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Automated Machining Manufacturing Processes Automated Machining Manufacturing Processes

Outline Machining Centers Equipment Tool Changers Centering and Clamping Selection of Equipment Selection of Outline Machining Centers Equipment Tool Changers Centering and Clamping Selection of Equipment Selection of Tooling Machine Performance Monitoring Manufacturing Cells Manufacturing Economics

Machining Centers Machining Center A computer-controlled machine tool capable of many types of cutting Machining Centers Machining Center A computer-controlled machine tool capable of many types of cutting operations on multiple surfaces and directions on a workpiece

Manufacturing Centers Z Y X 3 -Axis Operation φ 4 -Axis Operation φ θ Manufacturing Centers Z Y X 3 -Axis Operation φ 4 -Axis Operation φ θ 5 -Axis Operation

Components of a Machining Center Components of a Machining Center

Example of a Machining Center Example of a Machining Center

Example of a Machining Center Example of a Machining Center

Example of a Machining Center Example of a 5 -axis CNC machine (the tool Example of a Machining Center Example of a 5 -axis CNC machine (the tool pivots instead of the workpiece)

Example of a Vertical Machining Center Example of a Vertical Machining Center

Example of a Horizontal Machining Center Example of a Horizontal Machining Center

Examples of Manufactured Parts Examples of Manufactured Parts

Automated Robotic Loading Automated Robotic Loading

Automated Robotic Loading Automated Robotic Loading

Equipment Pallets The workpiece is placed on a pallet (module) which can be oriented Equipment Pallets The workpiece is placed on a pallet (module) which can be oriented in different directions by the machine Automatic Pallet Changers When the workpiece is finished, automatic pallet changers remove it and replace it with another workpiece

Pallets Example of a part mounted on a pallet Courtesy Toth Industries Pallets Example of a part mounted on a pallet Courtesy Toth Industries

Pallet Changers Pallet Changers

Equipment Automatic Tool Changer Can switch between up to 200 tools stored in a Equipment Automatic Tool Changer Can switch between up to 200 tools stored in a magazine, drum, or chain Tool Exchange Arm Picks up particular tools with attached toolholders

Tool Changer Types Automatic (Sequential) Spindle Turns one increment in one direction for each Tool Changer Types Automatic (Sequential) Spindle Turns one increment in one direction for each tool change; tools must be placed in the spindle in the order they are used Indexable (Random Access) Spindle Turns either direction to make a specific tool accessible; tools can be placed in any order as long as the computer knows their positions

Tool Changer Types 2 3 1 4 6 5 Sequential Spindle 8 1 4 Tool Changer Types 2 3 1 4 6 5 Sequential Spindle 8 1 4 6 2 7 5 Random Access Spindle 3

Tool Changer Spindle Tool Changer Spindle

Tool Changer Spindle Tool changer spindle capable of holding 60 tools Courtesy of Toth Tool Changer Spindle Tool changer spindle capable of holding 60 tools Courtesy of Toth Industries

Tool Changer Arm Tool Changer Arm

Tool Changer Arm Tool Changer Arm

Tool Changer Arm Tool Changer Arm

Tool Changer – Live Spindle Tool Changer – Live Spindle

Types of Manufacturing Cutting From Bulk Material Starting with a readily available shape (rods, Types of Manufacturing Cutting From Bulk Material Starting with a readily available shape (rods, ingots etc. ) and machining the part from this Cutting From Near Net Shape Starting with a pre-formed (often cast) piece with the general shape of the part and removing little material

Centering and Clamping Pre-cast designs should be made so that the machines can clamp Centering and Clamping Pre-cast designs should be made so that the machines can clamp and orient them quickly and accurately Parts to be lathed should have radially symmetrical outer surfaces and pre-cast holes to mark the center; they should also have a center of mass on the center line to prevent vibration

Orienting and Clamping holes notches Pre-cast parts should have at least three distinct features Orienting and Clamping holes notches Pre-cast parts should have at least three distinct features that the computer can recognize and use to orient the part

Centering and Clamping Pre-cast parts should have flat parallel surfaces for clamping or cylindrical Centering and Clamping Pre-cast parts should have flat parallel surfaces for clamping or cylindrical surfaces for chucking Areas to be clamped or chucked can be ground flat after casting to improve grip

Selection of Equipment Various types of parts may require various machining centers Parts with Selection of Equipment Various types of parts may require various machining centers Parts with numerous cylindrical surfaces (or other radially symmetrical surfaces) should be mounted on a machine center capable of turning Specialized machine centers are available for high-speed machining and for ultraprecision cutting

Selection of Equipment Example: Pump Cover Starting with the rough casting, drill and ream Selection of Equipment Example: Pump Cover Starting with the rough casting, drill and ream the center hole, then cut the internal notch with a milling cutter. Mount the piece on a mandrel and use turning operations to cut the faces and outer edge. Mill the external notch and drill and ream the smaller holes in the plate.

