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Slotter machine

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AliRaza1767

Slotter Machine | Types | Operations | Applications

Engineering
1 of 34
Slotter Machine Machine Tools & Machining Mechanical Engineering D e p a r t m e n t
Presented By: Ali Raza 2017-ME-516
Table of Contents: Slotter Machine Schematic Diagram Working Principle Types of Slotter Machine Labeled Diagram Parts Mechanism Operations Specifications Applications Advantages & Disdvantages
Slotter Machine • Slotter machine is defined as a machine tool uses for removing unwanted material chips from the workpiece to make splines, grooves and more. • Here the Ram (Tool attached) moves reciprocating, whereas In shaper the ram moves horizontally.
Schematic Diagram of Slotter Machine
Working Principle of Slotter Machine • The ram is connected to the crank and crank connected to the gears. When we increase or decrease the gear speed, the rotation of crank increases and decreases. And as per these, the ram moves up and down. • Attach the workpiece into the work table and manually bring the ram near to the workpiece and according to the ram adjust the worktable and then clamp it. • Supply the power as per gear the crank rotates and the crank is connected to the ram so ram moves up and down. • During down (ram moves down) the cutting stroke takes place and while moving up or return stroke there is no cut.
Types of Slotter Machine • There are mainly two types of slotter machine. • Puncher slotter. • Precision slotter. • Production Slotter • Special Purpose Slotter Machine
Types of Slotter Machine | 1: Puncther Slotter • The puncher slotter machine is a heavy, rigid machine designed for removal of a large amount of metal from large forgings or castings. The length of stroke of a puncher slotter is sufficiently large. It may be as long as 1800 to 2000mm. • The puncher slotter ram is usually driven by a spiral pinion meshing with the rack teeth cut on the underside of the ram. The pinion is driven by a variable speed reversible electric motor similar to that of a planer. The feed is also controlled by electrical gears.
Types of Slotter Machine | 2: Precision Slotter • The precision slotter machine is a lighter machine and is operated at high speeds. The machine is designed to take light cuts giving the accurate finish. • Using special jigs, the machine can handle a number of works on a production basis. The precision slotter machines are also used for general purpose work and are usually fitted with Whitworth quick return mechanism.
Types of Slotter Machine | 3: Production Slotter • This type of slotter is used for machining tapered jobs by ram swivel to 10 to 30 degrees.
Types of Slotter Machine |4 : Special Purpose Slotter • This type of slotter machines offer a high volume of production at low cost, also it gives greater accuracy too. • Key seater is one of the special purposes of slotter machines. It is used for machining keys on the wheel and gear hub.
Slotter Machine Labeled Diagram
Parts of Slotter Machine The different parts of Slotter Machine are 1. Base. 2. Column. 3. Saddle. 4. Crosslide. 5. Rotating table. 6. Ram and tool head assembly. 7. Ram drive mechanism. 8. Feed mechanism
Parts of Slotter Machine | 1: Base or Bed • The base is rigidly built to take up all the cutting forces and the entire load of the machine. • The top of the bed is accurately finished to provide guideways on which the saddle is mounted. • The guideways are perpendicular to the column face.
Parts of Slotter Machine | 2: Column • The column is the vertical member which is cast integrally with the base and houses driving mechanism of the ram and feeding mechanism. • The front vertical face of the column is accurately finished for providing ways in which the ram reciprocates.
Parts of Slotter Machine | 3: Saddle • The saddle is mounted upon the guideways and may be moved toward or away from the column either power or manual control to supply longitudinal feed to the work. • The top face of the saddle is accurately finished to provide guideways for the cross-slide. These guideways are perpendicular to the guideways on the base.
Parts of Slotter Machine | 4: Cross-Slide • The cross-slide is mounted upon the guideways of the saddle and maybe moved parallel to the face of the column. • The movement of the slide may be controlled either by hand or power to supply crossfeed.
Parts of Slotter Machine | 5: Rotary Table • The rotary table is a circular table which is mounted on the top of the cross-slide. • The table may be rotated by rotating a worm which meshes with a worm gear connected to the underside of the table. • The rotation of the table may be effected either by hand or power. In some • In some machines, the table is graduated in degrees that enable the table to be rotated for indexing or diving the periphery of a job in the equal number of parts. • T-slots are cut on the top face of the table for holding the work by different clamping devices. The rotary table enables a circular or contoured surface to be generated on the workpiece.
Parts of Slotter Machine | 6: Ram and Toolhead Assembly • The ram is the reciprocating member of the machine mounted on the guideways of the column. It supports the tool at its bottom end on a tool head. • A slot is cut on the body of the ram for changing the position of the stroke. • In some machines, special type for tool holders is provided to relieve the tool during its return stroke.
