Method 1: Check the Wi-Fi password via Network & Internet settings
Please connect to Wi-Fi that you want to check the password, then right-click the [Network] icon① on the taskbar and select [Network and Internet settings]②.
Select [Advanced network settings]③.
Under Related settings, select [More network adapter options]④.
Choose the connected Wi-Fi network⑤, then select [View status of this connection]⑥.
Select [Wireless Properties]⑦.
On the [Security] tab of Wireless Network Properties⑧, check the box [Show characters]⑨, you will find the Wi-Fi password in the Network security key field.
Method 2: Check the Wi-Fi password via Command Prompt
Type and search [Command Prompt] in the Windows search bar①, then click [Open]②.
In the Command Prompt window, type the command [Netsh wlan show profile name=”Wi-F name” key=clear]③, and then press Enter key. Fox example: Netsh wlan show profile name=”WLAN2_5G2” key=clear, WLAN2_5G2 is a Wi-Fi name that has been connected currently.
You can find the Wi-Fi password in the [Key Content] field of Security settings④.
If you want to check all Wi-Fi passwords the computer has ever connected, you can use the following command. Press Enter key after typing this command, you will find the passwords for each Wi-Fi. [for /f "skip=9 tokens=1,2 delims=:" %i in ('netsh wlan show profiles') do @echo %j | findstr -i -v echo | netsh wlan show profiles %j key=clear]
Method 1: Check the Wi-Fi password via Network & Internet settings
Please connect to Wi-Fi that you want to check the password, then right-click the [Network] icon① on the taskbar and select [Open Network & Internet settings]②.
Select [Network and Sharing Center]③ in the Advanced network settings category.
After entering the Network and Sharing Center window, click the connected Wi-Fi network④.
Click [Wireless Properties]⑤.
Select the [Security] tab⑥, and then check the box to [Show characters]⑦, you will find the Wi-Fi password in the Network security key field.
Method 2: Check the Wi-Fi password via Command Prompt
Type and search [Command Prompt] in the Windows search bar①, then click [Open]②.
In the Command Prompt window, type the command [Netsh wlan show profile name=”Wi-F name” key=clear]③, and then press Enter key. For example: Netsh wlan show profile name=”ASUS” key=clear, ASUS is a Wi-Fi name that has been connected currently.
You can find the Wi-Fi password in the [Key Content] field in the Security settings category④.
If you want to check all Wi-Fi passwords the computer has ever connected, you can use the following command. Press Enter key after typing this command, you will find the passwords for each Wi-Fi. [for /f "skip=9 tokens=1,2 delims=:" %i in ('netsh wlan show profiles') do @echo %j | findstr -i -v echo | netsh wlan show profiles %j key=clear]
Things you need to know about how to design of mold slide.
Posted on : March 11, 2022 By GREFEE
Undercuts treatment
Movement principles & design elements of diagonal bracing pin block
Undercuts treatment uses the mold opening movement and ejection force to causes the tendency of relatively motion between angle pin and slider. There are two movements to make it separate from the undercut : mold opening direction & horizontal direction. As the below pic shows:
in the pic:
β=α+2°~3°(avoid any parts contacts or blocks when group molding & reduce friction when opening molds)
α≦25°(α is the obliquity of taper pin)
L=1.5D (L is matching length)
S=T+2~3mm(S, the distance of horizontal movement of slider, T, the end product undercut
S=(L1xsina-δ)/cosα(δ – the space between taper pin and slider, normally is 0.5MM,L1is the taper pin vertical distance inside the slider)
Clamping methods & applicable situations of diagonal bracing tip
Diagram
Description
Suits for situations, like thin mold and the top clamping plate and cavity plate are closed. The contact area is long and stable.
