can be used when the large intersecting hole is two or more times the smaller or for surfaces up to 15°. Deburr more extreme contours by using the 30° blade with extra clearance relief.
Radiused Edge breaks on Flat Parts
Deburr the front and back of any through hole with a smooth tapered edge break to relieve stress points and sharp corners. Use the new blade with 10° clearance relief for better tool life when deburring flat parts.
How Does the COFA Tool Work?
As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole and the blade rocks upward. The result is a tapered, radiused edge break.
When the blade is in the hole, only the ground and polished non-cutting ball touches the surface protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle.
When the blade reaches the bottom of the part, it springs back into cutting position and the back cutting edge deburrs the bottom of the hole as the tool is withdrawn. When the blade is inside the hole, the tool can be rapid fed out and on to the next hole.
SNAP and MicroSNAP
SNAP and MICROSNAP Economic front and back chamfering in One Operation, with very easy blade changes. Stock Standard Tools 2mm -25mm (.080" - .984")
• Production front and back deburring and chamfering. • Easy to handle and operate • No Presetting • Quick and easy blade changes • Longer tool life (carbide-TiN)
High Quality Consistent Chamfers:
The SNAP blades are ground with a patented geometry developed by Heule to produce quality chamfers and eliminate secondary burrs. Different chamfer sizes can be achieved by selecting a different blade. There is no need for adjustments or operator intervention.
How Does the SNAP Tool Work?
As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole by cutting a 45° chamfer. As the tool feeds into the part, the blade is forced into the body, and slides in the blade window.
When the blade is in the hole, only the ground gliding surface touches the hole, protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle.
When the blade reaches the back of the part the coiled spring acts with the control bolt to push it back out into cutting position. The back edge is deburred and chamfered as the tool is withdrawn. When the blade is again in the hole, the tool can be rapid fed out and on to the next hold.
COFA in Cast Iron:
This cast iron valve body is being deburred with the COFA deburring tool. The manufacturer is running the tool at 1400 rpm with a feed rate of 0.010ipr. The reported insert life is 17,000+ parts
COFA in Steel
This steel clevice is being deburred with the COFA deburring tool. The manufacturer is running the tool at 180SFM and 0.010ipr. Blade life is approximately 3,000-4,000 holes.
COFA and MicroCOFA
COFA and MICROCOFA Deburring Tool for Elliptical or Contoured Surfaces Stock Standard Tools 2mm - 41mm (.080" - 1.614") • Forward and backward deburring in one pass • Consistent deburring on even and uneven surfaces • Easy operation • TiN coated carbide inserts • Simple design for minimal stock
Deburr Elliptical Holes
The COFA tool will deburr the contours of an elliptical hole when two holes intersect or a hole is not perpendicular to the surface. The COFA with a standard blade can be used when the large intersecting hole is two or more times the smaller or for surfaces up to 15°. Deburr more extreme contours by using the 30° blade with extra clearance relief.
Radiused Edge breaks on Flat Parts
Deburr the front and back of any through hole with a smooth tapered edge break to relieve stress points and sharp corners. Use the new blade with 10° clearance relief for better tool life when deburring flat parts.
How Does the COFA Tool Work?
As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole and the blade rocks upward. The result is a tapered, radiused edge break.
When the blade is in the hole, only the ground and polished non-cutting ball touches the surface protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle.
When the blade reaches the bottom of the part, it springs back into cutting position and the back cutting edge deburrs the bottom of the hole as the tool is withdrawn. When the blade is inside the hole, the tool can be rapid fed out and on to the next hole.
SNAP and MicroSNAP
SNAP and MICROSNAP Economic front and back chamfering in One Operation, with very easy blade changes. Stock Standard Tools 2mm -25mm (.080" - .984")
• Production front and back deburring and chamfering. • Easy to handle and operate • No Presetting • Quick and easy blade changes • Longer tool life (carbide-TiN)
High Quality Consistent Chamfers:
The SNAP blades are ground with a patented geometry developed by Heule to produce quality chamfers and eliminate secondary burrs. Different chamfer sizes can be achieved by selecting a different blade. There is no need for adjustments or operator intervention.
How Does the SNAP Tool Work?
As the rotating tool is fed into the hole, the front cutting edge deburrs the top of the hole by cutting a 45° chamfer. As the tool feeds into the part, the blade is forced into the body, and slides in the blade window.
When the blade is in the hole, only the ground gliding surface touches the hole, protecting it from damage while the tool is fed through the part. There is no need to stop or reverse the spindle.
When the blade reaches the back of the part the coiled spring acts with the control bolt to push it back out into cutting position. The back edge is deburred and chamfered as the tool is withdrawn. When the blade is again in the hole, the tool can be rapid fed out and on to the next hold.
COFA in Cast Iron:
This cast iron valve body is being deburred with the COFA deburring tool. The manufacturer is running the tool at 1400 rpm with a feed rate of 0.010ipr. The reported insert life is 17,000+ parts
COFA in Steel
This steel clevice is being deburred with the COFA deburring tool. The manufacturer is running the tool at 180SFM and 0.010ipr. Blade life is approximately 3,000-4,000 holes.
Cassette tool from HEULE - process capable deburring of large bore-Ø
Automotive Industry / Connecting Rod
Reduce cycle times
HEULE has been reducing cycle times in the automotive industry successfully for over 30 years now. Today, car manufacturers ask for simple and process capable tool system. Terms like "time saving activities", "labor costs saving“ and "CIP continuous improvement process“ are common practice in the automotive industry
Customer application
Our customer has been machining the connecting rods manually for years.
Bore
Ø62.5 mm
Deburring size
Ø63.5 mm
Unevenness
20°
Material
Forged steel
Proposed solution by HEULE Werkzeug AG
The HEULE proposal stipulates a cassette solution with the COFA tool. The standard COFA cassette can be adapted easily to large bore diameters by using a customized tool holder. This method gives the freedom to use the standard cassette also for other deburring applications.
The burrs will be removed at the front and at the back without any problems. Due to the unevenness of the bore edge, the radial deburring will be slightly irregular.
Benefits of the solution
The connecting rod is clamped on a undefined surface. As a result, the deburring surface is also undefined which is asking necessarily for a spring-guided deburring system that compensates for the variance.
The COFA blade does not hurt the already finished bore surface when traversing the hole. It is recommendable to apply low cutting values in order to allow the COFA blade to adapt to the contour.