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IRJET- Design, Development and Manufacturing of Tangential Feed for a CNC Gear Hobbing Machine

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International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4910 Design, Development and Manufacturing of Tangential Feed for a CNC Gear Hobbing Machine Atharva Thakare1*, Abhishek Gaikwad2, Kshitij Tanode3, Ashmeetsingh Rekhi4, Ashwin Chandore5 1234Students, Department of Mechanical Engineering, MIT-Academy of Engineering, Pune, Maharashtra, India 5Faculty, Department of Mechanical Engineering, MIT-Academy of Engineering, Pune, Maharashtra, India ---------------------------------------------------------------------***---------------------------------------------------------------------- Abstract - Present world isheadingtowardsautomation for accurate production. CNC hobbing is an excellent technique use for production of gears with high accuracy. If industries are using conventional gear hobbing process then there is a need to replace it with a CNC gear hobbing by using NC codes and program logic unit. Hence to achieve higher and economical production. It is so convenient andeasierthan any other process. Gear hobbing is a generating process. The term generating refers to the fact that the gear toothformcutis not the conjugate form of the cutting tool, the hob. By using fixture, ball screw, servo motors we improve it. Backlasherror eradication as well as high work piece job accuracy has been achieved due to implementation of this ball screw system for CNC Machine as well as carried out various design validation processes to provide high result. After transformation in gear hobbing machine the test results show that computerized numerical control transformation which helps to improve efficiency and life span of machine and make effortless machine. Key Words: Gear hobbingmachine, ballscrew, backlasherror, servo motors 1. Introduction In today’s automotive world and by considering improvement in technology each and every core based industry need to improve the performance of company and in this automation world CNC is one the best and efficient technology is glowing. It’s exactly economical but it’s a time saving machine as compared to old conventional machine which makes it more useful than any other manufacturing process. While it will be good to do retro activation in machine to make it faster and versatile. Retro activation is define add or fit the component else accessory to something that did not have it when it was manufactured. basically it is refitting procces.it means we are going to update the system with a new technology to improve the performance by exchanging old technology and add the sensors, motors and every important thing that makes it better with increase in efficiency.so because of retrofitting we get manyadvantages which introduce new technology[1]. Hobbing is most popular method of cutting teethon gear which produce helical and spur gear this method have anticipated benefits than others include lower cost investment. Hobbing CNC Having a hobber to cut the teeth on gear we can give any feed to gear as per the type of gear which is to be manufactured [2]. Generally CNC hobbing have bed and column having all setup is having on it. Where with the help of hob we can cut the desirable type of gear by using programing we can cut teeth in anglealsoandthisisso quick as compared to conventional machining process. The opportunity to manufacture gears to a high qualityaremuch improved with CNC ControlledhobbingMachines,Sincethey have reduced transmission errorreducedset-uptime,better reliability, and thus reduced cost. New generation machines are based are based on Computer numerical control where the axes are synchronized with electronic gear box. There are both hobbing machines available automated and non- automated [3]. Types of Feed Types of feed in a CNC type Gear Hobbing Machines are: a. Axial Feed b. Radial Feed Different types of axis in a CNC gear hobbing machine are: a. Spindle rotation (clockwise and anti-clockwise) b. Table rotation (clockwise and anti-clockwise) c. Axial type d. Radial type e. Hob shifting (Tangential) f. Swelling axis (angle for helical gear) So this Study will include the modeling of tangential feed drive in an Industrial CNC Gear Hobbing Machine. Design Methodology  Selection of Ball Screw  Selection of Bearings  Selection of Bearing Housing  Assembly Literature Survey Delvadiya et al. said that Instead of buying a new CNC gear hobbing machine it is more convenient to convert the old conventional machine into CNC by programmable logical controllers and servo mechanisms. This will lead to higher productivity and as well as more economic.