Suits for situations, like thick mold, large mold cavity. applicable to two plate mold/three plate mold.The contact area L≧1.5D(D is diameter of diagonal bracing tip), good stability
Suits for thick mold applicable to two plate mold/three plate mold contact area L≧1.5D(D is diameter of angle pin), poor stability, hard to processing
Suits for situations, like thin mold and the top plate mold and cavity plate can be separated. Long contact area, good stability
Movement principles & design elements of pulling block
The mold opening movement of molding machine causes a tendency of relatively motion between pulling blocks and sliders.
See pic below:
in the pic above:
β=α≦25° (α – the obliquity of pulling block)
H1≧1.5W (H1-matching distance)
S=T+2~3mm (S-distance of horizontal movement of slider, T- end product undercut)
S=H*sinα-δ/cosα(δ – the space between diagonal bracing tip and sliders, normally is 0.5MM,L1is the vertical distance of
H-vertical distance of pulling block inside the slider)
C- motion stopping surface so the pulling block form doesn’t need motion-stoping surface(no space)
Slider locking & fixing solutions
There is a huge pressure during the molding machine injection process. To avoid affecting the side and appearance(eg. burrs) of end products, we should keep the slider and core unmoved when molding machine injection. So the slider should use locking fixed method to keep it stay. normally, this part is motion-stoping block or heel.
Some common locking methods:
Diagram
Description
Diagram
Description
The sliders are pieced together, normally used for standard products. Normally used standard products, check standard parts catalogue. Good structure and hardness. Applicable to situations needing strong locking force.
Use insert mode to lock. Applicable to wide sliders.
Use integrated locking mode. Good rigidity and structure. Hard to processing. Short Demolding distance. Applicable to small molds
Use insert mode Applicable to wide sliders
Pulling or stopping Poor stability Applicable to situations of small slider space
Are pieced together Good rigidity Applicable to situations of large space
Fixed methods of slider
The slider will move a certain distance in mold opening. One way to make the slider return back smoothly is to use equipment to fix it and it should be flexible and stable so that the slider will stay at where it should be. Some exceptional situations do not need fixed equipments, like left to right slider, so it is suggested to apply a fixed equipment.
Equipment for fixing: diagram
Description
Fixing slider with spring screw, the strength of spring is 1.5-2 times the weight of slider. Applicable to upward or lateral core pulling.
Fixed by spring steel ball. Normally for small sliders for lateral core pulling.
Fixed by spring screw and guard. Strength of spring is 1.5-2 times the weight of slider. Applicable to upward and lateral core pulling.
Fixed by spring guard, Strength of spring is 1.5-2 times the weight of slider. Applicable to big slider, upward and lateral core pulling.
Connecting method of slide insert
How slider head insert connected is controlled by end product. Different end products have different connecting methods.
The slider head insert connected methods details:
Diagram
Description
Diagram
Description
Integrated structure Applicable to situations of large cores, good strength.
Fixed by screw. Applicable to situations of cores, round, or cores are small.
Fixed by screw. Applicable to situations of square cores/small or medium cores
Fixed by screw. Applicable to situations of square cores/small or medium cores
Guide form of sliding block
In the slide guiding, the slider must be smooth and stable so that no stutters or beats, which will affect the aspects, like quality and service life of mold. (Link for the specifications of platen)
The common sliding guide forms are shown in the figure below.
Diagram
Description
Diagram
Description
Integrated manufacturing mode, hard to manufacture, applicable to small mold manufacturing.
Clamping plate ¢ral rail mode. Applicable to situations of long slider and high cavity temperate.
Rectangle platen. Easy to manufacture. Fine strength, wide range of application, the specifications of platen is on standard parts list.
“T” groove inside the slider. Applicable to situations of small space, like slide inside the slider.
Applied “7” shaped clamping plate. Easy to manufacture, good strength. normally fixing with pinhole together.
Inserted “T” groove, good stability, hard to manufacture.
Calculation of tilt slider index
Due to the undercut surface of the end product is tilt, so the move direction of slider should follow the direction of end products’ undercut surface, otherwise it will cause damages when pulling the end product.
