CNC machining Parts
Computer numerical control (CNC) is the automation of machine tools by means of computers executing pre-programmed sequences of machine control commands. This is in contrast to machines that are manually controlled by hand wheels or levers, or mechanically automated by cams alone.
In modern CNC systems, the design of a mechanical part and its manufacturing program is highly automated. The part's mechanical dimensions are defined using computer-aided design (CAD) software, and then translated into manufacturing directives by computer-aided manufacturing (CAM) software. The resulting directives are transformed into the specific commands necessary for a particular machine to produce the component, and then are loaded into the CNC machine.
Our high-speed vertical and horizontal machining centers produce accurate and efficient CNC machined parts for many industries.We use below inspection equipment to ensure the quality of our CNC Machined parts.
Digital height gauge,caliper,coordinate measuring machine,projection machine,roughness tester,hardness tester.
Material customer selected is very wide.
Aluminum/Brass/Bronze/Copper/Magnesium/Stainless Steel/Steel/Titanium/Zinc<br>
Our full CNC machined parts business scope:
Turning & Milling
High Speed Drilling
Tapping & Boring
Slotting & Reaming
Rotary Broaching & Threading
Presently our maximum turning capacity is 31.5" O.D. by 34" long. Our CNC machining capacity is 50" wide x 40" long x 17" high.
MULTI-AXIS CNC MILLING CENTERS
5 Axis Machining up to 26”
4 Axis Machining up to 36”
3 Axis Machining up to 60”
Right Angle Milling
CNC LATHE AND LIVE ACTION TOOLING
Dual Spindle Lathes with 32″ Swing
18″ Max Diameter
8″ Chuck
To fully optimize your design for machining, you should pay attention to below:
Hole depths and diameter
Size and types of thread
Text on parts
Wall heights and feature widths
Live-tool lathes
Multi-axis milling
Drilling and thread-making go hand in hand. We take a more modern approach to thread making, using a tool called a thread mill to interpolate the thread profile. This creates an accurate thread, and a single milling tool can be used to cut any thread size that shares that pitch (the number of threads per inch), saving production and setup time. Because of this, UNC and UNF threads from #2 up to 1/2 in., and metric threads from M2 to M12 are possible, all within a single toolset.
Any more question please contact us freely.
Compression Spring is open-coil helical springs wound or constructed to oppose compression along the axis of wind. Helical Compression Springs and conical Springs are the most common metal spring configuration. Generally, these springs are either placed over a rod or fitted inside a hole. When you put a load on a compression coil spring, making it shorter, it pushes back against the load and tries to get back to its original length.Compression springs offer resistance to linear compressing forces.
Ground ends provide flat planes and stability. Squareness influences how the axis force produced by the spring can be transferred to adjacent parts. Although open ends may be suitable in some applications, closed ends afford a greater degree of squareness.
Compression Metal Springs are found in a wide variety of applications ranging from automotive engines and large stamping presses to major appliances and lawn mowers to medical devices, cell phones, electronics and sensitive instrumentation devices.
Springs main Parameters:
Dimensions: Outer Diameter, Inner Diameter, Wire Diameter, Free Length, and Solid Height.
Free Length is the overall length of a spring in the unloaded position.<br>
Solid Height is the length of a compression spring under sufficient load to bring all coils into contact with adjacent coils.
Spring Rate (stiffness)
Spring Rate is the change in load per unit deflection in pounds per inch (lb. /in.) or Newtons per millimeter (N/mm).
The dimensions, along with the load and deflection requirements, determine the stresses in the spring. When a compression spring is loaded, the coiled wire is stressed in torsion.
Extension Spring is attached at both ends to other components. When these components move apart, the spring tries to bring them together again.
Applications for extension springs include belowing:
automotive interiors and exteriors, garage door assemblies, vise-grip pliers springs, carburetors springs, trampolines Springs, washing devices springs, springs for farm machinery and toys etc. Extension springs could find in small medical devices as well as off-road machinery brake springs.Many sizes are available.