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4911 Sethi et al. said that as to increase the productivityit is necessary to reduce the time required for the fixture settings, and to design a common fixture which can be used for all the gears. This will depend on design expertise and there optimal solution which they provides. Kulkarni et al. said that as there is demand for higher productivity and also tolerances should be tight it requires machine tools which are faster and veryaccurateat feed drive systems. As ball screw drive systems are used majority of machines, this system is tested several time.And it is used vastly because of its low cost and higher accuracy. 2. Principle of PA300 Gear Hobbing The PA300 CNC gear hobbing machine was originally a conventional gear cutting machine. PA300 having twoskew spindle, which is mounted with a blank work piece and another with the hob. The conventional hob is made of high- speed steel which is hardened and may be ground on the form. It can be like to an involute worm provided withflutesusuallyatright angles to helix. It also having lead screw, lead screw is known as power screw which used to translate turning or linear motion but it having more friction energy losses as compared to other systems. On other hand it having large load carrying capacity, minimum no. of parts and most are self- locking apart from this they are not so efficient so due to less efficiency they are not suitable to be used in continuous power transmission applications. They are also having high degree of frictiononthethreads,whichcanwear out threads quickly. And conventional hobbing drives with one main motor with working gear, hydraulic system, working table, cooling. The worktable is mounted on a very big bearing surface to boost cutting forces produce by hob. The arrangement is suitable for conventional hobbing. Hob shifting regulator is there. Limit switches use as a signal switches. An electric pumpprovidesthecoolantto the hob during cutting. Front panel of machine, a switch panel is fitted. Principle behindhobbingin whichcontinuous progression of gear cutting is going in a mesh with hob, progressively cutting all theteethata constanttime.Because of rotation of hob desired type of gear with no. of teethcould produce. Gear should be adjusted withtransmissionrelation therefore the teeth no. of created gears. Once the gear is modified, the modification of gear is calculated and manufactured. After that if error will occur it will fix it. The arrangement and model of PA300 is shown below. Fig -1: Gear Hobbing Machine Catia Model (PA300) 3. Design of PA300 Gear Hobbing Characteristics of ball screw are as follows: a. More mechanical efficiency: The forces which is used to rotate the screw shaft it can also be used to move the nut of ball screw. b. Less in wear: As there is a rolling contact wear is very less than that of sliding contact. This tends to less rotation accuracy. c. Less in tear: Ball screws can also move better in very low speed application. Thus it can be used in high load applications easily [4]. Maximum stroke of column: 300 mm Minimum stroke of column: 50 mm Total effective stroke of the column: 300 – 50 = 250 mm Nut length = 200 mm Clearance distance = 10 mm Total length of Ball screw = 250 + 190 + 10 = 450 mm Take total Safe length = 460 mm Length of Total shaft = 460mm. The above dimensions of ball screw are shown in below figure. Fig -2: Shaft Design Layout
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4912 Bearings The bearing details given by the manufacturewasBS40M90. Hence we have done the calculations to check the suitability. Selection criterion of bearing is as follows: a. Available Space b. Load c. Speed and Friction d. Misalignment e. Temperature f. Precision g. Stiffness h. Mounting and Dismounting i. Integral sealing j. Cost and Availability [5][6] Machine Specifications Given By Manufacturer were as follows: a. Power Transmitted : 20 KW b. Speed of motor shaft: 1000 rpm c. Shaft diameter : 45 mm d. Type of Load : Axial and Radial Types of Loads Acting On Bearing: Axial Load: Due to Column and Hob Head Weight Radial Load: Is Almost Negligible Fa = 2600 N. Fr = 110 N. Internal Diameter of Bearing: 45 mm. Outer Diameter of Bearing: 95 mm. Thickness (b) = 25 mm Basic static Load capacity (C0) = 92000 N Basic dynamic load capacity(C) = 61000 N Load application factor: Ka = 1.05 for timing belt drive [6]. Bearing calculation validation is as follows. Fa/C0 = 2600/92000 = 0.02826 Factor X = 0.56 Factor Y = 1.875 Equivalent dynamic load is: Pe = (X*Fr +Y*Fa)* Ka Pe = 5183.43N Calculating life of bearing according to type of application L10h = 24000 hrs L10 = L10h*60 *N/106 L10 = 24000*60*1000/106 L10 = 1400 m rev. Required dynamic load capacity (Cr): L10 = (Cr/Pe) ^a where a = 3, for ball bearing L10 = (Cr/Pe)^a 1400 = Cr/5167.58^3 Cr= 57986.45N. If C > Cr, Bearing selected is suitable. Here c>cr. Hence selected bearing is suitable for application [7]. Bearing Housing  Checking of the housing is done by checking the conversion of rotary motion to the linear motion.  