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MBS Electronics

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00:00:04

Hello dear friends, you are on the

00:00:06

MBS Electronics channel I recently published

00:00:10

a video about SolidWorks for

00:00:12

beginners for those people who

00:00:15

would like to create models in the

00:00:17

SolidWorks program for the purpose of subsequently printing them

00:00:20

on a 3D printer, and today in this video we will

00:00:23

continue the topic, we will create the basis of the

00:00:25

model using a body of rotation Approximately

00:00:28

how this is done on a lathe Well,

00:00:31

just like in the last video, we will print the

00:00:33

finished model on a 3D printer and assemble

00:00:36

the device so that it is not just

00:00:39

somehow virtual, but has some kind of connection

00:00:42

with the real world and so that our

00:00:44

printed model brought some

00:00:46

real benefits, today we

00:00:48

will try to make a universal handle

00:00:51

for such needle files, files

00:00:54

that do not have an initially convenient handle, you

00:00:56

can clamp a bit into this handle

00:00:59

to use it as a screwdriver or any

00:01:01

other similar tool, this is the

00:01:04

model we will design today in

00:01:06

SolidWorks, it looks like a handle for a

00:01:09

screwdriver, the prototype was one of

00:01:11

my screwdrivers that I have on the

00:01:13

farm, after we print

00:01:16

this model into a finished plastic handle,

00:01:19

we will insert it, or so to speak,

00:01:28

from now on, in order to install a

00:01:31

three-jaw chuck on rotary hammers, it

00:01:34

was the smallest of the cheap ones cartridges

00:01:37

that I was able to buy, of course, there

00:01:39

were smaller cartridges on sale, but they

00:01:42

cost twice as much, so I

00:01:44

settled on this cartridge and here

00:01:47

at the hardware store I bought

00:01:49

this mandrel on which a

00:01:52

three-jaw cartridge is screwed on and there

00:01:55

you can also secure it inside with an additional screw

00:01:57

this cartridge Now you see the finished

00:02:00

handle, this is how it will be there

00:02:04

in the future, we will make this handle like this

00:02:08

on the surface of this mandrel

00:02:10

so that it holds tighter. Well, now

00:02:13

friends, let's get started with modeling in

00:02:16

this video. I assume that you have already

00:02:18

watched the first video, the previous video

00:02:21

about basic concepts of SolidWorks, so

00:02:24

here I will not dwell on the

00:02:26

basic concepts What is a sketch What

00:02:29

are basic planes How to call the

00:02:31

dimensioning tool and

00:02:34

similar things that we

00:02:36

discussed in the previous Video let's

00:02:39

create a new document file new and

00:02:43

select a part If you are creating a model

00:02:46

to print on a 3D printer, of course, you

00:02:48

should always first of all think about

00:02:51

how your part will be printed, and I

00:02:53

repeat once again, the plane of the print

00:02:55

bed of a 3D printer in SolidWorks

00:02:58

corresponds to the plane in front. Now I

00:03:00

immediately save the file so as not to accidentally

00:03:03

lose my work, I create a new folder and

00:03:06

I’ll save our file there in

00:03:08

SolidWorks format in its native format, let’s call the

00:03:11

folder universal pen and the file I’ll

00:03:13

call it uarm, the whole file is saved, you can

00:03:16

work periodically, we’ll be saved by

00:03:19

pressing Ctrl S on the base plane

00:03:21

in front, click on the right mouse button and

00:03:24

click on the eye icon to make the front

00:03:26

plane visible this is always the

00:03:29

plane of our printing table, we still

00:03:31

need a plane on top, this

00:03:34

plane is perpendicular to the plane

00:03:36

in front, let's also temporarily make it

00:03:39

visible, the view should be positioned

00:03:41

in such a way that this blue Z axis

00:03:45

would be directed upwards in this

00:03:47

direction, our 3D printer will

00:03:49

form the part Let's create a

00:03:51

new sketch in the plane from above

00:03:54

Right-click on it with the Mouse and select the

00:03:56

sketch icon, we have created a new sketch

00:03:59

and SolidWorks, without our permission,

00:04:01

turned the view upside down Let's

00:04:04

fix this, we need the Z axis to

00:04:06

be directed upwards, right-click on the

00:04:09

sketch again select the mouse

00:04:12

perpendicularly click everything rotated

00:04:16

as we need to see that we now have the

00:04:18

Z axis directed upwards. It will be more

00:04:21

convenient for us to navigate on the sketch tab,

00:04:24

select the centerline tool in the

00:04:26

tool properties, mark the

00:04:28

portico

00:04:31

and infinite length options and create a centerline on the sketch

00:04:34

so that it passes

00:04:37

through the base point so that a coincidence relationship is created between the center line

00:04:40

and the base point.

