A toy construction robotics system including a robotics control unit, the robotics control unit comprising: a housing comprising coupling elements configured for releasably interconnecting the robotics control unit with cooperating toy construction elements; a processor comprising programmed instructions; a plurality of I/O-ports connected to communicate with the processor; a plurality of separate light emitters arranged in a two-dimensional array on a front side of the housing, each of the light emitters being operable in response to instructions from the processor so as to produce at least two different indicator states; wherein the light emitters are aligned with respect to the I/O-ports such that each of the I/O-ports has an associated light emitter next to it. The light emitters may be operable, in response to instructions from the processor, to produce a machine readable code encoding data in respect of the robotics control unit. The machine readable code may comprise instructions for interaction between the robotics control unit and an external device.

An electronic toy brick configured to be selectively attached to other toy bricks. One electronic toy brick having at least a top plate with projections, walls, an electrical node for receiving electricity, and a light device electrically coupled to the electrical node. At least one of the top plate and walls are translucent, partially translucent or have a hole to permit light from the light device to exit the toy brick.

An interactive toy including a reader for detecting a marker in a proximity of the interactive toy. The interactive toy also has a sensor for detecting movement of the interactive toy and a memory having programmed instructions and configuration data thereon. The programmed instructions are configured to control a response of the interactive toy to a detection of the marker, the response being defined at least in part by the configuration data. The interactive toy also has a processing unit configured to execute the programmed instructions according to the configuration data when the processing unit is in a play state. The processing unit is further configured to modify the configuration data in response to a combination of a detection of the marker in a proximity of the interactive toy, and a detection of a movement of the interactive toy when the processing unit is in a configuration state.

The presentation invention relates to a first electrical connector element for a modular construction element and/or system, including a first connector part having a plurality of electrical contacts electrically connected to a plurality of electrical conductors. The first electrical connector is adapted to connect with a second electrical connector element, and includes a strain relief part to securely hold the plurality of electrical conductors thereby securing the plurality of electrical conductors to the first electrical connector element. The first electrical connector also includes a number of lock and release elements for engaging with the second electrical connector element when mechanically and electrically coupled together and releasing the coupling of the first and the second electrical connector elements when subjected to one or more pull forces above a predetermined release threshold.

Method, modules and a system formed by connecting the modules for controlling payloads are disclosed. An activation signal is propagated in the system from a module to the modules connected to it. Upon receiving an activation signal, the module (after a pre-set or random delay) activates a payload associated with it, and transmits the activation signal (after another pre-set or random delay) to one or more modules connected to it. The system is initiated by a master module including a user activated switch producing the activation signal. The activation signal can be propagated in the system in one direction from the master to the last module, or carried bi-directionally allowing two way propagation, using a module which revert the direction of the activation signal propagation direction. A module may be individually powered by an internal power source such as a battery, or connected to external power source such as AC power. The system may use remote powering wherein few or all of the modules are powered from the same power source connected to the system in a single point. The power may be carried over dedicated wires or concurrently with the conductors carrying the activation signal. The payload may be a visual or an audible signaling device, and can be integrated within a module or external to it. The payload may be powered by a module or using a dedicated power source, and can involve randomness associated with its activation such as the delay, payload control or payload activation.

An information processing device to enable a user to create a program with visual operations, and to enable the stable implementation of many functions with a small number of devices. In a basic core, a pairing unit executes pairing with a user terminal that executes control for causing functional modules, to exhibit prescribed functions. A transmission information generation unit generates transmission information including: prescribed information to be used by the functional modules, to exhibit the prescribed functions or while exhibiting the prescribed functions on the basis of the control by the user terminal; and information indicating a transmission destination, which is one of the functional modules. A connection unit executes control to superimpose the transmission information on a signal for supplying power to the functional modules in the form of electric current and to transmit the signal to the functional modules.

Toys that comply with at least American Society for Testing and Materials educational and safety standards are standardized so that the standardized parts fit existing Duplo™ and Lego™ pieces and can be used interchangeably with other toys.

Method, modules and a system formed by connecting the modules for controlling payloads are disclosed. An activation signal is propagated in the system from a module to the modules connected to it. Upon receiving an activation signal, the module (after a pre-set or random delay) activates a payload associated with it, and transmits the activation signal (after another pre-set or random delay) to one or more modules connected to it. The system is initiated by a master module including a user activated switch producing the activation signal. The activation signal can be propagated in the system in one direction from the master to the last module, or carried bi-directionally allowing two way propagation, using a module which revert the direction of the activation signal propagation direction. A module may be individually powered by an internal power source such as a battery, or connected to external power source such as AC power. The system may use remote powering wherein few or all of the modules are powered from the same power source connected to the system in a single point. The power may be carried over dedicated wires or concurrently with the conductors carrying the activation signal. The payload may be a visual or an audible signaling device, and can be integrated within a module or external to it. The payload may be powered by a module or using a dedicated power source, and can involve randomness associated with its activation such as the delay, payload control or payload activation.

Circuit blocks are provided. A circuit block may include a substrate and at least one electrical component mounted on the substrate. The circuit block may also include a non-conductive frame coupled to the substrate, and at least one post coupled to the substrate and extending from the substrate and through at least a portion of the frame in a first direction substantially perpendicular to the major surface of the substrate. Moreover, the circuit block may include a contact coupled to a second, opposite surface of the substrate and including a corner section projecting outwardly from the frame and extending in at least two directions substantially perpendicular to a longitudinal axis of the at least one post. The block may also include at least one magnet positioned proximate the flexible corner section of the contact and configured to magnetically attract at least one other circuit block.

An interactive toy includes a housing, a control module, a motor, a rotating shaft, and an external member. The rotating shaft is exposed outside the housing, and is connected to the external member. The control module is configured to control the motor to drive the rotating shaft to rotate. The toy further includes a measurement module and an analysis module. The measurement module is configured to measure an angle by which the rotating shaft rotates from an initial stationary state to the state in which its rotating speed reaches the maximum. The analysis module is configured to compare a preset reference angle with the angle by which the rotating shaft from the initial stationary state to the state in which the rotating speed of the rotating shaft reaches the maximum to determine whether the external member encounters an obstacle.