Also we should have to fix the shaft to check whether it is not moving with the column. If it is moving then it will create the backlash error.  Then with considering the available length of column and bearing housing mount design of the bearing housing started.  After all the procedures and considerations we are done with design of bearing housing. Design process of bearing housing is as follows:  Very firstly we have assembled the column on the bed. Then we inserted the screw shaft in the column. At that time there was 250mm size left on the bed for the bearing housing.  As per design considerations for the proper and perfect support we have selected odd number of bearings.  The placing of the bearing, preload caps and the spacers is as shown in the fig-3 which illustratesthe internal structure of the bearing housing.  The thickness of the preload cap as per issued design was 15mm followed by a 25mm thick bearing.  As per our ID and OD of the shaft we placed the spacers of 10mm thickness. And in-between the spacer we have inserted the second and third bearing.  As mentioned above the numberofbearingselected was odd the reason behind this was there is restricted space in the bearing housing else we could have selected even number of bearings.  As our shaft is 150mm long we designed the internal structure of bearing housing of 125mm. next to that we inserted the crown nut and a quarter pin to hold both bearings as well as crown nut. The main advantage of the quarter pin is it avoids the slippage.  As per our calculations and the design we manufactured the ball screw from the outside manufacturer. The total length of shaft as mentioned in ball screw calculations was 460mm and the mounting in the bearing housing is of 150mm. The nut length as per the manufacturers catalog was 200mm.  The structure inside of the bearing housing is shown in the figure.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4913 Fig -3: Inner Bearing Housing Structure  As the calculations are validated bearing was selected we started with the design of the earing housing in the CATIA. The area of 280*280 was taken under consideration while designing on software. Material of bearing as mentioned in the catalog was FG260.  EN-8 is the material which was used by the manufacturer. Thisisstrengthenedthanscrewshaft (56HRC). Ii was also case hardened from 1.3mm to 1.6mm. As the manufacturingprocessofthebearing housing is done we have done assembly and mounting of housing.  After this all manufacturingandassemblyprocesses we have ordered our selected bearing which is screw type support bearing from the IBC. And finally we have designed and developed the tangential feed system for the machine PA-300. Fig -4: Bearing Housing Model 4. Manufacturing and Assembly The following model shows the manufactured tangential feed system.  Ball screw and bearings As per the design and the calculations the final bearings and the ball screw was selected. This selected ball screw and bearingsweorderedfromoutsidevendor [8].  Bearing housing The material used for this was grey ironcasting (FG260).  Other parts This is mainly consists of spacers and preloading caps. It is generally made up of toughened steel (EN8) [9]. Fig -5: Tangential Feed Model Pre-Assembly and Alignment is as follows:  In this process column is mounted on the bed and ball screw system on the column.  The male guide way of the bed must match with the female guide way of the column. a. Scraping: - These processes helped in filling up minute gaps present over the surface and provide a flat surface. b. Lapping: - It is a conventional processdone by workers hand movement. It consists of rubbing of two surfacestogethertoachieve higher accuracy of surface finish. Final assembly process is as follows: After the alignment process, we mount the bearing housing. We insert the bearings and spacer into the structure. Preloading caps are been mounted such as to preload the bearings and eradicate the back lash error. To protect the balls in the ball screw from the dust particles balls are kept
