HydraLIST has the capability to store an Alternate Part Numbers for each HydraLIST part, along with our standard part number. Why is this important? Because many fab shops, either independent or sprinkler company based, already have their own part numbering scheme. This ability allows our customers to continue to use their own part numbers when referencing our parts, assemblies, pipe types, hangers, etc. So, they don't need to start from scratch and build everything over again.
In the HydraLIST database (accessed via the green circled button), the input screens have a column for such Alternate Part Numbers:
The first yellow highlighted column shows our PN and the second, the Alt PN. Just enter in each alternate part number and save the data and you are done.
When it is time to print out a stock list, there is an option to print the Alternate Part Number on the General Setup tab:
Please check out the HydraLIST manual for complete details!
As new products are released by manufacturers, we add them to files that can be imported into HydraLIST. Why don't we add them to the HydraLIST database directly? Two reasons:
So, we create Import files. These Import files are added to HydraLIST updates and installs at periodic intervals.
Here's how to use them with such a new file for Victaulic UMC valves, for example:
Step 0: Copying an Import file to your computer (not necessary if said file is already there due to an update)
If we send to such a file, put it in the relevant folder, or ask us for advice. For example, I sent a customer an Import file for Victaulic's UMC valves. I told them to put it here:
Note the folder structure. Put the file where it makes most sense to put it. It is not critical that you select a particular folder, but it helps to have it in the folder that makes the most sense.
Step 1: Entering the Database to Import the parts
Importing parts into HydraLIST is done using the General Data button in HydraLIST:
That opens up our database entry program.
Step 2: Importing the parts
Pick the Import Data button:
This brings up the folder structure referred to in Step 0. Go into the folder you expect to find the part file. In this example, I am selecting the 4-Valves_Accessories folder and then the example file: Vic_UMandUMC_4V32_20240122.txt
In this example, I am selecting the 4-Valves_Accessories folder and then the example file: Vic_UMandUMC_4V32_20240122.txt. Pick the Open file to bring that data in
The data screen will show all the parts contained within that file:
Step 3: Saving the imported data
You must save the added data or it will not be there when you search for it later. Pick the Save Spread Sheet button
Step 4: Pick the Project Data button to finish updating the new database. when asked if you want to create a backup of the database, we suggest you pick Yes
Step 5: Searching to ensure that the parts made it into the database
Switch to the Miscellaneous tab. Type in a few letters from at least one part description that you imported, into the Part Number Search field. In this example I typed in UMC. Pick the Find button right under that entry. All items containing that string should appear in the currently selected Section ID
Note: If you find there are parts we do not have, but you use frequently, or you are looking for new parts released by manufacturers, please contact us and we can get those to you.
Customer X called today to ask if he could reduce the width of the polylines that are part of our DefLines (Drop Windows, System Boundaries, AFF/BTS, etc).
There is no setting in our programs to do so, but there is an easy way to change them after the fact. After some chatting back and forth the answer is to use Select Similar and the Properties box to change these to the width he wanted.
Select Similar is a great tool added to AutoCAD a few years ago. You select an object like a line, a polyline, a block or text or whatever. You then right-click and pick Select Similar from the right-click dialog box. All objects that match that object will be highlighted. If you pick a line, then all lines in the same layer as the one picked will be selected. You can change the things Sel Sim considers similar by using the SE option inside the command.
So, to change the widths of our DefLine polylines, pick one such defline and right-click. Pick Select Similar
You will notice all such items will be selected (highlighted). Now, pick Properties:
Locate the constantWidth specification in the Geometry section and type in what you would like the new value to be. Close the Properties dialog and you are all set.
You can do the same with Ceiling Height boundaries, System Boundaries, and the like.
So, my co-worker (who shall remain nameless) sent me an annotated drawing with notes on how to properly model trapeze hangers for coordination. The notes were written as individual lines of text. This annoys me:
I like working with MTEXT so much more. MTEXT allows for formatting, fonts, underlining, numbering and more.
I thought I remembered that there was an Express Tool in AutoCAD that will convert TEXT to MTEXT - and, there was!
It is here:
It lets you grab any number of lines - these will be converted into one MTEXT object.