When the angle situation between the slider core pulling and the parting surface is called the slider pulling direction moving-die.
Shown as pic:
Situation when the angle between slide core pulling direction and parting surface is slider pulling direction fixed-die.
Shown as below:
master mold runner slider
application features:
Undercuts forming on the side of master mold
Marks are allowed on the appearance
Medium slider forming area
Shown as below:
Undercut forming on the side of master mold. No marks allowed on appearance. Need to switch to master mold runner slider.
Master mold tunnel block shown as below:
gst mold opening:
second mold opening:
second mold Designing tips
a. Thickness of top clamping plate H2≧1.5D (D – diameter of large tie rod; hyperlink of large tie rod diameter calculation, three play mold large tie rod calculation; H2- thickness of top clamping plate).
b. Depth of pulling block inserted on the top clamping plate H≧2/3H2
c. There should has taper on SPRUE BUSHING head to fit for clamping and should be on the top clamping plate to avoid brush nozzle on the molding machine separating from SPRUE BUSHING and then result in brush, which is inconvenient to take out and affects next injection.
d.when pulling block inside the cavity plate, should reduce material.
e.The wearable plate should be 0.5mm higher than master mold plate to protect the taste mold plate and support the support pulling block to prevent it from distorting due to the external force.
f. Small pull rod limit stroke: S≦2/3H1 assist with mold clamping. (H1 – height of the slider)
g. It is best to have fixed block on the front of pole, easy to adjust and processing, consist three point bearing, increase the strength of pulling block.
h.To make the wearable block assemble smoothly, E point should on the right of D point. Shown as below:
I. When assembling slide base and pulling block, need to notice about the relationship between size B and B1, it shoulbe B>B1, while in order to assemble smoothly, can also dig through the rear mold located after the slide base.
Dos and don’ts & calculation formula of double “T” groove
Shown as above:
S3=H*tgγ;
(H – the decreased height of slide block which is the small pull rod stroke; γ – the angle of pulling block)
S2=δ2*cosγ;
(δ2 – the space between pulling block and slide block, normally is 0.5mm)
S=S3-S2=H*tgγ-δ2*cosγ=(H*sinγ-δ2)/cosγ;
(S — horizontal moving distance of slide block)
S4=δ1/cosα;
(δ1 – slider insert and space between sliders;α -tilt angle of slider insert)
S1=(H*sinβ-δ1)/sin(α+β);
(β – space between grooves,normally is 0.5mm;S1- distance of slider insert out from the undercut)
Dos and donts:
a. Assemble requirements: assemble the slider insert and inclined insert hole, it should notice the relationship between the size A and A1, should be A>A1.
b. Double “T” groove tolerance, shown as below:
Case of Assemble matters
Die sketch
pic above :
Slide insert can be put inside the core insert without problems, required S1>S or open the core plate.
β=α+2°~3° (easy to open mold and reduce scratches)
H≧1.5D H is diagonal brace pin matching length; D is diameter of diagonal brace pin)
Double “T” groove structure model:
Double “T” groove structure model:
Cavity explosive slider
applicable situations of explosive slide block
Generally, forming on the cavity side and large slider forming area, especially using slider when the cavity side is very deep.
Explosive slider as blow pic shows:
mold opening state:
Stroke calculation:
Shown in the pic below:
S=L*sinβ (β- “T” groove angle;L stroke along the “T” groove direction; S – distance of slide block horizontal movement)
H=L*cosβ (H distance of slide block vertical distance)
Design tips and notices of explosive slide block
Shown as the pic on the right:
a.bottom wearable plate needs bevel, reduce loss between slide block and core plate, normally takes 1.5˚~3˚, assemble location be at the 3 / 4 of the center of gravity of the slide block.
b.S1>S (S – distance of slide block horizontal movement)
c. the wearable plate on the back of slide block and should be 0.5 mm higher than slide block’s back.
e. The angle between block and grab hook γ> the wearable plate obliquity.
