Aio Mounting
Magnhild Mongolo
I could not find Mechanical but I found hardware and within there is a mounting standoff which is what I need, just adjusted the diameter to fit the GP2 pogo pin and that seems to have done what I need.
Now I have 5.0.1 installed (with libraries), but I suppose in 5.0.0 it was the same.
When I run Library Browser (from Footprint Editor or from PcbNew) I see many (about 100) footprint libraries and MountingHole (not Mounting_Holes) is one of them. This library contains over 90 footprints.
This should not be required if kicad 5 has been setup correctly. I guess OP had kicad version 4 installed in the past and now has a mixture of version 4 and version 5 libs.
@aes you might want to read this: I had KiCad 4 installed previosly. Now i updated to v5. Now i have some problems with the library setup
I have created a footprint with nothing but a PTH pad that an M3 screw will fit through. That pad has a big fat exposed amount of copper than a screw and a serrated washer will connect to and I want to connect this pad to earth from the IEC inlet.
If you want to be stubborn, there are a few options.
1). you can start drawing a track from the center of your mounting hole, this will attach a track to that footprint, but it will not be connected to a net.
Then hover over a section of the track you just drew and press e to edit it. Now you can select a net from the Track & Via Properties.
This information will probably be lost again as soon as you update the pcb from the schematic. It may make your life a bit easier if you also put a V in the [ ] Locked checkbox for the track segment that connects to your mounting hole.
I haven't held an AP 515 yet so I wanted to check with the community if you could mount the AP to anything without ordering extra mounting brackets. From what I see the mounting brackets can only be ordered in packs of 10?
Ok so i finially found images of MNT-A-D for 500 series.... on ebay no less. This has helped me identify which style mount I need for my ceilings which I could find no documentation on what the bracket actually looked like. I hope this helps everyone.
The Qmount is a modern device for the light-curing-based mounting of materialographic samples.
The samples are placed in the device which is equipped with customized, powerful LED technology. The UV transparent mounting moulds are filled with the UV curing resin. The transparent sample can be removed within a very short time frame. A suction unit from the QATM portfolio can be connected to the device to increase work safety.
The compact laboratory device is equipped with specially developed and durable LED boards, which irradiate the samples highly efficiently with UV radiation of a very narrowly tolerated wavelength range (emission maximum at lambda = 365 nm) and allow standard samples to cure within 60 seconds.
The integrated ventilation guarantees low polymerisation temperatures of approx. 70 - 90 C. A robust design with a powder-coated aluminum housing and high-quality components enable high sample volumes. The hood is equipped with cushioned hinges to close it gently.
The device contains a scratch-resistant glass plate (200 x 260 mm) which enables the simultaneous curing of up to 12 samples with a diameter of 40 mm. The work area is easy to clean due to the simple design.
The process parameters are clearly shown on a color display and can be continuously adjusted using a rotary knob. The mounting process is started, paused or ended using the QATM start-stop button. An acoustic signal informs the user at the end of the process.
As standard, the device is equipped with a connection for external suction to filter the vapors and odors and to increase work safety. A suitable suction device with activated carbon filter is available in the QATM accessories.
To minimize loss of electric power the Qmount is equipped with specialized UV LEDs. These show a very slim emission spectrum, which maximum superimposes with the absorption maximum of the QPREP UV 50 initiator. This enables shorter curing times with a low electric consumption.
UV initiators get the necessary activation energy for the initiation reaction by absorbing UV radiation. Every molecule has a specific absorption spectrum, which shows certain wavelength areas in which the absorption coefficient of the molecule is particularly large. Outside of the so called absorption maxima a large portion of the emitted radiation is lost. Standard UV LEDs usually emit a significant amount of radiation besides the wavelength intervals in which the initiator has a good absorption. This radiation is converted to heat.
Since there isn't a whole lot of information on here / out there about mounting cameras to brick, I figured I would share my experience / how I mounted mine. I did as much research as I could and decided to go with Tapcon concrete screws (since they are removable). I bought the smallest size I could find at 3/16". I bought 1 3/4" length screws. I was planning on buying 1 1/4", but the smallest length they had in white was 1 3/4", and I preferred the look of the white screws on the white mount (instead of blue). I also bought the Tapcon recommended concrete screw drill bit at 5/32" x 4 1/2" (Tapcon actually recommends 5/32" x 3 1/2"). I bought Bosch drill bits after reading horrible reviews on Tapcon drill bits. I also bought a 1/8" concrete / masonry drill bit to drill pilot holes.
