This study proposes an integrated testbed designed to overcome the limitations in flexibility and scalability that arise when applying reinforcement learning algorithms—such as configuring environments, modifying agent models, and adjusting reward structures. To this end, we utilize a simulator capable of automatically generating virtual environments based on the Discrete Event System Specification (DEVS) and integrate the Unity engine with a Python server, thereby enabling the straightforward application of reinforcement learning algorithms. This approach allows users to rapidly configure various scenarios and replace environments or algorithms without complex adjustments. In the experiments, we trained the same reinforcement learning algorithm in both a stand- alone Python environment and a Unity-integrated environment to compare performance. The results confirm that the proposed testbed can provide reproducible experimental outcomes regardless of the environment implementation approach. While the Unity integration increased training time due to rendering and communication overhead, it offers the advantage of verifying reinforcement learning models in a more realistic and visually enriched virtual environment. Consequently, we anticipate that this practical and flexible testbed will be leveraged as a preliminary verification stage before real-world deployment in fields.