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4914 in the closed enclosure of grease. This enclosure is generally sealed. Limit scale is used to check the accuracy of stroke and notify the user via FANUC coding. As the machine is CNC we have used several limit switches to define the initial stroke of column. After the housing is been mounted over, the machine is run and carry out about 65-75 jobs over. This helps us to find the accuracy of the entire machine. Fig 6- Final Tangential Assembly 5. CONCLUSIONS We have designed a Tangential feed system for a CNC Recirculating ball screw system to convertthe rotarysystem into a linear system. We carried various design iterations over the bearing housing in order to minimize the motor vibrations and hold the shaft. Using a lead screw causeshigh back lash error which was eradicated by using a Recirculating ball screwsystem. Wesuccessfullyreduced the back lash error from 0.5mm to 3microns. Thus to achieve a higher mechanical efficiency and low wear and tear, a Recirculating ball screw system is been used in a Gear hobbing Machine. We turned this conventional hobbing machine to a CNC gear hobbing machine. Hence we have achieved and successfully developed a highly optimized, backlash error free CNC hobbing machine which will provide greater accuracy as compared to the conventional system. Acknowledgement This project is sponsored by Ark Machtek Pvt Ltd, Chakan MIDC, Pune, MS, India 410501. References [1] Parth V Delvadiya, Thakkar Vikas, Panchal Ankit, Automation of gear hobbing Machine, 2017 IJEDR | Volume 5, Issue 3 | ISSN: 2321-9939 [2] Amar Raj Singh Suri*, A.P.S. Sethi, October 2012, Development of Gear Hobbing Fixture Design for Reduction in Machine Setting Time,International Journal of Scientific and Research Publications, Volume 2, Issue 10, ISSN 2250-3153 [3] K.V.S. Seshendra Kumar,Issue9,September2012Design of Gear Cutting Fixtures for CNC Gear Hobbing Machine, International Journal of Scientific and Research Publications, Volume 2, 1 ISSN 2250-3153M. [4] Supriya Kulkarni, May 2015 Recirculating Ball Screw by, ISSN 2319-5991 Vol. 4, No. 2 [5] Bandari V B, Design of Machine Elements 2nd Edition, TATA McGraw Hill. [6] IBC bearing charts. [7] Prajwal Nayak, Abhijeet Mandavgane, Susmit Nichat, Pawan KulkarniDesign Methodology AndAssemblyForA Radial Feed In A CNC Gear Hobbing Machine, e-ISSN: 2395-0056 p-ISSN: 2395-0072 Volume: 05 Issue: 03 | Mar-2018 [8] Nannan Xua, WenCheng Tangb, 30-10-2014, Modeling and Analyzing the Slipping of the Ball Screw, http://dx.doi.org/10.1590/1679-78251292 [9] Manish Patil, June 2017, Design Calculation of Precision Ball Screw for Portable CNC Machine by IJIRST – International Journal for Innovative ResearchinScience & Technology| Volume 4 | Issue 1 |

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IRJET- Design, Development and Manufacturing of Tangential Feed for a CNC Gear Hobbing Machine

  • 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4910 Design, Development and Manufacturing of Tangential Feed for a CNC Gear Hobbing Machine Atharva Thakare1*, Abhishek Gaikwad2, Kshitij Tanode3, Ashmeetsingh Rekhi4, Ashwin Chandore5 1234Students, Department of Mechanical Engineering, MIT-Academy of Engineering, Pune, Maharashtra, India 5Faculty, Department of Mechanical Engineering, MIT-Academy of Engineering, Pune, Maharashtra, India ---------------------------------------------------------------------***---------------------------------------------------------------------- Abstract - Present world isheadingtowardsautomation for accurate production. CNC hobbing is an excellent technique use for production of gears with high accuracy. If industries are using conventional gear hobbing process then there is a need to replace it with a CNC gear hobbing by using NC codes and program logic unit. Hence to achieve higher and economical production. It is so convenient andeasierthan any other process. Gear hobbing is a generating process. The term generating refers to the fact that the gear toothformcutis not the conjugate form of the cutting tool, the hob. By using fixture, ball screw, servo motors we improve it. Backlasherror eradication as well as high work piece job accuracy has been achieved due to implementation of this ball screw system for CNC Machine as well as carried out various design validation processes to provide high result. After transformation in gear hobbing machine the test results show that computerized numerical control transformation which helps to improve efficiency and life span of machine and make effortless machine. Key Words: Gear hobbingmachine, ballscrew, backlasherror, servo motors 1. Introduction In today’s automotive world and by considering improvement in technology each and every core based industry need to improve the performance of company and in this automation world CNC is one the best and efficient technology is glowing. It’s exactly economical but it’s a time saving machine as compared to old conventional