The first approach I have experimented with consists of securing the spout via a hook made of solid, if relatively thin, wire that is also securely attached to the cage when it is locked. An example of that was pictured at the end of the Introduction post in this blog.
I bent stainless steel wire (1/16" diameter, 316 grade) in the shape below, whereby:
- It slides over the cage's locking sleeve, behind the lock hole and thus cannot be removed once the padlock is in place
- It is shaped to follow the shape of the top of the cage, thus making it inconspicuous
- It passes over the top front bar of the cage, providing unyielding resistance to retraction
- Both ends of the wire hook into the tip of the spout by passing through the top cross hole, bending back out inside the spout, and ending pretty much flush with the spout tip
- The hook enters the spout hole at a shallow enough angle to allow a vinyl cap attached to the wire pair to slide over the spout, or slide back out to uncover it.
When locking up my precious bits, I typically put the testes ring (aka "base ring"), if any, in place first. I then install the TetherSpout as explained in my Installation post on this blog. At the end of that procedure, I temporarily keep the floss threaded through the spout tip, as it helps with the next step.
I present the cage in front of my penis and pass the floss through the rear of the cage and into the front opening where the spout is intended to come through. I then slide the cage on, without locking it yet. I pull lightly on the floss to orient the spout as desired and place the locking wire's hook into the top cross hole. Then, I rotate the hook into the spout so the wire pair comes to lie atop the cage, I pull it forward enough so the rear lines up in front of the locking sleeve and I slide it back over it. Padlocking the cage locks the wire in (at this point, I discard the floss).
I added a vinyl cap to the above system after my first experiments because:
- I had observed deferred leakage of a small amount of residual urine
- I was concerned about the possibility of impurities, such as lint, eventually finding their way up into my urethra
- The weather where I live can be very dry at times (below 10% relative humidity) and I though exposure to that wouldn't be good for the delicate urethra wall
- I like to go in the pool, sometimes while locked.
When I am ready to urinate, I slide the cap back off the spout and along the wire until it is out of the way. A bit of toilet paper is often handy to counteract the slipperiness of the vinyl. Once done with bodily functions, I slide the cap along the wires so it presents itself at an angle in front of the spout. I press on the cap's tip, and it snaps back on.
There is a picture, a bit further down, that shows the cap in urination position...
The above-described locking wire is the latest version in a series of experiments with that approach. It is easier to install than its predecessors, but it has one potential drawback: it requires that the cage be secured with a padlock. If one's cage uses a security screw that has a low profile, this type of wire will not be properly held to the cage. The previous versions of locking wires that I had made (to fit a Mature Metal "Watchful Mistress") pass fully over the cage's locking sleeve and come to rest under the base ring's locking post. Thus, regardless of the cage's locking mechanism, the wire cannot be removed when the cage is locked.
Here are two such configurations:
The top one was my first prototype. It had a tendency to interfere with the padlock, so I made the bottom one with a wider shape in the place where it passes under the padlock. Although not really noticeable on the pictures, those wide sides are slightly curved downwards, to somewhat follow the shape of the cage's back ring and thus clear space for the padlock's body.
While we're at it, here's another picture of that wire that also shows it entering the side of the vinyl cap:
Here it is installed on the Watchful Mistress:
And here is another picture that shows the vinyl cap lifted up into urination position:
I stated earlier that this wire was not as easy to install as the one I showed first (on the "Contender"), and the reason for that may not be immediately obvious... The problem is that when it is swung into position, it requires applying a bit of force to make it pass over the locking sleeve, as it catches the top back of it. This can be mitigated by making the wire a bit longer, but doing so causes it to be fairly loose, as it can then slide back and forth quite a bit between the front of the base ring and the back of the cage. That isn't a problem with tight enough underwear but otherwise, it can look a bit sloppy.
To conclude this show-and-tell about my experiments with locking wires, here is a picture of my first prototype, made for a HolyTrainer v2:
This one was made of 14 gauge electrical copper wire. That wire is a bit thicker than 1/16" but two wire end would still pass side by side in the TetherSpout cross holes. I hadn't thought about doing it that way at the time,and soldering the copper was easy enough (by comparison, welding thin steel wire without destroying it is still quite challenging for me), so the hook is made of a single wire end.
Here's what it looked like when locked onto the Holy Trainer:
Note that there isn't enough space at the tip of that cage to fit the vinyl cap.
I would actually recommend that anyone trying their hand at making locking wires use this kind of copper wire first. It is easy to come by (in the USA at least), reasonably sturdy yet much easier to bend, snip, and file than steel. That said, for long term use (stretches of more than a couple of days), you should definitely go with stainless steel.
A final note, about urine flow:
the ends of the locking wires located inside the spout do not cause as much of an obstruction as one would think, and the flow of urine is not impeded. However, some urine does get diverted through the bottom hole. It is not a violent jet (at least for me), but I wouldn't advise using a urinal with this setup.
I am working on a design that, among other virtues, solves that particular problem. But that will be the subject of another post...