💫CREO TUTORIAL #5 || Design and assembly of Knuckle Joint in creo parametric.

Video Statistics and Information

Video
Captions Word Cloud
Reddit Comments
Captions
[Music] hello everyone in this video we will make an apple joint assembly using the creo parametric now before going to make an assembly first we will make a working directory so that all the components of the knuckles and assembly that we will make will be served in that particular folder so that when we want to make an assembly all the parts should be easily accessible to us while making the assembly so here you can find the select working directory click on that now here we will select the desktop and here we'll create a new folder and we'll name it as a knuckle joint and then click on OK and ok now we will first create for kind of the knuckle joint so click here new then uncheck this here ok then here very meter kg second and then ok now before creating a part we'd first offset a plane parallel to the top plane and at a distance of 18 mm so we'll go to the plane then select the top plane and the distance is 80 mm and then click on OK after making a plane we'll use the extrude so go to the model and select extrude now we'll draw two concentric circles so click on the circle and draw two concentric circles with the origin as a center and here the inner circle has a diameter of 13 mm and outer circle has a diameter of 60 mm and then click on OK here the depth of the extrusion is 22 mm so enter here 22 and then click on ok after making this we have to married about the top lane for that click on the mirror and then select the top plan and then click on OK after making these we have to sketch a cow on the front plane about which we will sweeper cross section for that click on the sketch then select here front plane and then sketch now here before making the sketch we will give the references to some edges so click on the references then click on the upper edge then this lower edge and these two side edges then we'll close it now we will make a circle with the diameter of such that it will tangent to both the upper and lower reference line so we have created this now the distance of the center of the circle from the origin is 38 mm so we'll go to the normal then click on the centre of the circle then press ctrl then click on the origin and then press scroll border now this distance is 38 mm now after making this we will trim 100 segments for that really use the delete segment and then we will delete all the unwanted segments now we will make two horizontal lines to complete the cow for that we'll click on the line and then we'll draw two horizontal lines and then we'll click on OK now we click on the sweep and select the section now here we'll draw a section which we want to sweep all the call that we have drawn in the early sketch so here we will draw a sketch using the line now here first we will draw here and open rectangle now here this distance is 18 M the total distance is 36 mm and here it is 22 mm now we will close it by a line and then click on OK so here you can see that there is some gap in between the early entity and the entity that we have made by the sweep now in order to remove this we'll go to the options and click on the merge ends so here you can say that it is perfectly attached to the prior entity then click on OK now after that we will make a plane which is parallel to the right plane and at a distance of 147 so click on the plane then select the right plane and here the distance of this plan from the right plane is 147 mm so enter here 147 and then click on OK after making a plan we'll select extrude and then we will give the reference to this operate then we'll close it now we'll draw a circle with Center lies on the origin and which is pendent to the reference geometry then we'll close now here the depth of extrusion is up to this portion so here in this drop-down box we'll select extrude up to the next surface and then we'll click on OK now after making this we will click on the actual and then we'll select front plane now we will give the references to the upper edge and his side and then we'll close it now we'll draw a closed section using the line and circle so first we will start from here and first we will draw a vertical line then a horizontal length now vertical line has a length of 2 mm horizontal line has a length of 38 mm and now we'll draw a circle so here we will click on the circle then we'll draw a circle now we'll be with the tangency to this circle to the horizontal line so click on the tangency then click on the circle and then click on the horizontal line here the distance of the center of the circle from the reference line is also 38 mm so we'll give it 38 now we will draw a cross horizontal line in order to complete the section so we will create a horizontal line like such now we will trim unwanted segments so we will click on the delete segment and we will delete all the unwanted segments now here our sketch is completed and now we'll click on OK now here from the drop down list we have to select here extrude on both the sides and then we will click on the remove material and then click on OK now we have to make pattern of 6 such extrude cut so we'll click on the pattern then return then here we will select the access pattern now here we have to choose the axis around which the pattern will be made so here we will select this axis and here we have to give the number that we want to make the pattern so here it is 6 and we will click on the angle then click on ok so here we have made successfully our first part which is the 4 and now we'll close save it so go to the file then click on the service here you can see that it will be automatically saved to the folder that we have made using the working directory which is the desktop and Epogen now here we'll name it as a fork end and then we'll click