f.β=α (β is “T” groove angle;α is lmit rod angle)
g. T – block should be longer and 10 mm higher than cavity plate.
h. Slide block head should have die screw, easy to group the mold. Need to take down when testing mold
i. Lock T-block screw should be vertical to T block.
j. The spring at the head, should calculate the weight of slide block.
k. The back of the slide block should be tool setting plane.
l. Both flanks of slide block should have limit groove.
m. The slide block head must have datum plane to provide convenience for grouping mold. The processing base level is normally over 8mm.
n. Explosive slide block must have shoulder (wings for fixing) to provide convenience for grouping mold and also a base level is necessary, cannot reduce the material)
The assemble location depends on the location of the gravity of slide block.
Dos and don’ts of Extra deep explosive slide block
the guide rod should assemble from the cavity plate
a、Cavity plate should be embedded into the core plate,avoid the cavity plate outward lift, enhance the mold strength
b.wearable plates needed at the protruding side of cavity plate, avoid scratches, easy to adjust.
c. Other precautions are the same as above
Place ejector pin inside slider
Generally, for thick and deep products’ wall, the side of the wall has many core pulling holes. The core pulling force is strong, so when moving the slide block, the product might be distorted or scratched. To avoid these happening, we need to place the ejector pin inside the slide block to stop the distortion or scratches.
A. Place ejector pin inside slide block (example 1)
B. Two common ways to place the ejector pin inside slide block, shown as below:
Delay slider
1. The outside product pulling force is strong, avoid distortion.
2. Use delay slider to operate forced demolding.
The pic below is water pipe and water pipe delay diagram:
1st mold
Finishing state after 2nd mold opening
oblique slider
1. Application range of oblique slider Normally applied in the products with slider structure, at the same time, along the slider’s direction, the end product also has undercut, which indicates that we can apply oblique slider.
note:
Pic on the right is typical case of oblique slider
2. Oblique slider diagram:
3.internal slider
(1) use boss form (seen as below)
Use the form of diagonal brace pin (as shown below)
In the figure above
S1 = S + 1mm above(S, undercut distance;S1 distance of slider moving
S2=S1/cosβ (S2, horizontal distance of slider;β obliquity of slider)
Calculation of core pulling force & strength checking
1. Calculation of core pulling force
After cooling, the plastic will be narrowing and shortening, including the die core and the other parts (like oblique tip, slider, insert etc)Therefore, we must consider the enclosed strength that end product impact on slider, stress state, see pic on the right
note:
F=F4*cosα-F3cosα=(F4-F3)*cosα
F—core pulling force(N);
F3—F2 lateral component(N)
F4— core pulling resistance(N);
α—obliquity of de-molding. as α is normally low, so cosα=1
That is F=F4-F3
But F2=F1-cosα
F3=F2tgα=F1cosα*tgα=F1*sinα
F4=F2*μ=μ-F1cosα
So F=F4-F3=μ*F1cosα-F1sinα=F1(μcosα-sinα)
F1——the enclosed strength that plastic on core (N)
F2—perpendicular to positive pressure on the surface of core(N)
μ—the friction coefficient between palstic and steel, normally is around 0.2
While F1=CLF.
The average circumference of core cross-section part which enclosed by plastic.
L—the distance of core part enclosed by plastic (CM)
F0—enclosed strength of unit area, normally 7.85~11.77MPA
Namely F=100CLF0(μcosα-sinα) (N)
2. Diagonal bracing tip diameter checking:
The diameter of diagonal bracing tip is affected by many factors, like obliquity, length, and required de-molding distance. Thus, in designing, some parameters should be adjusted and matched to obtain the best result to make sure the slider to move smoothly. Calculation formula:
Note:P – maximum bending force on taper pin
L— bending moment
P1—core pulling resistance
H— distance from core pulling hole center to point A
① on the taskbar and select [Network and Internet settings]②.
icon① on the taskbar and select [Open Network & Internet settings]②.