After some editing:
This from a customer in Sweden (paraphrased). This in metric, but the math is the same in US units:
On the Fittings Used Summary, it says that a 65mm Tee has the equivalent pipe length 3.8m but in the calculation says 7.497m. And it´s the same for a 65mm 90 degree screwed elbow...the equivalent pipe length says 0.88m but in the final calculation on page 4 it says 1,736m
Why are these numbers different? And how can we change so that they are the same?
The answer lies in NFPA (where else?).
Paragraph 22.4.3.1.3.1 of NFPA13:2010 states that for internal diameters other than Schedule 40 steel pipe the equivalent lengths given in Table 22.4.3.1.1 must be adjusted according to the formula given in that paragraph. The next paragraph (22.4.3.1.3.2) states that this new value must be further adjusted by the C-Factor if no C=120. Fittings whose values are supplied by a manufacturer that has already adjusted them do not need to be further adjusted.
These two adjustments change the equivalent length stored in HydraCALC's Pipe/Fittings data. So, these two calculation reports the customer is referring to often display different values.
This can be turned off, however, for those jurisdictions that do not require such an adjustment, or for fittings that have already been adjusted by the manufacturer.
When the job is calculated, you can deselect the Auto Adjust Fittings Lengths option. This will give you the stored database values:
This option resets itself with each calculation, but you can turn that option off by default by using the Edit User Options tool in the Options drop down menu:
Set the Auto Adjust Fittings option to False
This adjustment can also be blocked when inputting new pipe and fittings into the Pipe/Fittings data. The highlighted column is named Y/N Mark. An 'N'' means to not adjust the fitting as mentioned above. This is most prevalent with CPVC fittings, as the manufacturers publish values that take the pipe diameter into account.
Additional information can be found in this blog post: How Fitting Equivalent Length Modifiers Work
We have an ever-expanding repertoire of support options. Here is the menu:
For All Programs:
HydraCARDs: A Knowledge Base of all known solutions to problems users might encounter can be accessed from the HydraCARDs shortcut on the desktop or this link: HydraCARDs
This blog has entries for hundreds of topics on all of our programs, in addition to Microsoft, Autodesk and General Technology topics
Blog: https://hydratec.blogs.com/the_h_factor/
Index of Blog Topics: https://www.hydratecinc.com/topics
Getting the Latest Versions
Note: The Hydratec Customer Area can be accessed from our Homepage. Pick the Login button at upper right. You will then see a button to Login to ShareFile. This blog post covers how to set up an account and use our customer support area: Using the Hydratec Subscription Center
HydraCAD for AutoCAD
Manual: An electronic manual is placed on your computer when you install the software. You can access the HydraCAD manual on the Documentation flyout of the HydraCAD dropdown menu
Tutorials: An electronic set of tutorials is placed on your computer when you install the software. You can access the HydraCAD tutorials on the Documentation flyout of the HydraCAD dropdown menu
Help File: The help file can be accessed from the last item on the HydraCAD dropdown menu. All dialog boxes in HydraCAD have Help buttons which will display the help file pages for that topic
Instructional Videos: These are found in two places. Some videos are placed on your computer when you install the software. You will find these on the Documentation flyout in the How-to Videos on that flyout. Additional, very extensive Instructional Videos are found online in our ShareFile download area. Your company has access to this site and you may allow multiple users to sign up through our website. They are found in the HydraCAD->Instructional Videos folder on that site
How-To-Documents: These are also installed and can be found on the Documentation flyout of the HydraCAD pulldown menu in the How-to Documents and How-to Videos item
Knowledge Base: The HydraCARDs knowledge base of all known solutions to problems users might encounter can be accessed from the HydraCAD dropdown menu via the Support Flyout
HydraCALC
Manual: An electronic manual is placed on your computer when you install the software. You can access the HydraCALC manual from the Help dropdown menu
Tutorials: Five tutorials are found in the above HydraCALC manual
Help File: The help file can be accessed from the Help dropdown menu
Instructional Videos: These are found in two places. Some videos are placed on your computer when you install the software. You will find these on the Help dropdown menu. Additional, very extensive Instructional Videos are found online in our ShareFile download area. Your company has access to this site and you may allow multiple users to sign up through our website. They are found in the HydraCALC->Instructional Videos folder on that site
Knowledge Base: The HydraCARDs knowledge base of all known solutions to problems users might encounter can be accessed from the Help dropdown menu
HydraLIST
Manual: Electronic manuals are placed on your computer when you install the software. You can access the HydraLIST manuals from the Help dropdown menu
Tutorials: A tutorial is found in the above HydraLIST manual
Help File: The help file can be accessed from the Help dropdown menu
Instructional Videos: Extensive Instructional Videos are found online in our ShareFile download area. Your company has access to this site and you may allow multiple users to sign up through our website. They are found in the HydraLIST->Instructional Videos folder on that site
Knowledge Base: The HydraCARDs knowledge base of all known solutions to problems users might encounter can be accessed from the desktop shortcut
Occasionally users may get a 'Job has gone 200 or more passes without balancing." error message. This means, usually, that there are disconnected pipes in the job (pipes that may have flow in them, but do not connect to the piping between the Remote Point). You can try picking Yes to have it continue to try, but that usually doesn't work to resolve the situation.
