A device for performing health, wellness, and fitness to facilitate stretching. System, method and device for performing are disclosed. The methods & apparatus have sufficient accuracy for practical implementation in personal & corporate wellness. Solid or multi-layer, multi-piece surface comprises a plurality of layers, wherein at least one layer is a decorative outer layer selected based on choice and availability and at least one bottom layer comprising a slip-resistant under surface.

The present disclosure provides methods, processes, reagents for a novel health wellness and fitness placement mat.

The present invention comprises a non-rectangular or square design recreational placement mat that will eliminate the side or no side visual therefore enhancing the mentality of the participate by eliminating visual stimuli that may cause apprehension during exercise that may hinder results and benefits. Out of sight, out of mind. Enhancing the safety of the participate immediately. The non-rectangular/square design enhances the mentality by eliminating doubt or the thought of falling off or out of the foreseen sides or lack thereof. No sides increase focus and intent, improving psychophysiological self-safety.

The present disclosure relates to an inflatable structure transformable between a deflated state and an inflated state. The inflatable structure comprises a drop stitch fabric having a first layer and a second layer tethered by drop stitches. The inflatable structure is provided with, along at least a portion of an edge of the drop stitch fabric, an edge fixation line and an at least first inner fixation line at an at least first margin from the edge, the edge fixation line and the at least first inner fixation line comprising coupling means fixating the first layer to the second layer. The inflatable structure is further provided with, between the edge fixation line and the at least first inner fixation line, a non-inflatable connectable element e.g. adapted to be connectable with a detachably attachable counterpart element.

The present invention discloses a game path formed by building blocks in a pattern of fan-shaped petal. The building block unit itself is inclined, and a left and right side of the building block unit are provided respectively with an arc-shaped concave edge, a rear side of the building block unit is an arc edge, and the arc edge is connected to the two concave edges. All kind of game paths can be formed by arranging and combining the plural building block units, and when the plural building block units are to be collected, they can be stacked from top to bottom.

The present invention discloses a game path formed by building blocks in a pattern of fan-shaped petal. The building block unit itself is inclined, and a left and right side of the building block unit are provided respectively with an arc-shaped concave edge, a rear side of the building block unit is an arc edge, and the arc edge is connected to the two concave edges. All kind of game paths can be formed by arranging and combining the plural building block units, and when the plural building block units are to be collected, they can be stacked from top to bottom.

An abdominal exercise mat having and upper portion and a leg portion. The upper portion having a base surface and an upper surface. The upper surface having an outwardly concave configuration defined by an upwardly inclined upper end section and an upwardly inclined lower end section. The leg portion extends away from the bottom end of the upper portion, and includes a first side leg and a second side leg. The first and second side legs define a channel therebetween, wherein the distal ends of each of the first side leg and the second side leg are configured to move independently of each other.

An abdominal exercise mat having and upper portion and a leg portion. The upper portion having a base surface and an upper surface. The upper surface having an outwardly concave configuration defined by an upwardly inclined upper end section and an upwardly inclined lower end section. The leg portion extends away from the bottom end of the upper portion, and includes a first side leg and a second side leg. The first and second side legs define a channel therebetween, wherein the distal ends of each of the first side leg and the second side leg are configured to move independently of each other.

A floor mat structure includes an upper cover, a plurality of light bars, a lower cover and at least one sensing element. The upper cover includes a main body and a plurality of indicator blocks. The main body has an upper surface and a lower surface opposite to each other. The indicator blocks are separated from one another and are disposed on the lower surface. The light bars are disposed on the upper cover and are embedded in the upper surface. The lower cover assembled to the upper cover includes a base and a plurality of bumps. The base has a configuration surface facing the lower surface. The bumps are separated from one another and are disposed on the configuration surface, wherein orthographic projections of the indicator blocks on the configuration surface does not overlap the bumps. The sensing element is disposed on the lower cover and are located at at least one bump. When the sensing element senses pressure from the upper cover, the light bars illuminate. Also, a floor mat assembly is provided.

A floor mat structure includes an upper cover, a plurality of light bars, a lower cover and at least one sensing element. The upper cover includes a main body and a plurality of indicator blocks. The main body has an upper surface and a lower surface opposite to each other. The indicator blocks are separated from one another and are disposed on the lower surface. The light bars are disposed on the upper cover and are embedded in the upper surface. The lower cover assembled to the upper cover includes a base and a plurality of bumps. The base has a configuration surface facing the lower surface. The bumps are separated from one another and are disposed on the configuration surface, wherein orthographic projections of the indicator blocks on the configuration surface does not overlap the bumps. The sensing element is disposed on the lower cover and are located at at least one bump. When the sensing element senses pressure from the upper cover, the light bars illuminate. Also, a floor mat assembly is provided.

The invention concerns a mat system comprising a plurality of individual mats, each with a top side, a bottom side, and at least one rectilinear side edge. The rectilinear side edges each have at least one undercut recess, corresponding to connecting means which enable, by engagement of each one of their halves in an undercut recess, a connecting of two mats along their rectilinear side edges. The individual mats and the connecting means each comprise at least one layer of foam material. In order to equal out even large tolerances in the orienting of the individual mats to each other, the connecting means each comprise two interconnected circular segment regions with a radius R, R, wherein for the spacing A of the centre points of the circular segment regions the following relation applies: (I) 0.8*(R+R)<A<1.3*(R+R).

The invention concerns a mat system comprising a plurality of individual mats, each with a top side, a bottom side, and at least one rectilinear side edge. The rectilinear side edges each have at least one undercut recess, corresponding to connecting means which enable, by engagement of each one of their halves in an undercut recess, a connecting of two mats along their rectilinear side edges. The individual mats and the connecting means each comprise at least one layer of foam material. In order to equal out even large tolerances in the orienting of the individual mats to each other, the connecting means each comprise two interconnected circular segment regions with a radius R, R, wherein for the spacing A of the centre points of the circular segment regions the following relation applies: (I) 0.8*(R+R)<A<1.3*(R+R).