Tapcon recommends drilling your holes a little bit deeper than the length of the screws, so I drilled 2" pilot holes with the 1/8" drill bit (after using the mount & a sharpie to mark the location of the holes). I used a tape measure to measure 2" back from the tip of the drill bit, and placed a piece of blue painter's tape on the bit so I knew when / where to stop. Start slow when starting your holes! The drill will shift / walk on you on a brick surface! Might not be a bad idea to use a punch to mark / start your holes (now that I think about it); I had to drill 2 sets of holes because my first set was off a good bit & I didn't want to risk driving the screws only for it not to work. My second set was even off a little, but it wasn't off enough that I couldn't successfully drive the screws. Hopefully, the structural integrity isn't affected. I followed up with the 5/32" bit, and then I drove my screws through the mount / into the brick. Easy, peasy!
Oh yeah, I used a hammer drill! Again, be sure to start slow!! I believe that's all there was to it... With the right tools & equipment, it's a pretty simple job. My only concern at this time is the signal through the brick. I've had to move my SmartHub around a bit in order for it to pick-up this camera (along with all the others at the same time). And now my kids are complaining about their signals because I had to move / tap into mesh network towers around the house. I'm still tinkering with it to make everyone happy, in addition to having good camera coverage. Hope this helps anyone looking to mount their cameras into brick!
For personalized support specific to the Arlo products you own, access Support from within the Arlo iOS or Android App. Simply login to your Arlo App, go to Settings, Support, then select the Arlo product you would like support for.
Secures cable runway to the top of Standard and Universal equipment racks. J-Bolts hook under the mounting plate to secure the plate to the rack's top angle. Mounts either parallel or perpendicular. For proper attachment of 6"W (150 mm) Cable Runway, use top bars (13045 Series) rather than top angles on the rack.
VECTASHIELD Vibrance Antifade Mounting Media are completely new formulations of curing (hard setting) antifade mounting media for immunofluorescence applications. These newest additions to our VECTASHIELD portfolio were developed with customer feedback to improve on parameters such as ease of use and retention of specific staining intensity over time. VECTASHIELD Vibrance Antifade Mounting Media are new tools to help investigators see more and do more with each experiment.
How quickly can I view sections after mounting with VECTASHIELD Vibrance (catalog # H-1700)? Is it recommended to wait one hour?Sections can be viewed immediately after mounting with VECTASHIELD Vibrance, but one hour is recommended for optimal signal intensity.
After mounting with VECTASHIELD Vibrance, slides can be stored at room temperature for several months without media retraction, bubble formation, or loss of signal intensity. We have not seen any difference between room temperature or storage at 4 degrees C.
No form of tissue dehydration (e.g. air drying or ethanol exposure) is required nor recommended when applying VECTASHIELD. From our experience, the most optimal antifade actions of VECTASHIELD are obtained when the preparation is removed from the final buffer/water rinse, kept slightly wet/moist and then coverslipped with a small volume (25-50 uL) of VECTASHIELD.
That depends upon how long you wish to retain the slides and which VECTASHIELD formulation you are using. If you are using one of our non-setting VECTASHIELD products such as H-1000/H-1200 or H-1900/H-2000, then we suggest sealing the coverslip with plastic sealant or nail polish if you intend to keep the slides beyond a day or so. If you are using one of our setting/curing formulations such as VECTASHIELD HardSet or Vibrance, then in most cases when using thin cut (
Competitor workflows for immunofluorescence recommend that slides be viewed 24 hours after mounting. VECTASHIELD Vibrance Mounting Media, however, allow same-day viewing. Accelerate discovery without sacrificing signal intensity or retention.
Above image: Improved retention of fluorescence with VECTASHIELD Vibrance Mounting Medium. Serial sections of human colon tissue (FFPE) stained for cytokeratin (mouse primary antibody AE1/AE3) and detected with fluorescein conjugated horse anti-mouse IgG secondary antibody (FI-2000). One hour after mounting with either VECTASHIELD Vibrance (top row) or a competitor mounting medium (bottom row), the sections were imaged at the intervals indicated. Note retention of fluorescent signal for section mounted with VECTASHIELD Vibrance Mounting Medium.
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