At the design stage of Custom Extension Springs, the length of the hooks at each end of the spring can be adjusted in order to precisely obtain the required spring load at any extended position.
extension springs Key Design Parameters:
Outer Diameter, Inner Diameter, Wire Diameter, Free Length and Extended Length<br>
? The Free Length is the overall length of a spring in the unloaded position.<br>
? The Extended Length is the length at full rated extension.
Spring Rate and Maximum Load
? The Spring Rate is the force per unit spring deflection.
? The Maximum Load is the load at full extension.
Torsion Spring is helical springs that exert a torque or rotary force. The ends of torsion springs are attached to other components, and when those components rotate around the center of the spring, the spring tries to push them back to their original position. .
Torsion springs can be designed to work in a clockwise or counter-clockwise rotation, thus determining the direction of the wind.
Common torsion springs are used in clothes pins, clipboards, swing-down tailgates and garage doors.Torsion springs are used for hinges, counterbalances and lever return applications.Torsion Springs perform best when supported by a rod or tube.
Torsion Springs Parameters:
Dimensions: Inner Diameter, Outer Diameter, Wire Diameter, and Spring Length.
The Inner Diameter is specified when the spring is required to slip over a mandrel with sufficient clearance to operate freely.
The Outer Diameter is specified when the spring is required to fit into a circular hole with sufficient exterior clearance to operate freely, or if there are outer housing clearance issues.
The Spring Length is the length of the spring coil.
Spring Rate is the angular return torque provided per unit of angular displacement.
Maximum Deflection is the maximum rated angular deflection of spring before damage.
The Wind of the torsion spring can be right hand, left hand, or double torsion.
Wire Forms typically are parts made from wire that is bent to have specific angles and lengths.comprehensive custom capabilities extend to Wire Forms,Stampings and Fourslide Parts.
Wire forms often are stress-relieved during production.custom wire forms manufactured to your exact specifications. We can produce wire forms out of almost any material shape, including:
? Rolled Round
? Flattened Round
? Rectangular
? Shaped
Dimensional Parameters
Wire Diameters: .010” - .236” / .254 mm - 6 mm
Maximum Finished Length: 60.0”/ 1524 mm
Computer numerical control (CNC) is the automation of machine tools by means of computers executing pre-programmed sequences of machine control commands. This is in contrast to machines that are manually controlled by hand wheels or levers, or mechanically automated by cams alone.
In modern CNC systems, the design of a mechanical part and its manufacturing program is highly automated. The part's mechanical dimensions are defined using computer-aided design (CAD) software, and then translated into manufacturing directives by computer-aided manufacturing (CAM) software. The resulting directives are transformed into the specific commands necessary for a particular machine to produce the component, and then are loaded into the CNC machine.
Our high-speed vertical and horizontal machining centers produce accurate and efficient CNC machined parts for many industries.We use below inspection equipment to ensure the quality of our CNC Machined parts.
Digital height gauge,caliper,coordinate measuring machine,projection machine,roughness tester,hardness tester.
Material customer selected is very wide.
Aluminum/Brass/Bronze/Copper/Magnesium/Stainless Steel/Steel/Titanium/Zinc<br>
Our full CNC machined parts business scope:
Turning & Milling
High Speed Drilling
Tapping & Boring
Slotting & Reaming
Rotary Broaching & Threading
Presently our maximum turning capacity is 31.5" O.D. by 34" long. Our CNC machining capacity is 50" wide x 40" long x 17" high.
MULTI-AXIS CNC MILLING CENTERS
5 Axis Machining up to 26”
4 Axis Machining up to 36”
3 Axis Machining up to 60”
Right Angle Milling
CNC LATHE AND LIVE ACTION TOOLING
Dual Spindle Lathes with 32″ Swing
18″ Max Diameter
8″ Chuck
To fully optimize your design for machining, you should pay attention to below:
Hole depths and diameter
Size and types of thread
Text on parts
Wall heights and feature widths
Live-tool lathes
Multi-axis milling
Drilling and thread-making go hand in hand. We take a more modern approach to thread making, using a tool called a thread mill to interpolate the thread profile. This creates an accurate thread, and a single milling tool can be used to cut any thread size that shares that pitch (the number of threads per inch), saving production and setup time. Because of this, UNC and UNF threads from #2 up to 1/2 in., and metric threads from M2 to M12 are possible, all within a single toolset.