on ok now we'll close it and we'll make the second part which is the I n so we'll close it and click on the new here we will uncheck this click on ok and here select millimeter kg second and then ok now first we'll go to the model then click on the extra and select the top plane now we will create two concentric circles so we will create two concentric circles having the diameter of 30 mm and 60 M so here it is 30 mm and it is 60 mm now we'll click on OK here we'll extrude the two concentric circles on the both sides of the sketching plane so here in this drop-down box select extrude on both the sides and here the depth of the extrusion is 36 mm so enter here 36 and then click on OK after making this we have to make a plan which is parallel to the red plane and at a distance of 120 mm so click on the plane then select the right plane and enter here 120mm and then click on ok after creating a plan select the plant and go to the extrude now here we will give the reference to the edge and we'll close it now click on the circle and we'll draw a circle such that its center lies on the origin and it will tangent to this reference so metric then click on OK and here we have to alter the direction of X rossum and here we have to extrude it up to the entity so here in the drop down box select extrude up to the next surface and then click on OK now after making this we have to actual cut so we'd go to the extruder then select the front plane now here we will select this upper horizontal edge and this sided so go to the references then we'll select this and this edge and we'll close it now we'll make a section so we'll use the line then draw over take a length and then a horizontal length now the vertical line giving the length of 12 the horizontal line having the lengths of 38 mm now we will draw a circle so here we will choose the circle and draw a circle now we'll give the tangency to this circle to the horizontal line for that click on the tangency then click on the circle and then click on the horizontal line now here the distance of the center of the circle from this vertical reference line is also 38 mm so enter here 30 and now we will close the section by a horizontal line so it go to the line and then we'll close the section now we will delete the unwanted segments before that we will give the diameter of the circle which is 30 so here we will enter 30 mm now we will delete the unwanted segments so click on the delete segment and here we will delete all this unwanted segment and here will extend it so here it is like this so here our section is completed now we will click on the okay after that here we have to choose the X 2 on both the sides and here we will click on the remove material then click on ok now we have to make a pattern of such X should cut for 6 time for that will go to the pattern here we will select the access pattern and now we will select the axis for making the pattern for that select this axis here we we want 6 such extrude cut so enter here 6 and click on the angle button now click on OK so you can see that we have made the second major part of the I end now before closing it we will put another plane which is parallel to the right plane at a distance of 26 mm which we will use while making the assembly so go to the plane then click on the right plane and here we'll make a plane at a distance of 26 mm and then click on ok now we will save it so click on the file then save is and here enter the name which is that iron and then click on OK now we will close it and we'll move to the third part which is the pin so go to the school and he will close it now we will click on the new then we'll uncheck this ok here millimeter gauge a second and then okay now it is a very simple part for that we'll go to the model then click on the X Road now select the top plane here first we will make a circle of diameter of 45 and then click on ok we will extrude it up to the depth of 15 mm so enter TX 50 and then click on OK after making the head of the pin we'll make a shrink for that we'll also go to the extra then select this lower face now here we'll draw a circle with the diameter of 30 mm so it is 30 mm and now we'll check ok now the depth of extrusion for the shank portion is 1 0 2 mm so we will enter here 1 0 2 and then click on OK now after making this we have to make a sload for the tapered pin and for that first we'll make a plane so we'll go to the plane and here select the top plane now here we'll make a plane at a distance of 1:02 - 15 then click on ok and ok now after making the plane we will use the Raval feature in order to cut the portion to insert the tapered pin so we'll go to the sketch now in order to make revolt first we'll insert a centerline so click on the centerline and here we'll put a centerline after making a centerline first we'll draw a vertical line so we'll draw a vertical line now the distance or the length of the line is 52 mm so we will enter here 52 and we will enter here half of 52 which is 26 and then now we will go to the line then we will draw a horizontal line then we will draw an inclined line and then we will draw a horizontal line now here this length of the horizontal line is 3 mm so we will enter here 3 and after making this 3 will give the angle so this angle is nothing but 90 minus 0.57 3 now we'll click on OK now we'd go to the Raval and select the remove material then click on ok so now we have made duckpin now we will save it so click on the file then save as and name here as a pin and then okay now the next part is the collar so really close it and will click on the new we'll uncheck this click on OK here select the millimeter gauge the second and then ok now for making a collar mainly use extrude and reverse feature so we'll go to the model then click on the extruder then select the top plane now we'll draw two concentric circles so first