00:04:42

When we create the

00:04:45

rotation body, this line will be the axis. Now

00:04:48

let's select the

00:04:50

rectangle tool, click on it. And here on the

00:04:53

left we see different options for the rectangle in the properties.

00:04:55

We need

00:04:57

a rectangle at the corners like this one. we create a

00:05:00

rectangle so that with its left side

00:05:02

it clings to the center line and with its bottom

00:05:04

side it clings to the plane

00:05:06

in front; this way we have automatically created the

00:05:08

necessary relationships; we see these

00:05:11

relationships in the form of these small

00:05:13

green rectangles. Let's

00:05:14

put the dimensions here, we will have a

00:05:17

size of 13 mm about the

00:05:20

automatic tool I already told you the size

00:05:22

and the height of the rectangle will be 100

00:05:26

mm, write 100 mm, our sketch has become black,

00:05:30

which means that it is completely

00:05:32

defined, but you and I will

00:05:34

refine it further, let's select the

00:05:37

line tool and on the sketch, draw a

00:05:40

profile like this, like what I'll draw for now

00:05:43

that without worrying about the sizes and the

00:05:46

binding, we simply draw it

00:05:48

approximately by eye, although we have to set the necessary

00:05:51

coincidence bindings and verticality

00:05:53

automatically now Let's

00:05:56

remove the excess, select the tool to cut off

00:05:59

objects, these scissors click on it

00:06:02

here, we need to select cut to the

00:06:05

nearest one and click the scissors on

00:06:08

this one line, you see, we have deleted it with you

00:06:11

Now let's use a mouse gesture by clicking on the

00:06:13

right button, select the

00:06:16

automatic size tool and enter the

00:06:18

required dimensions, the length of this section

00:06:20

will be equal to 7

00:06:22

[music]

00:06:25

mm, the middle part will be 6 mm,

00:06:31

write the number

00:06:33

6 from this point to the Top line 16

00:06:38

Mime we write in the window 16

00:06:43

mm Let's adjust the location of the

00:06:46

dimensions in the drawing somehow,

00:06:49

arrange them like this so that they don't

00:06:52

interfere from the center line to the central

00:06:56

part, we have 10

00:06:58

mm 10

00:07:00

m and so we have almost 10 written

00:07:06

[music]

00:07:09

10 and the last one for this the size of the plot

00:07:13

will be equal to 24 MLM. After this, we

00:07:17

see that all the lines of the sketch have again become

00:07:19

black. This means that

00:07:22

our sketch has again become defined, but this

00:07:24

will not last long, we will now

00:07:27

torment it further here in the Central part

00:07:29

where we need to make a notch.

00:07:32

Let's take the circle tool from

00:07:35

the center and Draw a small circle

00:07:38

then select its

00:07:48

size [music] Let the diameter be 1

00:07:52

[music]

00:07:58

mm

00:08:02

[music]

