Premium Video – Let’s make her cum with the doxy remote control
This is one of the few video’s we charge for to raise money for new projects. In this one we make Miss K cum while strapped to the remote control doxy
https://www.pornhub.com/view_video.php?viewkey=ph5d068c5879731
The Bean Button – Remote control of a Doxy magic wand
Twitter controlled livestream test
This time with 4 E-stim channels for people to control!
Sneak peak – Gaining full control of a Doxy magic wand
Managed to add some gubbins inside my doxy so I can now choose whether i want it to work using the original electronics or control it myself externally. Now need to build a control box
This has the potential to make livestreams a lot more fun 🙂
Arduino Controlled Shock Collar
Links to the bits I used
If you need help or want to show off what you use this code for then pop over to my discord by clicking HERE
/*
Originally developed by Smouldery and Mikey who very kindly allowed us the use of their code.
Link to Smoulderys original code: https://github.com/smouldery/shock-collar-control/blob/master/Arduino%20Modules/transmitter_vars.ino
adapted by Deviant Designs
*/
byte buttonPin = 9;
//=================================================== START OF COLLAR SETUP CODE ======================================================================
//const int shock_min = 0; // Minimum of power a command will be executed at
const int shock_delay = 10; // Maximum rate at which the shock function can be used at
//const int cmd_max = 1000; // Maximum of milliseconds which a command can be executed at
// Constant variables
const int pin_led = LED_BUILTIN; // Pin for indication LED
const int pin_rtx = 14; // Pin to transmit over
const String key = "00101100101001010"; // Key of the transmitter, dont touch if you dont know how it works
// Variables which do change
int collar_chan = 0; // Can be channel 0 or 1
int collar_duration = 500; // Duration of the command in milliseconds
int collar_power = 10; // Strength of the command, can be 0-100, but will be limited by shock_min and shock_max
// Define values for easier recognition
#define COLLAR_LED 1
#define COLLAR_BEEP 2
#define COLLAR_VIB 3
#define COLLAR_ZAP 4
// Strings used for building up the command sequence
String sequence, power, channelnorm, channelinv, modenorm, modeinv;
// Store the last time anything was transmitted to the collar
unsigned long transmit_last = 0;
unsigned long shock_last = 0;
void transmit_command(int c, int m, int p = 0)
{
transmit_last = millis();
switch (c) // Check the channel
{
case 1: // Channel 1
channelnorm = "111";
channelinv = "000";
break;
default: // Channel 0
channelnorm = "000";
channelinv = "111";
break;
}
switch (m) // Check the mode
{
case 1: // Light
modenorm = "1000";
modeinv = "1110";
break;
case 2: // Beep
modenorm = "0100";
modeinv = "1101";
break;
case 4: // Shock
modenorm = "0001";
modeinv = "0111";
shock_last = millis();
break;
default: // Vibrate
modenorm = "0010";
modeinv = "1011";
// p = 10; // Set strengh to 10 for the command to be executed properly
break;
}
// Convert power to binary
int zeros = String(p, BIN).length();
String power;
for (int i = 0; i < 7 - zeros; i++)
{
power = power + "0";
}
power = power + String(p, BIN);
String sequence = "1" + channelnorm + modenorm + key + power + modeinv + channelinv + "00";
digitalWrite(pin_led, LOW);
// d = constrain(d, 50, cmd_max); // Clamp duration of the command
unsigned long cmd_start = millis();
// while (millis() - cmd_start < d)
// {
// start bit
digitalWrite(pin_rtx, HIGH);
delayMicroseconds(1500); // wait 1500 uS
digitalWrite(pin_rtx, LOW);
delayMicroseconds(741);// wait 741 uS
for (int n = 0; n < 41 ; n++)
{
if (sequence.charAt(n) == '1') // Transmit a one
{
digitalWrite(pin_rtx, HIGH);
delayMicroseconds(741);
digitalWrite(pin_rtx, LOW);
delayMicroseconds(247);
}
else // Transmit a zero
{
digitalWrite(pin_rtx, HIGH);
delayMicroseconds(247);
digitalWrite(pin_rtx, LOW);
delayMicroseconds(741);
}
}
delayMicroseconds(4500);
// }
digitalWrite(pin_led, HIGH);
}
void collar_keepalive()
{
if (millis() - transmit_last >= 120000) // Send command to the collar at least every 2 minutes to make it stay on
{
Serial.println("Keep-alive:\tCollar");
transmit_command(collar_chan, COLLAR_LED, 50);
}
}
//=================================================== END OF COLLAR SETUP CODE ======================================================================
void setup()
{
//=================================================== START OF COLLAR SETUP CODE ======================================================================
pinMode(pin_rtx, OUTPUT); // Set transmitter pin as output
pinMode(pin_led, OUTPUT); // Set LED pin as output
Serial.begin(115200);
//=================================================== END OF COLLAR SETUP CODE ======================================================================
pinMode(buttonPin, INPUT_PULLUP);
}
void loop()
{
collar_keepalive();
if (digitalRead(buttonPin) == LOW) {
transmit_command(collar_chan, COLLAR_VIB, 100);
}
}
DIY 3D printed Bipolar Nipple Electrodes
The Wobble Board
1 Hour Punishment
Miss K was extremely naughty and needed to be punished. So I put her in the nipple gag and and let twitter administer some shockingly good punishment. This video is our first that is more of a BDSM scene instead of us just rambling to the camera about a new toy so we have decided to charge for this one to help us keep Deviant Designs going. All normal content will still be free, this includes new toy videos and our vanilla livestreams at the desk. We are charging for this one as it’s not a new toy, the video has boobs, and it’s pretty good value for money (over an hour long!!!)
https://www.modelhub.com/video/ph5c634eb6e97ce
highly recommend you watch to the end to see the gag drop!
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