Take a look at the calculation below. If you look long enough, and trace the piping, you can see what wrong.
In a bigger job, however, that can be difficult. But there is a tool to help.
In the Utilities dropdown menu, the tool is Find Special Disconnect
Select it, and you will be given a dialog with a few options. Select the Show Disconnected option and then pick Find Disconnects. This should notify you of the 'orphaned' pipe. In the capture below, it appears a block of piping related to reference point H and reference point I is a bit adrift.
Another tool is the Show Potentials option. Selecting that gives a list of nodes that might need to be connected to the rest
Picking the Highlight Potentials button displays this graphically, to help you see better where the piping in question lies.
Adding a pipe that connects G and H will resolve the problem.
Note: There are other reasons to get the original error, but our programmers have resolved a few of them, so they should not present themselves on your machine.
We regularly update the HydraCALC database to add and make changes to fittings, pipe types, valves, backflow preventors and technical data sheets in PDF format for all of these.
We make this database available for download in the Customer Support area of our website, which can be found at www.HydraCAD.com. Enter the Customer Support area by picking the Login button at the upper right of our home page. Then, navigate to the folder seen below by selecting HydraCALC, then Complete Data Update
Download the .zip file to a location on your hard drive. Then, extract the contents to a new folder on a drive. Then, run the SETUP.EXE to install the new data.
Note that this will replace any changes you may have made to our database. So, you may want to keep a copy of your changes so that you can reapply them. Or, simply request that we add the items you may have modified to our regular database, and that way you will not have to worry about that.
The key database file which users may have modified for HydraCALC is Master.DAT which resides in the \HES\HydraCALC\Ver50\Data\Setup folder. This file contains all your pipe, fitting and valve data and is well worth protecting. This file is automatically backed up when you run the Complete Data Update, but we suggest that you back this file up whenever you make your own changes and keep the backup in a distant and safe location.
From a Customer:
"We’re engineers. As such our expectations for plans are a little different than installers. We need to use clear, consistent 2-dimensional symbols and simple lines to represent pipes without fittings. Right now all of our projects are showing top-down 3d models in plan view and every single pipe fitting. This makes it challenging to review the components for ourselves and our jurisdictional reviewers.
Is there a function we’re missing that would allow us to simplify the plan views?"
There is:
Each view in Revit has three (3) potential detail levels. The detail level button is here:
The Choices
Detail Level MEDIUM
Detail Level COARSE
Simply choose the detail level that works best for you.
Previously I mentioned Listing Order. This post takes things up one level to discuss just what ends up where when a job is AutoListed.
From the HydraCAD Manual / Electronic Help:
It is important to understand how the Listing tags work in order to achieve a successful AutoList run. There are two types of Listing tags. One for welded pipe (mains and welded branch lines) and one for non-welded pipes (threaded or plastic lines.)
The Listing ID for a main usually begins with a space followed by a letter. This is noted throughout this chapter as _A (Space A) wherever such a main ID is used. The green line before the A in the above picture represents this idea. The 01 in the above image represents the zeroth (0) fabrication method (first of five FIG Groups, set through the Listing Tag Setup dialog) followed by a 1 which means Welded.
The Listing ID for a line usually begins with a number. The 22 in the above image represents the second (2) fabrication method (third of five FIG Groups, set through the Listing Tag Setup dialog) followed by a 2 which means Threaded.