00:08:04

select our circle and select the

00:08:06

linear sketch array tool by

00:08:09

default it offers us two elements

00:08:11

along the X axis in this direction we don’t need to

00:08:14

create copies of the circle, we need to

00:08:16

create downwards, so let’s enter

00:08:19

one here so that it doesn’t create anything for us along the X axis,

00:08:22

but along the Y axis. We now need

00:08:25

to create several copies of several

00:08:27

elements of the circle array. The

00:08:30

linear array element is used to

00:08:32

multiply some sketch element in

00:08:35

different directions in this case, we

00:08:37

just need to copy the circle

00:08:39

several times so as not to draw it

00:08:41

manually; here you can set the distance

00:08:44

between the copies. Let's select such

00:08:46

a distance so that we have elements close together

00:08:48

since the diameter of our

00:08:50

circle is 1 mm. Obviously, the

00:08:54

distance between the circles should

00:08:56

also be equal 1 mm so that they are

00:08:59

close together And now let's select

00:09:01

the number of copies of the circle, here are six

00:09:04

pieces, we have a length of 6 mm of this part and

00:09:07

we get what we need now

00:09:14

cut off and remove these

00:09:16

elements as I do in the

00:09:24

video, we get this figure

00:09:27

than - something reminiscent of the image of an

00:09:30

inductor on a circuit diagram Or

00:09:33

maybe it will remind someone of a sea wave,

00:09:36

this sketch, friends, we have it ready and we can

00:09:40

start creating a body

00:09:43

of rotation, go to the

00:09:46

elements tab and select the rotated

00:09:50

base boss. You see Solid Work is a

00:09:53

fairly intelligent program and

00:09:55

she immediately determined that we

00:09:57

will rotate around our center line and in

00:10:01

the preview we already see the blank of

00:10:04

our part and we can play

00:10:07

with the parameters on the left here, for example, change the

00:10:09

angle by which

00:10:12

the rotation will be performed. Let's enter 180° here

00:10:16

instead of the

00:10:18

default 360 and see what we have it turns out

00:10:21

only half of the part if you enter

00:10:26

270 then we get 3/4 of the parts I think

00:10:31

friends you understand how this

00:10:33

function works, here everything is obvious click on the

00:10:36

magic green checkmark Okay thereby

00:10:39

confirming that we want to create a body

00:10:42

SolidWorks creates a rotation body this is a

00:10:44

blank for our handle below the

00:10:47

construction tree opposite our new

00:10:49

element we see a triangle with an

00:10:52

exclamation mark. This means that

00:10:54

we have some errors, since the

00:10:57

three-dimensional element was created after all,

00:10:59

this is not a critical error, but just

00:11:01

some kind of warning. I click on

00:11:03

the message and select the item in the menu that

00:11:06

wrong here in the window I see what the

00:11:08

error is in this case our sketch

00:11:11

is overriding that our sketch contains

00:11:13

conflicting relationships or dimensions

00:11:16

Let's correct it let's go back to our

00:11:18

sketch click on the right button and select

00:11:20

edit and return to the sketch

00:11:23

editing mode the erroneous

00:11:25

relationship or size will be highlighted in

00:11:27

color enlarge

00:11:29

and we see that we have an extra size Let's

00:11:33

urm one of the sizes, select one of

00:11:36

the sizes, you can select this one

00:11:40

and select delete or press the button

00:11:43

on the keyboard

00:11:45

and

00:11:48

leave it like that We leave the

00:11:50

sketch and see Everything is fine, we will

00:11:54

continue further

00:11:57

let's give us more from above no need,

00:12:01

let it be like this, we will only see

00:12:04

our printing table Let's create

00:12:07

another sketch here at the end of

00:12:10

this plane, select the sketch and

00:12:13

see that we have created sketch 2 and now

00:12:15

on this new sketch we need to

00:12:18

draw a circle whose diameter

00:12:20

we have will be greater than the diameter of our

00:12:23

main cylinder, here you need to

00:12:25

remember one simple thing about the sketch in

00:12:28

the yard, you need to think about it as an infinite

00:12:31

plane. Despite the fact that we created a

00:12:34

sketch on this surface

00:12:36

limited by a circle, our sketch is

00:12:38

actually not limited by the boundaries of this circle,

00:12:41

we can draw

00:12:43

outside this circle because the

00:12:45

sketch plane is actually

00:12:47

infinite, select the circle tool

00:12:50

from the center and draw a circle draw a