machine which makes it more useful than any other manufacturing process. While it will be good to do retro activation in machine to make it faster and versatile. Retro activation is define add or fit the component else accessory to something that did not have it when it was manufactured. basically it is refitting procces.it means we are going to update the system with a new technology to improve the performance by exchanging old technology and add the sensors, motors and every important thing that makes it better with increase in efficiency.so because of retrofitting we get manyadvantages which introduce new technology[1]. Hobbing is most popular method of cutting teethon gear which produce helical and spur gear this method have anticipated benefits than others include lower cost investment. Hobbing CNC Having a hobber to cut the teeth on gear we can give any feed to gear as per the type of gear which is to be manufactured [2]. Generally CNC hobbing have bed and column having all setup is having on it. Where with the help of hob we can cut the desirable type of gear by using programing we can cut teeth in anglealsoandthisisso quick as compared to conventional machining process. The opportunity to manufacture gears to a high qualityaremuch improved with CNC ControlledhobbingMachines,Sincethey have reduced transmission errorreducedset-uptime,better reliability, and thus reduced cost. New generation machines are based are based on Computer numerical control where the axes are synchronized with electronic gear box. There are both hobbing machines available automated and non- automated [3]. Types of Feed Types of feed in a CNC type Gear Hobbing Machines are: a. Axial Feed b. Radial Feed Different types of axis in a CNC gear hobbing machine are: a. Spindle rotation (clockwise and anti-clockwise) b. Table rotation (clockwise and anti-clockwise) c. Axial type d. Radial type e. Hob shifting (Tangential) f. Swelling axis (angle for helical gear) So this Study will include the modeling of tangential feed drive in an Industrial CNC Gear Hobbing Machine. Design Methodology  Selection of Ball Screw  Selection of Bearings  Selection of Bearing Housing  Assembly Literature Survey Delvadiya et al. said that Instead of buying a new CNC gear hobbing machine it is more convenient to convert the old conventional machine into CNC by programmable logical controllers and servo mechanisms. This will lead to higher productivity and as well as more economic.
  • 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4911 Sethi et al. said that as to increase the productivityit is necessary to reduce the time required for the fixture settings, and to design a common fixture which can be used for all the gears. This will depend on design expertise and there optimal solution which they provides. Kulkarni et al. said that as there is demand for higher productivity and also tolerances should be tight it requires machine tools which are faster and veryaccurateat feed drive systems. As ball screw drive systems are used majority of machines, this system is tested several time.And it is used vastly because of its low cost and higher accuracy. 2. Principle of PA300 Gear Hobbing The PA300 CNC gear hobbing machine was originally a conventional gear cutting machine. PA300 having twoskew spindle, which is mounted with a blank work piece and another with the hob. The conventional hob is made of high- speed steel which is hardened and may be ground on the form. It can be like to an involute worm provided withflutesusuallyatright angles to helix. It also having lead screw, lead screw is known as power screw which used to translate turning or linear motion but it having more friction energy losses as compared to other systems. On other hand it having large load carrying capacity, minimum no. of parts and most are self- locking apart from this they are not so efficient so due to less efficiency they are not suitable to be used in continuous power transmission applications. They are also having high degree of frictiononthethreads,whichcanwear out threads quickly. And conventional hobbing drives with one main motor with working gear, hydraulic system, working table, cooling. The worktable is mounted on a very big bearing surface to boost cutting forces produce by hob. The arrangement is suitable for conventional hobbing. Hob shifting regulator is there. Limit switches use as a signal switches. An electric pumpprovidesthecoolantto the hob during cutting. Front panel of machine, a switch panel is fitted. Principle behindhobbingin whichcontinuous progression of gear cutting is going in a mesh with hob, progressively cutting all theteethata constanttime.Because of rotation of hob desired type of gear with