Parts of Slotter Machine | 7: Ram Drive Mechanism • A slotter removes metal during downward cutting stroke only whereas during upward return stroke no metal is removed. The reduce the idle return time quick return mechanism is incorporated in the machine. The usual types of ram drive mechanism are, • Whitworth quick return mechanism. • Variable speed reversible motor drive mechanism. • Hydraulic drive mechanism.
Parts of Slotter Machine | 8: Feed Drive • It provides the arrangement of longitudinal and cross–a feed of the table either by power or manual. • It also provides the arrangement of circular or rotary feeding of the table on a vertical axis. • Intermittent feeding of the table is supplied at the beginning of each cutting or forward stroke of the ram.
Whitworth quick return mechanism • The bull gear is mounted on a fixed hub at the rear end of the machine and it is rotated by a driving pinion from the motor. The driving plate is connected to the main shaft through the fixed hub. The main shaft is placed eccentrically with respect to the bull gear centre. • The bull gear holds the crankpin with sliding block and slides in a driving plate. So that when the bull gear rotates, imparts rotary motion to the driving plate and shaft causing the disc to rotate at the end of the main shaft. • The disc is connected to the lower end of the connecting rod eccentrically by means of a pin in a radial T-slots on the face of the disc, which converts the rotary motion of the disc into reciprocating motion of the ram connected to the top end of the connecting rod.
Principle of Quick Return Mechanism • The principle of quick return mechanism can be explained simply by a line diagram. A and B are the fixed centres of the bull gear and the driving plate. The crack pin and the slide block rotate in a circular path at a constant speed in a driving plate about B. This causes the disc to rotate through the main shaft. • If the bull gear rotates in an anticlockwise direction and the slide block rotates through an angle CAD, the ram performs downward cutting stroke, whereas when the block rotates through an angle DAC the ram perform return stroke.
Slotter Machine Operations 1. Machining cylindrical surface. 2. Flat surface Machining. 3. Machining irregular surface and cam machining. 4. Machining slots, keyways and grooves.
Operations | 1: Flat Surface Machining • The external and internal flat surfaces may be generated on a workpiece easily in a slotter machine. The work to be machined is supported on parallel strips so that the tool will have clearance with the table when it is at the extreme downward position of the stroke. • The work is then clamped properly on the table and the position and the length of the stroke is adjusted. A clearance of 20 to 25mm is left before the beginning of cutting stroke, so that the feeding movement may take place during this idle part of the stroke.
Operations | 2: Machining Circular Surfaces • The external and internal surface of a cylinder can also be machined in a slotter machine. The work is placed centrally on the rotary table and packing pieces and clamps are used to hold the work securely on the table. • The tool is set radially on the work and necessary adjustments of the machine and the tool are made. The saddle is clamped in its position and the machine is started. While machining, the feeding is done by the rotary table feed screw which rotates the able through a small arc at the beginning of each cutting stroke.
Operations | 2: Machining Irregular Surfaces or Cams • The work is set on the table and necessary adjustments of the tool and the machine are made as detailed in other operation. By combining cross, longitudinal and rotary feed movements of the table any contoured surface can be machined on a workpiece.
Operations | 4 : Machining Grooves or Keyways • Internal and external grooves are cut very conveniently machine. A slotter is specially intended for cutting internal grooves which are difficult to produce in other machines. • External or internal gear teeth can also be machined in a slotter by cutting equally spaced grooves on the periphery of the work. The indexing or dividing the periphery of the work is done by the graduations on the rotary table.
Slotter Machine Specifications • Power Input • Type of drive • Maximum table drive • The maximum length of ram stroke • Number of speed • Number of feed • Table feed • Floor space required • The diameter of the Work Table in MM • kW of motor
Applications of Slotter Machine • Cutting grooves, keyways and slots of various shapes. • Used for making regular and irregular surfaces both internal and external. • For handling large and awkward workpiece. • For cutting internal or external gears and many other operations which cannot be easily machined in any other machine tool described before. • It is used for light Cuts
Advantages of Slotter Machine The advantages of Slotter machine are: • This is a light machine. • The tool uses here is a single-point cutting tool. • Low-cost machine. • Low Maintenance. • Accurate surface finish. • Machine efficiency is more.
Disadvantages of Slotter Machine The disadvantages of Slotter machine are: • Rigid in construction. • Skilled worker requires to operate.