00:12:53

circle from the starting point but make

00:12:55

its diameter slightly larger than the diameter of the

00:12:58

base of our handle

00:13:03

put down the size Here 33

00:13:07

Let's now select the

00:13:08

circle tool again from the center and on the

00:13:12

very line of this circle we will create

00:13:15

another circle. Somewhere somewhere like

00:13:18

this we will give this new circle

00:13:21

some

00:13:23

size. Let it be 12 mm, we get

00:13:28

this design. Now we need to

00:13:30

multiply the smaller circle in a circle,

00:13:32

for this we select the sketch on the tab the

00:13:35

circular array sketch tool it

00:13:38

does the same thing as a linear array,

00:13:40

only in a circle by default we see

00:13:43

four copies of the circle Let's enlarge

00:13:46

Here we click and enlarge one by one six

00:13:48

will be enough click on the Green

00:13:51

check mark this confirms that

00:13:54

the array suits us now we need to

00:13:56

delete the large circle and otherwise

00:13:59

we won’t be able to make the correct

00:14:01

element, just select our large

00:14:03

circle, click on it and select

00:14:06

Delete everything, here we have what we

00:14:09

need, in my opinion it looks something like a

00:14:11

revolver, switch to the

00:14:14

elements tab and select the elongated cutout,

00:14:18

unfold it and see something - it looks like

00:14:21

we got a rocket But of course I’m

00:14:23

joking Let’s just draw it out like this, just

00:14:26

drag it out with the mouse and bring it closer because the

00:14:29

exact length of the elongated cutout does

00:14:32

n’t matter to us now. The main thing is that

00:14:34

it be greater than the length of our part,

00:14:36

click on the Green check mark and get the

00:14:41

cutouts we need, let’s create one more sketch here

00:14:44

on the plane of this end, with the right

00:14:46

button on the sketch, select

00:14:50

perpendicular Let's draw

00:14:53

another circle from the Central point here,

00:14:56

I'll set the size purely for the sake of principle, I'll just

00:14:59

leave it as it is and in the

00:15:02

elements, select the elongated

00:15:05

base of the woman and draw out a small

00:15:09

elevation here by 2

00:15:12

mm I set 2 mm there

00:15:15

will still be such a small elevation here I confirm

00:15:18

by clicking on the Green checkmark since

00:15:21

my computer here in the kitchen is not very

00:15:23

fast, the elements are created with a

00:15:25

slight delay while Solid reads

00:15:27

everything

00:15:29

one more moment this thing has a

00:15:31

fairly small base area

00:15:33

Let's create for the model, a small

00:15:35

stand on which it will stand on the

00:15:38

3D printer table with a diameter larger than the

00:15:41

diameter of the base. And let’s extend it to a small

00:15:44

thickness, let there be four layers of printing,

00:15:47

this is 0.8 mm. I

00:15:51

have now drawn a circle with a larger

00:15:53

diameter on the new created sketch; the exact size. Here we have

00:15:56

absolutely no important Well, let's set

00:15:59

some size, for example 40 mm, let

00:16:02

it be there, it will print

00:16:14

further, go back to the elements, select the

00:16:18

elongated boss base and extend it

00:16:21

by 0.8

00:16:23

mm and click on the Green checkmark Oh again,

00:16:27

mine takes a long time to count something and

00:16:31

something like this appears we have a base later,

00:16:33

when the part is printed, we will simply

00:16:35

remove it. Let's now

00:16:38

make a hole here at the top for pressing in our

00:16:41

mandrel onto which the cartridge will be screwed.

00:16:44

So I created a new sketch, this is

00:16:47

sketch 5, and on this sketch we will draw

00:16:51

another circle, take a circle from the

00:16:53

center and from the Central point draw a

00:16:56

small circle, set the size,

00:16:58

here the exact size is important to us, set

00:17:01

9.5 mm, this is slightly less than the diameter of the

00:17:05

mandrel, remember that we

00:17:08

will insert a heated mandrel there, it will

00:17:10

melt the surrounding plastic, then

00:17:13

we go to the elements, select a tool, an

00:17:16

elongated cutout, the depth of the hole should

00:17:19

be 47 mm, now we see how

00:17:24

it will be inside the part and click on the

00:17:27

Green checkmark. It seems like nothing

00:17:30

happened. But in fact, we

00:17:32

still have a cutout. You see, you

00:17:35

can change the display style to

00:17:37

display hidden lines, and now

00:17:41

we see that the dotted lines show everything

00:17:43

hidden elements and we see our

00:17:47

cutout, our model is almost ready.