no. of teethcould produce. Gear should be adjusted withtransmissionrelation therefore the teeth no. of created gears. Once the gear is modified, the modification of gear is calculated and manufactured. After that if error will occur it will fix it. The arrangement and model of PA300 is shown below. Fig -1: Gear Hobbing Machine Catia Model (PA300) 3. Design of PA300 Gear Hobbing Characteristics of ball screw are as follows: a. More mechanical efficiency: The forces which is used to rotate the screw shaft it can also be used to move the nut of ball screw. b. Less in wear: As there is a rolling contact wear is very less than that of sliding contact. This tends to less rotation accuracy. c. Less in tear: Ball screws can also move better in very low speed application. Thus it can be used in high load applications easily [4]. Maximum stroke of column: 300 mm Minimum stroke of column: 50 mm Total effective stroke of the column: 300 – 50 = 250 mm Nut length = 200 mm Clearance distance = 10 mm Total length of Ball screw = 250 + 190 + 10 = 450 mm Take total Safe length = 460 mm Length of Total shaft = 460mm. The above dimensions of ball screw are shown in below figure. Fig -2: Shaft Design Layout
  • 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4912 Bearings The bearing details given by the manufacturewasBS40M90. Hence we have done the calculations to check the suitability. Selection criterion of bearing is as follows: a. Available Space b. Load c. Speed and Friction d. Misalignment e. Temperature f. Precision g. Stiffness h. Mounting and Dismounting i. Integral sealing j. Cost and Availability [5][6] Machine Specifications Given By Manufacturer were as follows: a. Power Transmitted : 20 KW b. Speed of motor shaft: 1000 rpm c. Shaft diameter : 45 mm d. Type of Load : Axial and Radial Types of Loads Acting On Bearing: Axial Load: Due to Column and Hob Head Weight Radial Load: Is Almost Negligible Fa = 2600 N. Fr = 110 N. Internal Diameter of Bearing: 45 mm. Outer Diameter of Bearing: 95 mm. Thickness (b) = 25 mm Basic static Load capacity (C0) = 92000 N Basic dynamic load capacity(C) = 61000 N Load application factor: Ka = 1.05 for timing belt drive [6]. Bearing calculation validation is as follows. Fa/C0 = 2600/92000 = 0.02826 Factor X = 0.56 Factor Y = 1.875 Equivalent dynamic load is: Pe = (X*Fr +Y*Fa)* Ka Pe = 5183.43N Calculating life of bearing according to type of application L10h = 24000 hrs L10 = L10h*60 *N/106 L10 = 24000*60*1000/106 L10 = 1400 m rev. Required dynamic load capacity (Cr): L10 = (Cr/Pe) ^a where a = 3, for ball bearing L10 = (Cr/Pe)^a 1400 = Cr/5167.58^3 Cr= 57986.45N. If C > Cr, Bearing selected is suitable. Here c>cr. Hence selected bearing is suitable for application [7]. Bearing Housing  Checking of the housing is done by checking the conversion of rotary motion to the linear motion.  Also we should have to fix the shaft to check whether it is not moving with the column. If it is moving then it will create the backlash error.  Then with considering the available length of column and bearing housing mount design of the bearing housing started.  After all the procedures and considerations we are done with design of bearing housing. Design process of bearing housing is as follows:  Very firstly we have assembled the column on the bed. Then we inserted the screw shaft in the column. At that time there was 250mm size left on the bed for the bearing housing.  As per design considerations for the proper and perfect support we have selected odd number of bearings.  The placing of the bearing, preload caps and the spacers is as shown in the fig-3 which illustratesthe internal structure of the bearing housing.  The thickness of the preload cap as per issued design was 15mm followed by a 25mm thick bearing.  As per our ID and OD of the shaft we placed the spacers of 10mm thickness. And in-between the spacer we have inserted the second and third bearing.  As mentioned above the numberofbearingselected was odd the reason behind this was there is restricted space in the bearing housing else we could have selected even number of bearings.  As our shaft is 150mm long we designed the internal structure of bearing housing of 125mm. next to that we inserted the crown nut and a quarter pin to hold both bearings as well as crown nut. The main advantage of the quarter pin is it avoids the slippage.  As per our calculations and the design we manufactured the ball screw from the outside manufacturer. The total length of shaft as mentioned in ball screw calculations was 460mm and the mounting in the bearing housing is of 150mm. The nut length as per the manufacturers catalog was 200mm.  The structure inside of the bearing housing is shown in the figure.