You cannot have two Listing tags with the same Listing ID whether they are mains or lines. The AutoList program will detect Listing tags on your drawing and begin to gather information in the direction that the Listing tag is pointed. The direction that the tag is inserted is the direction you want the listing to be done, usually the direction of the water flow in the system.
You may be able to stocklist a threaded sprinkler system with a welded main by placing a single Listing tag at the start of the system piping. You can also divide the system into listed areas by inserting multiple Listing tags and using Stop Signs if necessary.
When a main is tagged, the listing program will travel down that main until one of four things happen:
1. It runs out of main. In real life, the main usually runs out at a cap.
2. It encounters another listing tag on the main. The first tag is usually pointing in the same direction as the next tag encountered.
3. It encounters a Stop sign or Fake tag.
4. All of the other pipes connected at a junction have already been listed. AutoList will not list anything which has already been listed.
When a line or riser nipple is tagged, the listing program will travel down that line until one of four things happen:
1. It runs out of line. The line usually runs out at a sprinkler.
2. It encounters another listing tag on the line. The first tag should be pointing in the same direction as the next tag encountered.
3. It encounters a Stop sign or Fake tag.
4. It runs into a main. It will stop here, since the mains are usually listed before the lines, and AutoList will not list anything which has already been listed.
The one thing that determines whether piping is a main or a line is the listing tag. Welded tags are usually associated with welded mains and welded branch lines. Threaded tags are usually associated with threaded or plastic/copper lines. If the lines are to be welded, they are for all practical purposes mains and should be tagged with welded tags. These lines should be drawn in the lines layer (SPRKDAT2). Note: Your choice of main and line numbers critically affects the order in which the stocklist is produced and reported.
Lines are normally drawn in SPRKDAT2 (yellow) and mains in SPRKDAT1 (white). This does not mean that things drawn in SPRKDAT2 can't be listed as mains; this is quite common when the "main" is 1 ½” inches in diameter or larger. When a main is drawn normally (SPRKDAT1), any lines connected to it will automatically be numbered, listed, and consolidated. These lines will be threaded. If the main is drawn in the lines layer, or if the line fabrication method is other than threaded, you must tag the lines yourself. Armovers (SPRKDAT3 green) are treated line threaded lines. Underground (SPRKDAT4 dark blue) are not designed to be listed by AutoList.
As a recap from the previous post on listing order:
Tagged welded piping always lists before tagged threaded piping. Within either type of fabrication, the naming of the tag further determines the order of listing. Numbered tags list before lettered tags. Lower numbered tags list before higher numbered ones (1 before 2). Likewise, lower lettered tags list before higher lettered ones (A before B). A space before a letter or number will make that tag take precedence over all others. A general rule worth following is to name the mains the lowest, the riser nipples higher and the lines the highest. Always use a space before a main identifier, and you shouldn’t have any problems.
How does AutoList decide what order to list piping in?
Here are the general listing rules that pertain to the order:
Per the ASCII order, numbers list before letters. Punctuation marks, including spaces “ “ list before either (because spaces come before numbers in the ASCII chart).
You want the mains to list first, then the welded lines and then the riser nipples.
Label accordingly using this scheme:
Label the Mains as such “ A”, “ B”, “ C” etc. notice the SPACE before each letter in those three examples. This forces the mains to list first.
Label the welded lines using a letter before a number, such as “L1”, “L2”, “L3”, etc.
Label the riser nipples using a letter before a number, ensuring the letter(s) used come after the letters used on the welded lines (RN comes after L), such as “RN1”, “RN2”, “RN3”, etc.
From the manual:
“Tagged welded piping always lists before tagged threaded piping. Within either type of fabrication, the naming of the tag further determines the order of listing. Numbered tags list before lettered tags. Lower numbered tags list before higher numbered ones (1 before 2). Likewise, lower lettered tags list before higher lettered ones (A before B). A space before a letter or number will make that tag take precedence over all others. A general rule worth following is to name the mains the lowest, the riser nipples higher and the lines the highest. Always use a space before a main identifier, and you shouldn’t have any problems.”
I will soon be posting about what rules apply to listing in general, as the order is only part of it....