00:17:50

Let's learn how we can paint

00:17:53

our part in some color in order to

00:17:56

do this, there are also

00:17:58

several ways, the easiest one is Let's

00:18:01

right-click on our parts

00:18:04

and select this

00:18:06

icon here you can in the tree, select

00:18:09

what we want to paint We want to

00:18:11

paint the entire part in this case,

00:18:14

now here on the left in the properties you can

00:18:16

select any color we need, whichever one we

00:18:20

like best. Let's choose some color, for

00:18:23

example, orange or

00:18:25

some other color. Let's stop. here in

00:18:28

this blue color because I have

00:18:30

plastic of about the same color on the

00:18:33

printer now, but this is

00:18:35

the base that I made for

00:18:37

stability. I want to paint it in a different

00:18:39

color. Let's select this

00:18:42

tool again here, select this

00:18:45

boss element and paint it in

00:18:48

some kind of green, for example. As you can see,

00:18:50

friends, it’s very easy to assign colors to the elements of

00:18:52

our part, let’s

00:18:55

make a small fillet on the edge,

00:18:57

select the

00:18:59

fillet tool and select this edge

00:19:07

maker there, I have a selected face,

00:19:10

see on the left, we don’t need this face, we

00:19:12

need to remove it from the list of elements

00:19:15

delete and Click Here on

00:19:19

the edge, it’s a lot, I’ll

00:19:22

end up doing probably one and a half

00:19:25

mm there, it will be just right rounding,

00:19:29

just such a small rounding, everything is

00:19:31

fine, click on the Green check mark, a

00:19:37

rounding element appears Let’s select the

00:19:40

rounding element again and make small

00:19:43

roundings on these

00:19:45

[music]

00:19:52

[music]

00:19:57

edge click on this element

00:20:00

click on the Green checkmark, you see,

00:20:02

we got such a beautiful rounding

00:20:05

on these edges, among other things,

00:20:07

SolidWorks allows us to calculate

00:20:09

How much our part will weigh, this will

00:20:12

allow us to find out how much plastic it

00:20:14

will take when printing approximately

00:20:16

Of course but if we print with maximum

00:20:19

filling To do this, we

00:20:21

first need to set the material of the part, if

00:20:24

here in the construction tree we click on the

00:20:26

material, then we give materials in the menu,

00:20:29

here you can select preset

00:20:31

materials or click on edit

00:20:33

material and then we get to the

00:20:36

SolidWorks library where you can edit the

00:20:38

material or choose one of the

00:20:41

available ones, I chose ABS Plastic and

00:20:44

you see our part has become white again And

00:20:47

it has become white Because ABS plastic is

00:20:50

initially white and now

00:20:52

in order for us to make the part blue again we

00:20:54

need to paint it again but let’s go back to

00:20:57

calculating our mass details Let's

00:20:59

have a sensors item here, add a

00:21:03

sensor, here the properties of the sensor appear and

00:21:06

here the very first one is by default

00:21:09

- these are mass characteristics. There is

00:21:11

no need to change anything here and just

00:21:14

click on the Green check mark and add

00:21:17

this sensor mass characteristics,

00:21:19

the sensor has now been added here

00:21:21

open it here on the triangle,

00:21:24

click and see the mass of the mass of our

00:21:26

part, in this case the maximum weight of

00:21:28

plastic that will go into our part

00:21:31

is about 42 g. If, for

00:21:34

example, you bought a kilogram of plastic for about

00:21:36

1,000 rubles, then the cost of the stamps is yours

00:21:39

will be equal to approximately 42 rubles, this is, of

00:21:42

course, a gimmick of a

00:21:58

blank. I want to print this part

00:22:01

with 100% filling with plastic,

00:22:03

but still I would like to save a little plastic.

00:22:06

Let's see what kind of plastic is in

00:22:08

this model. We have the resources to

00:22:10

save plastic.

00:22:12

We hardly have a hole for a metal mandrel.

00:22:14

to the middle of the body and the

00:22:16

rest of the handle is monolithic. And

00:22:19

so I thought that in the rest of the

00:22:21

part we could cut out some kind of

00:22:23

cylindrical cavity inside, like a cylinder,

00:22:26

to make our handle empty inside.

