3C, the curved rigid retention member 105 may have a concave retention edge 110 with a radius of curvature 150. The resilient plate member 115 may have a convex (relative to the material) attachment edge 120 with a radius of curvature 145. The attachment edge radius of curvature 145 may be greater than the retention edge radius of curvature 150, i.e., the attachment edge may have a curvature that is less than the retention edge, such that an undulating structure may be formed when the attachment edge is joined to the retention edge. 3C, the curved rigid retention member 105 may have a concave retention edge 110 with a radius of curvature 150. The resilient plate member 115 may also have a concave (relative to the material) attachment edge 120 having a radius of curvature 145. The attachment edge radius of curvature 145 may be different from or equal to the retention edge radius of curvature 150 and may form an undulating structure when the attachment edge is joined to the retention edge.
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In general, if the retaining edge is convex, the attachment edge must be concave and the attachment edge must have a greater curvature and thus a smaller radius of curvature. The curvature of the edge is described as convex or concave with respect to the body of the element. 3B, the curved rigid retention member 105 may have a concave retention edge 110 with a radius of curvature 150. However, the elastic plate member 115 may have a straight attachment edge 120 as its attachment edge. The relief structure may be created by joining a rigid retaining member to a resilient plate member having an attachment edge with a curvature different from the curvature of the retaining member. Straight may be interpreted as having an infinite radius of curvature and thus greater than the radius of curvature 150 of the retaining edge 110. When joining the attachment edge to the retaining edge, an undulation is formed.
Fig. 3A shows a schematic plan view of an exemplary convex curved rigid retention member and a resilient plate member having a concave attachment edge of the present invention, where the two may be combined to form an undulating structure. Fig. 5A shows a schematic side view of an exemplary rigid ring and flexible conical shell, where the two may be combined to form the undulation structure of the present invention.
Dolor Espalda Baja
The engagement may be, for example, along the attachment edge, and may form an undulating structure having one or more transverse deformations or snap-fit portions. Dolor de espalda mareos cansancio . Alternatively, the retaining rim may be effectively located on other portions of the rigid ring, such as but not limited to the outer periphery or upper or lower surface of the ring.
1B and shows the retention of the attachment edge 120 of the resilient plate member 115 within the detent groove 135 of the curved rigid retention member 105. The upper and lower edges of the detent groove may effectively serve as the detent member 130, which may help control and maintain the lateral deformation of the resilient plate member. This may, for example, ensure that a portion of the attached resilient plate member 115 is in compression, snapping the portion to form the desired relief structure. Fig. 6A shows a schematic plan view of an exemplary rigid ring and flexible disk, which may be combined to form the undulating structure of the present invention.
Dolor De Cabeza
Fig. 2A shows a plan view of another exemplary relief structure of the present invention. Fig. 1B shows a schematic plan view of a rigid retention member and a resilient plate member, which may be combined to form an exemplary undulating structure of the present invention. Figure 7A shows a schematic side view of an exemplary rigid ring and flexible right elliptic cylinder, which can be combined to form the undulation structure of the present invention. Fig. 7B shows a schematic plan view of a relief structure of the invention, wherein the relief structure is formed by rigid rings and flexible straight elliptic cylinders.
Tipos De Dolor
Fig. 4B shows a schematic plan view of the relief structure of the present invention, wherein the relief structure is composed of a rigid ring and a resilient straight annular cylindrical shell. In alternative embodiments, the engagement between the cylindrical housing and the rigid boss element may be achieved by one or more passive stop members, or by one or more active stop members, or some combination thereof. The resilient cylindrical shell may be attached to the inner boss 245 of the rigid boss element 246, for example, with the boss periphery of its lower edge, which may be achieved, for example, by providing a detent groove on the inner periphery of the rigid boss element. When engaged, the resilient cylindrical shell may snap and deform to have one or more transverse deformations 125, thereby forming an undulating structure. Dolor de espalda y falta de aire . The lower edge 240 of the cylindrical shell may for example serve as an attachment edge.
The disk 180 may be made of a suitable resilient material, for example, and has an internal cutout 185. The perimeter 190 of the internal cutout may serve as an attachment edge. Depending on the position of the retaining edge, a suitable relief structure may be formed by making the average deformation angle of the disc any angle in the range of 10 to 170 degrees, more preferably in a more limited range between 45 and 135 degrees, and the average deformation angle may be selected to obtain a suitable amplitude of the transverse deformation of the relief structure.
Dolor Espalda Pecho
The resilient plate member may be made of any suitable flexible or resilient material, such as, but not limited to, a polymer, a plastic, a thin metal alloy, or some combination thereof. To facilitate such fluctuations, the elastic plate may be engaged to the rigid stop member by means of a suitably positioned passive but movable stop member that may oscillate about their attachment point to the holding member. The actuator or propulsion embodiments are driven by an elastic or variable length transducer that applies a force to a deforming member, which in turn applies a force to a surrounding fluid such as air or water. The relief structure comprises a fastening sheet and one or more working input elements for deforming the fastening sheet in a relief manner, wherein each point extends at least partially along a path of the figure-8 shape in a series of points on a curved shape contour of the fastening sheet.