We've all seen this. You have a nice drawing in front of you, but when you do Zoom Extents (or Zoom All), your drawing disappears and you find yourself floating out somewhere near the (ex)planet Pluto. You select all around outside of what you want to see and there is nothing there.
Sometimes you can zoom around out there and find a stray object and just delete and all is fine. Other times you can copy the 'good' stuff and paste it to another drawing. But what if that fails? The stray objects in question could be damaged entities, or text objects with null text, or blocks with nothing in them.
I had a customer send me such a drawing and after decades of just dealing with it, I wanted to dig deeper. I tried a suggestion whereas you do a Zoom Extents (ZE is one of our aliases) and then hit CTRL+A. This highlights everything in the drawing. The idea here is that you can then see more easily those things out in space, because they have an easy to see grip attached. This didn't work for me.
So I found another video with the right suggestion (from Autodesk no less), for me, for this drawing. This is the link: Erase Empty Objects in AutoCAD
This is what it says to do:
In my drawing, out of 80,000 objects, 12 were erased. A subsequent Zoom Extents now worked perfectly.
HydraCAD has long been able to create a file that can be opened in the JCI/Tyco/SprinkCAD Fluid Delivery Time program. That program is required to open the exported file. Hydratec and SprinkCAD worked together to offer this tool.
The file can be created from HydraCAD using a process similar to AutoCalc. The following is from the HydraCAD manual and the HydraCAD Help file:
Note: The pipe to be exported must be sized. There must be a water supply, at least one flowing head tagged using the Operating Sprinklers command. The drawing should be raised to 3D before executing.
1. The menu command Create Tyco FDT File will create a file that can be opened and calculated in SprinkCALC with the FDT option. Select the command from the HydraTools->Tools->Export menu:
2. An informational message is displayed after launching. Press OK:
3. The below dialog box appears. If the drawing is not already elevated to 3D, pick 1. Raise Drawing to 3D. You will need to restart this command after the drawing is raised in this manner. If the drawing is already raised, pick 2. Generate FDT File:
4. This displays the AutoCalc Setup FDT dialog. None of the settings here affect this particular process, so just pick the Calc button:
If you get an error message, the most probable cause is un-sized pipes. You can cancel the process and size them; otherwise, proceed and fix those pipes in the Tyco program.
5. If there are no errors, the Save As dialog box will appear. Choose a location and give the file a name. The file will have the tych extension:
6. You will get a message stating that you are creating a new file and are given the opportunity to copy the header data from a file you have already created.
Select Yes if you have the Header Data already entered into an existing job. Select No to open the following dialog box where you can fill in the appropriate information and press OK when you are finished:
7. A message will appear indicating that the file was created. You should now be able to open the file in SprinkCAD FDT:
Way back in the olden days of 2014 I wrote a blog entry on BIM LOD. Sometime between then and now they snuck in a BIM Level 350, so I figured it was time to revisit this topic.
From www.united-bim.com
In the current context, there are six different levels of development that are defined by the American Institute of Architects (AIA). According to AIA, LOD outlines the design requirements at each stage."
(even their nice picture doesn't show six levels)
At LOD 100, which is the pre-design stage, the model consists of 2D symbols and the masses to signify an element’s existence.
At LOD 200, the elements are partially defined by outlining their approximate quantity, size, shape, and location.
By LOD 300, the elements are defined with exact dimensions and their relative positions bolstering precision.
LOD 350 describes the information about an element precisely and outlines an element’s relation and connection with other components.
LOD 400 outlines the basic information about the construction of various elements.
LOD 500, the model begins representing the real-life functions of elements in a real building.
There is a table of examples on their page as well..
Here's where our software and it's related applications fit in:
LOD 300
This is your standard AutoCAD / HydraCAD drawing. This is also what Navisworks fits into. And, if you export a HydraCAD drawing to Navis Manage model, it is a precisely drawn model (like the HydraCAD for AutoCAD drawing is) and is defined using exact dimensions, but information is only stored in a few elements
LOD 350
This is your standard HydraCAD for Revit model. Each element has information about the manufacturer, type of fitting, schedule, finish, material, or the like. It also covers Revit models that are generated automatically from HydraCAD for AutoCAD, but you may need to add additional information to some of the elements depending on what the BIM manager wants to see
PS -
LOD 100 is your basic pen and pencil estimate sketch
LOD 200 is that estimate sketch done in HydraCAD for AutoCAD of even done using Sketch-it or another simple sketch program. It just means that things kind of look like what they are and there is a parts schedule or count
LOD 400 models include all the instructions needed to fabricate and assemble particular elements, even the building
LOD 500 is not used at this time
Here's hoping they don't invent a BIM LOD 375...