FABRIKAM THANK YOU A L I R A Z A 2 0 1 7 - M E - 5 1 6 2 0 1 7 M E 5 1 6 @ s t u d e n t . u e t . e d u . p k

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Slotter machine

  • 1. Slotter Machine Machine Tools & Machining Mechanical Engineering D e p a r t m e n t
  • 3. Table of Contents: Slotter Machine Schematic Diagram Working Principle Types of Slotter Machine Labeled Diagram Parts Mechanism Operations Specifications Applications Advantages & Disdvantages
  • 4. Slotter Machine • Slotter machine is defined as a machine tool uses for removing unwanted material chips from the workpiece to make splines, grooves and more. • Here the Ram (Tool attached) moves reciprocating, whereas In shaper the ram moves horizontally.
  • 5. Schematic Diagram of Slotter Machine
  • 6. Working Principle of Slotter Machine • The ram is connected to the crank and crank connected to the gears. When we increase or decrease the gear speed, the rotation of crank increases and decreases. And as per these, the ram moves up and down. • Attach the workpiece into the work table and manually bring the ram near to the workpiece and according to the ram adjust the worktable and then clamp it. • Supply the power as per gear the crank rotates and the crank is connected to the ram so ram moves up and down. • During down (ram moves down) the cutting stroke takes place and while moving up or return stroke there is no cut.
  • 7. Types of Slotter Machine • There are mainly two types of slotter machine. • Puncher slotter. • Precision slotter. • Production Slotter • Special Purpose Slotter Machine
  • 8. Types of Slotter Machine | 1: Puncther Slotter • The puncher slotter machine is a heavy, rigid machine designed for removal of a large amount of metal from large forgings or castings. The length of stroke of a puncher slotter is sufficiently large. It may be as long as 1800 to 2000mm. • The puncher slotter ram is usually driven by a spiral pinion meshing with the rack teeth cut on the underside of the ram. The pinion is driven by a variable speed reversible electric motor similar to that of a planer. The feed is also controlled by electrical gears.
  • 9. Types of Slotter Machine | 2: Precision Slotter • The precision slotter machine is a lighter machine and is operated at high speeds. The machine is designed to take light cuts giving the accurate finish. • Using special jigs, the machine can handle a number of works on a production basis. The precision slotter machines are also used for general purpose work and are usually fitted with Whitworth quick return mechanism.
  • 10. Types of Slotter Machine | 3: Production Slotter • This type of slotter is used for machining tapered jobs by ram swivel to 10 to 30 degrees.
  • 11. Types of Slotter Machine |4 : Special Purpose Slotter • This type of slotter machines offer a high volume of production at low cost, also it gives greater accuracy too. • Key seater is one of the special purposes of slotter machines. It is used for machining keys on the wheel and gear hub.
  • 13. Parts of Slotter Machine The different parts of Slotter Machine are 1. Base. 2. Column. 3. Saddle. 4. Crosslide. 5. Rotating table. 6. Ram and tool head assembly. 7. Ram drive mechanism. 8. Feed mechanism
  • 14. Parts of Slotter Machine | 1: Base or Bed • The base is rigidly built to take up all the cutting forces and the entire load of the machine. • The top of the bed is accurately finished to provide guideways on which the saddle is mounted. • The guideways are perpendicular to the column face.
  • 15. Parts of Slotter Machine | 2: Column • The column is the vertical member which is cast integrally with the base and houses driving mechanism of the ram and feeding mechanism. • The front vertical face of the column is accurately finished for providing ways in which the ram reciprocates.
  • 16. Parts of Slotter Machine | 3: Saddle • The saddle is mounted upon the guideways and may be moved toward or away from the column either power or manual control to supply longitudinal feed to the work. • The top face of the saddle is accurately finished to provide guideways for the cross-slide. These guideways are perpendicular to the guideways on the base.
  • 17. Parts of Slotter Machine | 4: Cross-Slide • The cross-slide is mounted upon the guideways of the saddle and maybe moved parallel to the face of the column. • The movement of the slide may be controlled either by hand or power to supply crossfeed.
  • 18. Parts of Slotter Machine | 5: Rotary Table • The rotary table is a circular table which is mounted on the top of the cross-slide. • The table may be rotated by rotating a worm which meshes with a worm gear connected to the underside of the table. • The rotation of the table may be effected either by hand or power. In some • In some machines, the table is graduated in degrees that enable the table to be rotated for indexing or diving the periphery of a job in the equal number of parts. • T-slots are cut on the top face of the table for holding the work by different clamping devices. The rotary table enables a circular or contoured surface to be generated on the workpiece.
  • 19. Parts of Slotter Machine | 6: Ram and Toolhead Assembly • The ram is the reciprocating member of the machine mounted on the guideways of the column. It supports the tool at its bottom end on a tool head. • A slot is cut on the body of the ram for changing the position of the stroke. • In some machines, special type for tool holders is provided to relieve the tool during its return stroke.