00:22:28

This will not affect its strength in any way, and the

00:22:31

savings in plastic will be noticeable. This is the

00:22:34

lower part of the part. Let's

00:22:36

create another sketch here, so I created a

00:22:39

sketch, it will be sketch 6, let's go to the

00:22:42

perpendicular view and Draw

00:22:46

another circle here on the sketch. Let's

00:22:49

first change the display style

00:22:51

to display invisible elements so that

00:22:54

we can navigate, take the

00:22:57

circle tool from the center, snap it to the starting

00:23:00

point here and Let's draw a circle,

00:23:04

now we'll give this circle some

00:23:07

diameter, select the automatic size and

00:23:10

set the diameter to 17 mm, switch to the

00:23:14

elements tab and select the

00:23:16

elongated cutout tool there. Now we

00:23:18

need to decide on the depth of the cutout

00:23:21

between the cutout intended for the

00:23:23

mandrel and ours, this additional

00:23:25

cutout must be

00:23:27

a partition and the second point, this

00:23:29

additional cutout of ours should start

00:23:32

not from the original plane, but slightly

00:23:35

higher with an offset so that we do

00:23:38

n’t have a through hole in the back of our handle,

00:23:40

this cutout should be

00:23:43

inside the body. Therefore, here in the from

00:23:45

property we set the offset, we set the

00:23:49

offset to 2 mm, this is how once the

00:23:52

thickness of the back wall of our handle will be,

00:23:54

now it’s clearly visible that the cutout does

00:23:57

not start from plane A with a slight offset

00:23:59

of 2 mm, let’s leave it like that and

00:24:03

confirm our intentions by clicking on the

00:24:05

Green checkmark. Thus, we created a

00:24:08

cavity inside our part, saving

00:24:11

some part of the plastic in the upper part of the

00:24:14

graphic area there is an interesting

00:24:16

cut tool that allows you to

00:24:18

view our part in a section.

00:24:20

Let's move this

00:24:24

cut plane like this and see what's

00:24:26

going on inside.

00:24:29

Let's expand our

00:24:31

cut plane and look now like this:

00:24:33

what's going on inside we see the cut of

00:24:37

our pen everything is fine we are

00:24:39

satisfied with everything Now we can print

00:24:42

this part on a 3D printer friends As you

00:24:45

already know, in order to do this

00:24:47

you need to save our part in

00:24:50

stereo lithography format or a file with the

00:24:54

stl extension let's do it save it as an

00:24:58

stl file and that's it Friends, let's return from the

00:25:01

virtual world to the real world and

00:25:03

print our

00:25:05

[music]

00:25:26

detail

00:25:39

[music]

00:25:56

A

00:25:57

[music]

00:26:26

ah

00:26:27

[music]

00:26:56

Oh

00:27:01

[music]

00:27:26

holds tight Let it cool down then

00:27:29

fall off

00:27:31

[music]

00:27:36

itself this is our

00:27:56

stand and a grinder with a cutting

00:27:59

I'll make notches on it all around so that

00:28:02

after I float the mandrel into the handle it will stay there

00:28:06

better.

00:28:07

Review of this dream-shaped

00:28:10

sander that I bought on

00:28:12

AliExpress you can watch on my

00:28:14

channel via the link in the description of this video

00:28:18

the machine turned out to be very successful and powerful

00:28:20

despite its low the price of the machine

00:28:23

cost me about 35 dollars with

00:28:26

courier delivery

00:28:29

also at the link in the description you can

00:28:31

watch a video on how to make

00:28:33

such a homemade cutting disc from an

00:28:36

ordinary disc for an angle grinder

00:28:38

1 mim thick from one disc

00:28:41

you get several of these small

00:28:43

cutting discs for a Dremel This is the mandrel

00:28:46

that I’m currently processing, it’s under the

00:28:48

knees, you see what sheaves of sparks This is an

00:28:51

ordinary egg adapter that

00:28:54

is used to put a cam

00:28:56

chuck on a hammer drill to

00:28:59

use a hammer drill like

00:29:01

[music] a

00:29:02

drill, here’s something like this

00:29:06

I did I made on the surface there are a lot of notches of such

00:29:09

slots now I again securing the mandrel in the

00:29:12

machine

00:29:22

[music]