When a riser nipple is inserted a property is programmatically set identifying the riser nipple as a Line, Main, Arm-over or Underground for listing purposes. This can be ascertained by looking at the Properties of the rider nipple in question.
Most of the time, the way it is set is perfectly correct. On occasion, however, you might want to list a riser nipple a particular way. This most often happens when a riser nipple connecting a line to a main should be listed as a Main component due to a particular fitting or fabrication method, instead of the default listing configuration of Line. You could change it in the Properties or you can do it a better way:
The Change Riser Nipple Listing Type command will make this easy. The Edit Riser Nipple command (ERN) on the riser nipple flyout of the Piping toolbar is where you will find it.
Type in ERN and pick the third item on that menu to activate the command.
This command adds a colored diamond to each riser nipple. The color assigned denotes how the riser nipple is defined, for listing purposes.
If you want to change one of those riser nipples, select the Pipes to Change and pick Apply. You will then be prompted to select the riser nipple(s) to change; the ones you select will be filtered based on your above selection.
Picking Exit will clear all the diamonds.
So, Windows 11...
The good news (for us at least) is that all our current versions of Hydratec software work well on it. I ran the update on my machine, and my already installed software worked just great. I have also run some of our install without a problem.
What's the bad news? Nothing is broken, but a few big gripes about what they changed for no apparent good reason. They likely changed these to make Win 11 look different than Win 10, and more like a cell phone. That's the worst reason I can think of.
Sadly, the list of things that were changed, but unhelpful has grown long enough to make a list, so here goes - click on the Item in the list, or scroll through to see them all:
List:
The File/Folder Right-Click menu
Placement of the Windows Taskbar
No Drag and Drop via Windows 11 Taskbar
Individual Items:
Item 1: The File/Folder Right-Click menu
This is the menu that comes up when right-clicking on a file or folder. Along the top are icons for Cut Copy Paste Rename and Delete. I find these handy, but I just assume click on a word rather than use more brain neurons to think about the pic.
What bugs me is how much is missing. Where is New Folder, for example? I use WinZip a lot, but it's not there either, nor are any third party tools like anti-virus tools.
To get the expanded right-click menu, you need to pick Show more options. That brings up the 'classic' menu. so, an extra pick. Not convenient.
The Fix:
reg add "HKCU\Software\Classes\CLSID\{86ca1aa0-34aa-4e8b-a509-50c905bae2a2}\InprocServer32" /f /ve
If everything goes right, it should say “The operation completed successfully.”
Item 2: Placement of the Windows Taskbar
The Windows Taskbar is now centered in Windows 11, just because:
The Fix:
Item 3: The Windows Search bar
The search bar has been removed from Windows 11. It is now accessible by picking either of the two leftmost buttons, the Windows logo or the Search glass. Not a fan.
The Fix: There isn't one
You can pick either of the two buttons, above and start typing your search term. Or, you can use the Windows logo key + S to search. Hovering over the search icon show the three most recently searched items.
You can remove the search icon from the taskbar by navigating to Settings > Personalization > Taskbar > Taskbar items and then turning off the Search option.
In Windows 10, you could pick the Windows Start button and navigate through the list to find the program you wanted to run. In Windows 11, yup, an extra click.
The apps you see when you hit the Windows logo key include some useful ones, but many are there to show how they know what the cool kids are using. Social media apps, Xbox and Prime Video. Blech. They really could have improved this if it was auto-populated with your most used apps. Nope.
You again pick the Windows Start button, but then pick All apps to see what you used to see for free:
You can select an app from here, right-click and choose Pin to Start to get it on the default screen.