  • 20. Parts of Slotter Machine | 7: Ram Drive Mechanism • A slotter removes metal during downward cutting stroke only whereas during upward return stroke no metal is removed. The reduce the idle return time quick return mechanism is incorporated in the machine. The usual types of ram drive mechanism are, • Whitworth quick return mechanism. • Variable speed reversible motor drive mechanism. • Hydraulic drive mechanism.
  • 21. Parts of Slotter Machine | 8: Feed Drive • It provides the arrangement of longitudinal and cross–a feed of the table either by power or manual. • It also provides the arrangement of circular or rotary feeding of the table on a vertical axis. • Intermittent feeding of the table is supplied at the beginning of each cutting or forward stroke of the ram.
  • 22.
  • 23. Whitworth quick return mechanism • The bull gear is mounted on a fixed hub at the rear end of the machine and it is rotated by a driving pinion from the motor. The driving plate is connected to the main shaft through the fixed hub. The main shaft is placed eccentrically with respect to the bull gear centre. • The bull gear holds the crankpin with sliding block and slides in a driving plate. So that when the bull gear rotates, imparts rotary motion to the driving plate and shaft causing the disc to rotate at the end of the main shaft. • The disc is connected to the lower end of the connecting rod eccentrically by means of a pin in a radial T-slots on the face of the disc, which converts the rotary motion of the disc into reciprocating motion of the ram connected to the top end of the connecting rod.
  • 24. Principle of Quick Return Mechanism • The principle of quick return mechanism can be explained simply by a line diagram. A and B are the fixed centres of the bull gear and the driving plate. The crack pin and the slide block rotate in a circular path at a constant speed in a driving plate about B. This causes the disc to rotate through the main shaft. • If the bull gear rotates in an anticlockwise direction and the slide block rotates through an angle CAD, the ram performs downward cutting stroke, whereas when the block rotates through an angle DAC the ram perform return stroke.
  • 25. Slotter Machine Operations 1. Machining cylindrical surface. 2. Flat surface Machining. 3. Machining irregular surface and cam machining. 4. Machining slots, keyways and grooves.
  • 26. Operations | 1: Flat Surface Machining • The external and internal flat surfaces may be generated on a workpiece easily in a slotter machine. The work to be machined is supported on parallel strips so that the tool will have clearance with the table when it is at the extreme downward position of the stroke. • The work is then clamped properly on the table and the position and the length of the stroke is adjusted. A clearance of 20 to 25mm is left before the beginning of cutting stroke, so that the feeding movement may take place during this idle part of the stroke.
  • 27. Operations | 2: Machining Circular Surfaces • The external and internal surface of a cylinder can also be machined in a slotter machine. The work is placed centrally on the rotary table and packing pieces and clamps are used to hold the work securely on the table. • The tool is set radially on the work and necessary adjustments of the machine and the tool are made. The saddle is clamped in its position and the machine is started. While machining, the feeding is done by the rotary table feed screw which rotates the able through a small arc at the beginning of each cutting stroke.
  • 28. Operations | 2: Machining Irregular Surfaces or Cams • The work is set on the table and necessary adjustments of the tool and the machine are made as detailed in other operation. By combining cross, longitudinal and rotary feed movements of the table any contoured surface can be machined on a workpiece.
  • 29. Operations | 4 : Machining Grooves or Keyways • Internal and external grooves are cut very conveniently machine. A slotter is specially intended for cutting internal grooves which are difficult to produce in other machines. • External or internal gear teeth can also be machined in a slotter by cutting equally spaced grooves on the periphery of the work. The indexing or dividing the periphery of the work is done by the graduations on the rotary table.
  • 30. Slotter Machine Specifications • Power Input • Type of drive • Maximum table drive • The maximum length of ram stroke • Number of speed • Number of feed • Table feed • Floor space required • The diameter of the Work Table in MM • kW of motor
  • 31. Applications of Slotter Machine • Cutting grooves, keyways and slots of various shapes. • Used for making regular and irregular surfaces both internal and external. • For handling large and awkward workpiece. • For cutting internal or external gears and many other operations which cannot be easily machined in any other machine tool described before. • It is used for light Cuts
  • 32. Advantages of Slotter Machine The advantages of Slotter machine are: • This is a light machine. • The tool uses here is a single-point cutting tool. • Low-cost machine. • Low Maintenance. • Accurate surface finish. • Machine efficiency is more.
  • 33. Disadvantages of Slotter Machine The disadvantages of Slotter machine are: • Rigid in construction. • Skilled worker requires to operate.
  • 34. FABRIKAM THANK YOU A L I R A Z A 2 0 1 7 - M E - 5 1 6 2 0 1 7 M E 5 1 6 @ s t u d e n t . u e t . e d u . p k