  • 4. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4913 Fig -3: Inner Bearing Housing Structure  As the calculations are validated bearing was selected we started with the design of the earing housing in the CATIA. The area of 280*280 was taken under consideration while designing on software. Material of bearing as mentioned in the catalog was FG260.  EN-8 is the material which was used by the manufacturer. Thisisstrengthenedthanscrewshaft (56HRC). Ii was also case hardened from 1.3mm to 1.6mm. As the manufacturingprocessofthebearing housing is done we have done assembly and mounting of housing.  After this all manufacturingandassemblyprocesses we have ordered our selected bearing which is screw type support bearing from the IBC. And finally we have designed and developed the tangential feed system for the machine PA-300. Fig -4: Bearing Housing Model 4. Manufacturing and Assembly The following model shows the manufactured tangential feed system.  Ball screw and bearings As per the design and the calculations the final bearings and the ball screw was selected. This selected ball screw and bearingsweorderedfromoutsidevendor [8].  Bearing housing The material used for this was grey ironcasting (FG260).  Other parts This is mainly consists of spacers and preloading caps. It is generally made up of toughened steel (EN8) [9]. Fig -5: Tangential Feed Model Pre-Assembly and Alignment is as follows:  In this process column is mounted on the bed and ball screw system on the column.  The male guide way of the bed must match with the female guide way of the column. a. Scraping: - These processes helped in filling up minute gaps present over the surface and provide a flat surface. b. Lapping: - It is a conventional processdone by workers hand movement. It consists of rubbing of two surfacestogethertoachieve higher accuracy of surface finish. Final assembly process is as follows: After the alignment process, we mount the bearing housing. We insert the bearings and spacer into the structure. Preloading caps are been mounted such as to preload the bearings and eradicate the back lash error. To protect the balls in the ball screw from the dust particles balls are kept
  • 5. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 04 | Apr 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 4914 in the closed enclosure of grease. This enclosure is generally sealed. Limit scale is used to check the accuracy of stroke and notify the user via FANUC coding. As the machine is CNC we have used several limit switches to define the initial stroke of column. After the housing is been mounted over, the machine is run and carry out about 65-75 jobs over. This helps us to find the accuracy of the entire machine. Fig 6- Final Tangential Assembly 5. CONCLUSIONS We have designed a Tangential feed system for a CNC Recirculating ball screw system to convertthe rotarysystem into a linear system. We carried various design iterations over the bearing housing in order to minimize the motor vibrations and hold the shaft. Using a lead screw causeshigh back lash error which was eradicated by using a Recirculating ball screwsystem. Wesuccessfullyreduced the back lash error from 0.5mm to 3microns. Thus to achieve a higher mechanical efficiency and low wear and tear, a Recirculating ball screw system is been used in a Gear hobbing Machine. We turned this conventional hobbing machine to a CNC gear hobbing machine. Hence we have achieved and successfully developed a highly optimized, backlash error free CNC hobbing machine which will provide greater accuracy as compared to the conventional system. Acknowledgement This project is sponsored by Ark Machtek Pvt Ltd, Chakan MIDC, Pune, MS, India 410501. References [1] Parth V Delvadiya, Thakkar Vikas, Panchal Ankit, Automation of gear hobbing Machine, 2017 IJEDR | Volume 5, Issue 3 | ISSN: 2321-9939 [2] Amar Raj Singh Suri*, A.P.S. Sethi, October 2012, Development of Gear Hobbing Fixture Design for Reduction in Machine Setting Time,International Journal of Scientific and Research Publications, Volume 2, Issue 10, ISSN 2250-3153 [3] K.V.S. Seshendra Kumar,Issue9,September2012Design of Gear Cutting Fixtures for CNC Gear Hobbing Machine, International Journal of Scientific and Research Publications, Volume 2, 1 ISSN 2250-3153M. [4] Supriya Kulkarni, May 2015 Recirculating Ball Screw by, ISSN 2319-5991 Vol. 4, No. 2 [5] Bandari V B, Design of Machine Elements 2nd Edition, TATA McGraw Hill. [6] IBC bearing charts. [7] Prajwal Nayak, Abhijeet Mandavgane, Susmit Nichat, Pawan KulkarniDesign Methodology AndAssemblyForA Radial Feed In A CNC Gear Hobbing Machine, e-ISSN: 2395-0056 p-ISSN: 2395-0072 Volume: 05 Issue: 03 | Mar-2018 [8] Nannan Xua, WenCheng Tangb, 30-10-2014, Modeling and Analyzing the Slipping of the Ball Screw, http://dx.doi.org/10.1590/1679-78251292 [9] Manish Patil, June 2017, Design Calculation of Precision Ball Screw for Portable CNC Machine by IJIRST – International Journal for Innovative ResearchinScience & Technology| Volume 4 | Issue 1 |