00:29:26

they will heat up

00:29:39

with a piece of a defective, not pre-printed

00:29:41

part made of ABS plastic, I control

00:29:44

the temperature, now the part

00:29:47

has warmed up enough and you can fit the

00:29:52

handle, it goes very tightly And that’s

00:29:56

good

00:29:59

Well, in general, that’s all after

00:30:02

it cools down I secured it on

00:30:05

three-jaw cartridge mandrel, smoke

00:30:09

comes out, wait until it cools down

00:30:13

[music]

00:30:15

so that the cartridge does not constantly

00:30:18

unscrew, it is better to secure it from the inside with a

00:30:20

special screw with a left-hand thread;

00:30:24

this screw was sold together with the mandrel,

00:30:26

but you see it is designed for a larger cartridge

00:30:29

and I had to sand it down here so

00:30:32

grind it now it fits into this

00:30:34

small cartridge. Okay, I secure it

00:30:37

there with a screwdriver, you can see that the reverse thread is

00:30:40

twisted counterclockwise

00:30:47

[music]

00:30:52

Let's try

00:30:56

pozamatkova

00:30:57

[music]

00:31:10

we clamp the bit and this thing turns,

00:31:12

for example, into a screwdriver or this is the

00:31:15

file I have in tools

00:31:17

without [music]

00:31:26

handles

00:31:28

[music]

00:31:37

[music]

00:31:40

Well friends, this is another video

00:31:42

about using the SolidWorks program

00:31:45

to create models for 3D printing, I

00:31:48

'll finish Thank you all for watching for

00:31:51

investing your time All the best to you all the

00:31:54

best, goodbye

00:31:57

you you can subscribe to my channel so as

00:31:59

not to miss the release of new videos, if

00:32:02

you liked the video, you can put a

00:32:04

thumbs up until the next meeting on the

00:32:07

MBS channel

00:32:09

[music]

00:32:12

Electronics

Description:

#SolidWorks для начинающих. Построение трехмерных моделей для последующей печати на 3D принтере. Сегодня разработаем ручку для универсального держателя инструмента на основе кулачкового патрона. Как создать тело вращения, как сэкономить пластик при печати на этапе разработки детали. Как покрасить в разные цвета всю деталь или ее отдельные элементы. Скачать модель и проект для SolidWorks https://musbench.com/all/cancower/ - 00:48 Что будем сегодня проектировать. Кулачковый патрон, оправка, универсальная ручка 02:38 Проектирование детали в SolidWorks 25:05 Печать детали на 3D принтере 27:54 Подготовка поверхности металлической оправки с помощью #дремель шлифмашинки и отрезного диска. 29:17 Нагреваем газовой горелкой и насаживаем ручку на металлическую оправку. 30:12 Устанавливаем трехкулачковый патрон. Купить шлифмашинку HILDA HLD-400W: http://goo.gl/S505go Первый фильм SolidWorks для начинающих https://www.youtube.com/watch?v=1KRtrpoDyb0 Обзор шлифмашинки https://www.youtube.com/watch?v=c_sYExeRFT0 Как сделать отрезной диск для Дремеля из диска для болгарки УШМ https://www.youtube.com/watch?v=wK5MvRobqXQ Обзор 3D принтера Prusa i4 https://www.youtube.com/watch?v=mRbIt4fThEk - Наш Сайт MBS: https://musbench.com/ Хороший 3D принтер https://s.click.aliexpress.com/e/_Dk4KoTr ABS Пластик для 3D печати https://s.click.aliexpress.com/e/_DejvcFf PLA Пластик для 3D печати https://s.click.aliexpress.com/e/_Dkl6iZx Телеграм канал https://t.me/mbselectronics Чат канала https://t.me/mbs_electro - Мои Путешествия https://www.youtube.com/channel/UCAZKdNvUo0Bc05yGR3R8Y1A?sub_confirmation=1 вк https://vk.com/id193611613 - Credits: "Local Forecast", "Ultralounge", "Funky One" by Kevin MacLeod (incompetech.com) Licensed under Creative Commons: By Attribution 3.0 https://creativecommons.org/licenses/by/3.0/

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