Any more question please contact us freely.
Compression Spring is open-coil helical springs wound or constructed to oppose compression along the axis of wind. Helical Compression Springs and conical Springs are the most common metal spring configuration. Generally, these springs are either placed over a rod or fitted inside a hole. When you put a load on a compression coil spring, making it shorter, it pushes back against the load and tries to get back to its original length.Compression springs offer resistance to linear compressing forces.
Ground ends provide flat planes and stability. Squareness influences how the axis force produced by the spring can be transferred to adjacent parts. Although open ends may be suitable in some applications, closed ends afford a greater degree of squareness.
Compression Metal Springs are found in a wide variety of applications ranging from automotive engines and large stamping presses to major appliances and lawn mowers to medical devices, cell phones, electronics and sensitive instrumentation devices.
Springs main Parameters:
Dimensions: Outer Diameter, Inner Diameter, Wire Diameter, Free Length, and Solid Height.
Free Length is the overall length of a spring in the unloaded position.<br>
Solid Height is the length of a compression spring under sufficient load to bring all coils into contact with adjacent coils.
Spring Rate (stiffness)
Spring Rate is the change in load per unit deflection in pounds per inch (lb. /in.) or Newtons per millimeter (N/mm).
The dimensions, along with the load and deflection requirements, determine the stresses in the spring. When a compression spring is loaded, the coiled wire is stressed in torsion.
Extension Spring is attached at both ends to other components. When these components move apart, the spring tries to bring them together again.
Applications for extension springs include belowing:
automotive interiors and exteriors, garage door assemblies, vise-grip pliers springs, carburetors springs, trampolines Springs, washing devices springs, springs for farm machinery and toys etc. Extension springs could find in small medical devices as well as off-road machinery brake springs.Many sizes are available.
At the design stage of Custom Extension Springs, the length of the hooks at each end of the spring can be adjusted in order to precisely obtain the required spring load at any extended position.
extension springs Key Design Parameters:
Outer Diameter, Inner Diameter, Wire Diameter, Free Length and Extended Length<br>
? The Free Length is the overall length of a spring in the unloaded position.<br>
? The Extended Length is the length at full rated extension.
Spring Rate and Maximum Load
? The Spring Rate is the force per unit spring deflection.
? The Maximum Load is the load at full extension.
Torsion Spring is helical springs that exert a torque or rotary force. The ends of torsion springs are attached to other components, and when those components rotate around the center of the spring, the spring tries to push them back to their original position. .
Torsion springs can be designed to work in a clockwise or counter-clockwise rotation, thus determining the direction of the wind.
Common torsion springs are used in clothes pins, clipboards, swing-down tailgates and garage doors.Torsion springs are used for hinges, counterbalances and lever return applications.Torsion Springs perform best when supported by a rod or tube.
Torsion Springs Parameters:
Dimensions: Inner Diameter, Outer Diameter, Wire Diameter, and Spring Length.
The Inner Diameter is specified when the spring is required to slip over a mandrel with sufficient clearance to operate freely.
The Outer Diameter is specified when the spring is required to fit into a circular hole with sufficient exterior clearance to operate freely, or if there are outer housing clearance issues.
The Spring Length is the length of the spring coil.
Spring Rate is the angular return torque provided per unit of angular displacement.
Maximum Deflection is the maximum rated angular deflection of spring before damage.
The Wind of the torsion spring can be right hand, left hand, or double torsion.
Wire Forms typically are parts made from wire that is bent to have specific angles and lengths.comprehensive custom capabilities extend to Wire Forms,Stampings and Fourslide Parts.
Wire forms often are stress-relieved during production.custom wire forms manufactured to your exact specifications. We can produce wire forms out of almost any material shape, including:
? Rolled Round
? Flattened Round
? Rectangular
? Shaped
Dimensional Parameters
Wire Diameters: .010” - .236” / .254 mm - 6 mm
Maximum Finished Length: 60.0”/ 1524 mm
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