we'll draw two concentric circles and having the diameters of 30mm and four different mm so enter here protium and the bigger circle having the diameter of 45 Evon then click on OK now here we'll extrude these two concentric circles on the both sides of the sketching plan so here in this drop-down menu select x2 on both the sides now here the depth of the extra Sun is 14 mm so we enter here 14 mm then click on OK after making this we will make a slot for the tapered pin for that we'll click on the sketch then we'll select the top plane and then go to the sketch now here we will use the ryeol feature in order to make a slot for the tapered pin for that we will first insert the center line after putting a centre line we will draw a closed section for making a slot now for that we'll go to the line and here we'll make a vertical line now here the length of the vertical line is 52 mm and it is half of 52 which is 26 now we'll draw a horizontal line then an inclined length and a horizontal line and close the section now here the angle is nothing but 90 minus 0.57 3 and here the length of this horizontal line is 3 mm so enter here 3 and then we'll close it now we'll go to the and here we will click on the remove material and then click on ok now we will save this so we'll go to the file save as and we'll name it here as a color and then click on OK now we will make the last part of the gnarled old assembly which is the taper pin so we'll close it and we'll open on you then we'll uncheck this click on OK here we select millimeter kg second and then okay so now for making a deeper pin will mainly use the visual feature so we'll go to the model then click on the sketch now we'll select top plane and then sketch for making a real feature will first put a centre line for that click on the center line and then we will put a centre line after that we draw a section for reeling it about the center line for that click on the line and then will first draw vertical line and the dimensions of the vertical line are here it is 52 and it is 26 now after making a vertical line we draw a horizontal line then we will draw an inclined line and then a horizontal line now here the angle is 19 minus 0.57 3 and then here this length of the horizontal line is 3 mm now we'll close it and now we'll click on the revolve and we'll okay so here it is the light part of the taper pin and then we will save it so we'll go to the file then save as and it is a taper paint then okay till now we have created all the parts of the knuckle joint assembly now we are going to make an assembly for that we will close it and then we'll click on the new then here we will select a assembly uncheck this then okay here select the millimeter catch a second and then okay now here we'll insert one by one all the components and we'll make the assembly of that for that we will click on the assemble then here first we insert a fork end and then click on open now first we have to left-click once then here in this drop-down box select the default and then click on OK now we will insert the second component which is the iron so click on the symbol then here click on the iron and then click on open then we have to once click the left button after that here we will select the inner cylindrical portion and here also in a cylindrical portion so both the portion are coincident after that we'll select this upper face and we will select this face and here we will choose the coins you don't then we will click on ok so here we have assembled two components now we will insert the third component which is the pin so we'll click on assemble then here we will select the pin and then click on open now we will first left click once after third we will select this cylindrical portion of the same and select this in absolute integral portion now we will select this upper surface and we will select this lower surface of the head and here we will select the coincident so here you can see that we have made this coincident now we have to make it sure we have to make this hole in front of us now we'll click on the okay now we'll insert the third component which is the collar so I will click on the assemble then here select the polar and click on open now we left click once now here we'll select this inner cylinder and here select this cylindrical portion of the shank now it is coincident after that we will select this upper surface of the collar and this lower surface of the fork end so it is automatically coincident then we'll click on OK now we insert the last component of the assembly which is pepper pin so here we will click on the assemble then click on the pepper beam then okay now we'll left-click once now we'll select the axis of the taper pin and after that we will select this axis of the taper hole so here we'll give the coincident now we will check whether it is correct or not so you can see that here this side hole is small so here in the placement tab will flip and then here we will select this right plane or front plane and after that we will select the front plane of the assembly and here we'll give it coincident and then click on ok now we will hide all the planes exist points and now you can see that the complete assembly of the knuckle joint [Music]
Info
Channel: CAD CAM CAE TUTORIALS
Views: 58,147
Rating: undefined out of 5
Keywords: creo, pro e, ptc creo, cad, cam, cae, joint, knuckle, assembly, tutorial, in, design, sketch, modelling, of, knuckle joint, knuckle joint creo, knuckle joint creo parametric, pro engineer, beginners, machine design, creo assembly, creo assembly design tutorial, creo beginners tutorial, mechanical, machine, 3d
Id: gJLAM54Vf-w
Channel Id: undefined
Length: 28min 20sec (1700 seconds)
Published: Fri Mar 09 2018
Related Videos
Note
Please note that this website is currently a work in progress! Lots of interesting data and statistics to come.