FEATURES

SWIPE

ROLLBOT

FEATURES

The surface of the rollbot consists of a very durable TPU. The rollbot wears a neoprene suit designed for a more enjoyable roll.

FLEXIBLE

SURFACE

Rollbot always stays in a defensively responsible supine position throughout manipulation.

SUPINE

POSITION

The spine springs are extremely sturdy to support your weight when performing drills from turtle position and applying twister submissions.

SPINE

SPRINGS

The springs have been chosen through specific criteria and rigorous testing. They are rigid enough to support the user and pliable enough for the user to work through various manipulations.

SPRING

TENSION

The ballast is strategically placed so the rollbot will always favor the sit up position. This creates a more active interaction compared to a lifeless dummy.

WEIGHT

BALLAST

Each joint is constructed with special springs to simulate tendon and ligament attachments for comparable anatomic range of motion and rebound.

SPRING LOADED

JOINTS

Each joint was thoughtfully designed to move through anatomic range of motion during manipulation.

JOINT

ARTICULATION

To replicate realistic movement and injury, the framework bones were designed with comparable anatomy.

ACCURATE

BONE GEOMETRY

When the arm bar is executed, the arm will start to extend and dislocate at the elbow joint as the user further twists the arm into hyperextension and a pop is felt and heard.

ELBOW

DISLOCATION

When the ankle lock is executed, the foot will start to plantarflex. Tearing of the anterior ankle ligaments is simulated when excessive plantarflexion is applied and a popping sound will occur. When applied correctly, the Rollbot ankle joint will simulate this injury with a palpable ankle joint break.

FOOT INJURY

SIMULATION

A prominence can be felt on the medial proximal tibial region. When executing an inside heel hook, the knee is forced to move and twist laterally and the user will feel the injury on the Rollbot knee.

LCL INJURY

SIMULATION

A prominence can be felt on the lateral proximal tibial region. When executing an outside heel hook, the knee is forced to move and twist medially and the user will feel the injury on the rollbot knee.

MCL INJURY

SIMULATION

Sensors are placed in anatomic position. In order to activate it, you will have to have precise technique. The artery can sense different levels of pressure.

CAROTID

ARTERY

The lights will illuminate from red to green located on the front and back of the head.n

LED

INDICATORS

Highly sensitive flexible nanometer materials are used to detect even the smallest changes in pressure. With a sensitivity range of a few grams to a few kilograms.

VARIABLE

PRESSURE

When both sensors are have been triggered with more than 7 lbs of pressure, it will activate a sound track.

PERFECT

TECHNIQUE

The lights will illuminate purple located on the front and back of the head.

LED

INDICATORS

When then sensors have over 7 lbs of pressure applied simultaneously, an audio track countdown will be activated.

AUDIO

TIMER

PRE-ORDER