Microsoft even has a web page explaining the differences between 10 and 11. By the very act of writing this, they should have realized it was a bad idea to add an extra click. Find all apps and programs comparison
The Fix: - There isn't one
Item 5: No Drag and Drop via Windows 11 Taskbar
Until Win 11, you could drag an item (like a file) down to the taskbar and pause for a moment over another application (like Outlook or Teams). The app would then open up and you could drop the item into something in that app. No longer! In Win 11 you get the No Go icon when you hover over the taskbar with dragged item in hand. Apparently they are using a new programming interface to rewrite the taskbar, but why they would not implement this is ridiculous.
So, you need to have both apps displayed and position them so that you can move the file from one app to another without losing focus.Ugh.
The Fix: A third party app. this one, available on the Microsoft Store, says it will do it. I have not tried it myself.
Drag and Drop Toolbar for Windows 11
Until I find something else to gripe about, have a good week!
Taking into consideration the large number of sprinkler heads available, we decided not to clutter up the database and avoided predefining most of them. This means that you will often run an AutoList and find that the Miscellaneous tab in HydraLIST has a number of yellow highlighted head entries without a description. That is because the part number for those heads does not exist.
The printed instructions for this process can be found in the HydraLIST Manual on page 2-75. We will summarize below:
Steps
After AutoList, you get something like this in HydraLIST, because the part number is not in the database
To get these heads into the database, you need to be in HydraLIST. Choose the sprinkler head again, using the Heads button
The part will be added to the database and ready to use as well as the long description
This will take care of individual sprinkler types. To build part numbers for all heads of a specific manufacturer, you can use the HydraLIST database Import function
To share with others and distribute around the office: Copy the \HES\Hydlist\Ver50\Data\Setup folder from computer to computer, or copy just these two files:
Quick Assist is built into Windows 10 and allows for remote control connections to other computers. No downloads or other software needed!
I never knew about this option until Googling about it today related to a customer reported problem.
The problem was related to an old AutoCAD bug which allows a build up of a great number of annotation scales. This will cause a fatal error at various times in a drawing session. But, it won't cause a problem on other machines if the following dialog were set to Always perform...
I had chosen that Always perform... option on my computer, so when reloading the drawing to get this screen capture and send it to our customer, the dialog did not come up, because I told it not to. How to reset it?
Go into AutoCAD Options and select the System tab.
Select the Hidden Messages Settings button
Select the messages you want to un-suppress in the future. I really don't know how many possible dialogs can show up here, but these are the ones I have, apparently, selected on my machine.
Many users prefer to use their own colors, linetypes, lineweights etc. when drafting. HydraCAD is set up to do just that. The only thing you cannot do is to change our layer names. But, you can add your own layers if you want.
The best overall approach is to set up your own template, beginning with a copy of our template. Our templates have all the layers in them that we need to run HydraCAD. If you start with our template, make your changes to it and save it as your own template, you are not overriding the rules of ours, and we aren't stomping on yours after an update. This blog post explains how that should be done: Creating your own templates
Losing HydraCAD Layers
If you use AutoCAD's PURGE command all unused HydraCAD layers (along with other unused layers) will be removed from the drawing. This is bad.
Rebuilding HydraCAD Layers
Use the Rebuild Layer command in the Hydratools->Tools dropdown menu. Or, type in RBL. This will rebuild all of our layers with their settings. It runs the layer script file that comes with HydraCAD, or the one you created, below.
Going forward, do not use AutoCAD's Purge command. Instead, use our Super Purge, on the same menu as Rebuild Layers. Or, type in PUR. Super Purge does a deep purge of unused layer and blocks. It then runs our layer script file (layer.scr), which reinserts layers, blocks and dimension styles that HydraCAD requires to operate. Furthermore, it does an AUDIT to automatically fix drawing database errors.
Making a Custom Layer Script
Open a drawing that has the layers set the way you like them. Then, pick Create Layer Script from this Drawing from the HydraTools->Options drop down menu. That's it!
You will notice a command named Edit HydraCAD Layer Script just above it. This allows you to edit the layer.scr file directly. We do not recommend this, as script files are very sensitive to extra characters. Use the Create Layer Script from this Drawing command instead. The next time you use Rebuild HydraCAD Layers (RBL) or Super Purge (PUR), our layer script will be run with your custom settings, not ours.
If you make a mistake and some of our layers are missing or the layer script will not run or locks up, it is easy to get back to our defaults. In that case, use the Restore Original HydraCAD Layers command just below the Create Layer Script from this Drawing command.