Selection of Tooling The proper selection of tools depends on the workpiece material, size Selection of Tooling The proper selection of tools depends on the workpiece material, size and shape of holes, radii of the corners of milling pockets, and various other parameters The selection of tools affects the cost and time of the operation

Machine Performance Monitoring Machine Performance Monitoring

Machine Performance Monitoring Y Y’ Part Orientation X’ X Cutting Performance Machine Performance Monitoring Y Y’ Part Orientation X’ X Cutting Performance

Machine Performance Monitoring Tool/Part-Checking Station Measures workpieces and tools so that the computer can Machine Performance Monitoring Tool/Part-Checking Station Measures workpieces and tools so that the computer can compensate for variations and tool wear Touch Probes Pressed against a workpiece or tool to measure its exact size and position

Touch Probes Touch Probes

Measurement and Adjustment critical distances Holes to be drilled (initial) (adjusted) Advanced machining software Measurement and Adjustment critical distances Holes to be drilled (initial) (adjusted) Advanced machining software can use data from probes to adjust its coordinate system, ensuring that critical distances remain within tolerances even in deformed workpieces

Touch Probes tool holder probe part Using a touch probe to measure a part Touch Probes tool holder probe part Using a touch probe to measure a part Courtesy Toth Industries

Touch Probes A machining center, being used to measure and determine the orientation of Touch Probes A machining center, being used to measure and determine the orientation of a part Courtesy of Toth Industries

Touch Probes tool changer arm probe part A machining center, being used to measure Touch Probes tool changer arm probe part A machining center, being used to measure and determine the orientation of a part Courtesy of Toth Industries

Touch Probes To determine the orientation of the part, the machine measures the two Touch Probes To determine the orientation of the part, the machine measures the two large holes and calculates their centers. A line constructed between the centers serves as a base for the computer’s coordinate system. Courtesy of Toth Industries

Machine Performance Monitoring Tool Failure Detection: - Time When the total cutting time of Machine Performance Monitoring Tool Failure Detection: - Time When the total cutting time of the tool exceeds the preprogrammed tool life, the tool is replaced - Horsepower Dull tools draw more power; if the power exceeds preprogrammed limits, the tool is replaced

Machine Performance Monitoring Tool Failure Detection: - Acoustic Emissions Cutting tools produce ultrasonic vibrations Machine Performance Monitoring Tool Failure Detection: - Acoustic Emissions Cutting tools produce ultrasonic vibrations and weakened ones produce up to five times the normal amplitude; when it rapidly increases, the tool is immediately replaced

Machine Performance Monitoring Tool Failure Detection: - Feed Force Records the feed force of Machine Performance Monitoring Tool Failure Detection: - Feed Force Records the feed force of sharp tools; if the force increase exceeds a predetermined percentage, the tool is replaced; if the force suddenly rises, the tool has broken and is replaced immediately

Manufacturing Cells Manufacturing Cells

Manufacturing Cells Manufacturing Cells

Manufacturing Cells Manufacturing Cells

Manufacturing Cells – Examples Courtesy of Toth Industries Manufacturing Cells – Examples Courtesy of Toth Industries

Manufacturing Economics Cost: If the cutting speed is too low, the cost of cutting Manufacturing Economics Cost: If the cutting speed is too low, the cost of cutting increases because of increased power consumption If the cutting speed is too high, the cost of tool replacement increases because tools wear out faster

Manufacturing Economics Time: If the cutting speed is too low, the cutting time increases Manufacturing Economics Time: If the cutting speed is too low, the cutting time increases If the cutting speed is too high, the tool replacement time increases

Manufacturing Economics Manufacturing Economics

Summary Machining Centers allow increased automation and efficiency, especially in large-scale production Monitoring, by Summary Machining Centers allow increased automation and efficiency, especially in large-scale production Monitoring, by an operator or the machine itself, is necessary to prevent damage to the parts produced Cutting speed can be varied to minimize the total cost or time of the operation

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