Abstract: Disclosed is a pile connection for horizontally fixing an elongated beam for a foundation support system. In particular, disclosed is a pile connection including at least one pile sleeve and at least one coupling attaching the at least one pile sleeve to an elongated beam such that a pile within the at least one pile sleeve extends between a top and bottom of the beam. Such a configuration provides a cost-effective, modular, and scalable system that is easily installed and adaptable to a variety of different terrains.

Abstract: A micropile connection for supporting a vertical pile for a support system is disclosed herein. The micropile connection includes a base and two micropile sleeves attached thereto. The two micropile sleeves are configured to direct micropiles from opposing sides of the base across the base, such that the two micropiles cross through a vertical plane intersecting the base and between lateral edges of the base.

Abstract: A pile connection comprises at least one fixture having a collar portion, a plurality of micropile sleeves, a plurality of gusset members extending between the collar portion and the micropile sleeves, and at least one connecting member that couples adjacent gusset members and that is spaced apart from the collar portion. A recess bounded by a wall of the collar portion is configured to contact a portion of a vertical pile. One or more fasteners may be used to press the wall against the vertical pile, with certain embodiments employing two complementary fixtures that may be coupled to one another (e.g., using the fasteners) along opposing sides of the vertical pile. Each micropile sleeve is configured to receive a micropile that may be driven through the sleeve into the ground at a position spaced apart from the vertical pile.

Abstract: Disclosed is a pile connection with an open collar section. The pile connection includes a collar configured to attach to an elongated beam extending along a beam axis, the collar comprising a primary collar section defining a gap, the primary collar section configured to partially surround the elongated beam. The pile connection further includes a first pile sleeve comprising a first inlet, a first outlet, and a first outer surface extending therebetween, at least a portion of the first outer surface attached to the primary collar section, the first pile sleeve configured to receive a first pile.

Abstract: A micropile connection for supporting a vertical pile for a support system is disclosed herein. The micropile connection includes a base and two micropile sleeves attached thereto. The two micropile sleeves are configured to direct micropiles from opposing sides of the base across the base, such that the two micropiles cross through a vertical plane intersecting the base and between lateral edges of the base. The micropile connection is compact and easily attached to the pile, thereby resulting in mounting micropiles to the pile for additional support. Use of the micropile connection may decrease the time and expense associated with rectifying refusals.

Abstract: Disclosed is a pile connection for horizontally fixing an elongated beam for a foundation support system. In particular, disclosed is a pile connection including at least one pile sleeve and at least one coupling attaching the at least one pile sleeve to an elongated beam such that a pile within the at least one pile sleeve extends between a top and bottom of the beam. Such a configuration provides a cost-effective, modular, and scalable system that is easily installed and adaptable to a variety of different terrains.

Abstract: A subject (1) is illuminated by a light source (2) and observed by a pair of cameras (3). The outputs of the cameras (3) are input to an image processor (4), operated under the control of a controller (5), which also controls operation of the light source (2). The light source (2) transmits radiation in a frequency range that is limited substantially to a region of increased opacity in the atmospheric transmission spectrum. This may enable the illumination to be quite clearly discriminated, even at relatively great distances and in bright daylight.

Abstract: By providing a high speed welding system for fusing adjacent foam profiles in a continuous manufacturing operation, a unique, integrated, foam welding and profile manufacturing system is attained which is capable of producing virtually any desired foam product from foam extrusions without requiring the use of expensive molds or forming components, and which significantly reduces expensive scrap found in prior art construction systems. In accordance with the teaching of the present invention, any desired cross-sectional shape or configuration is capable of being manufactured in fully automated, high-volume, rapid production conditions, with virtual ease and simplicity. Furthermore, by employing the present invention, foam profiles which previously were unattainable due to their structural configurations, are quickly and easily constructed in a mass production operation.

Abstract: A subject (1) is illuminated by a light source (2) and observed by a pair of cameras (3). The outputs of the cameras (3) are input to an image processor (4), operated under the control of a controller (5), which also controls operation of the light source (2). The light source (2) transmits radiation in a frequency range that is limited substantially to a region of increased opacity in the atmospheric transmission spectrum. This may enable the illumination to be quite clearly discriminated, even at relatively great distances and in bright daylight.

Abstract: By providing a high speed welding system for fusing adjacent foam profiles in a continuous manufacturing operation, a unique, integrated, foam welding and profile manufacturing system is attained which is capable of producing virtually any desired foam product from foam extrusions without requiring the use of expensive molds or forming components, and which significantly reduces expensive scrap found in prior art construction systems. In accordance with the teaching of the present invention, any desired cross-sectional shape or configuration is capable of being manufactured in fully automated, high-volume, rapid production conditions, with virtual ease and simplicity. Furthermore, by employing the present invention, foam profiles which previously were unattainable due to their structural configurations, are quickly and easily constructed in a mass production operation.

Abstract: By providing a high speed welding system for fusing adjacent foam profiles in a continuous manufacturing operation, a unique, integrated, foam welding and profile manufacturing system is attained which is capable of producing virtually any desired foam product from foam extrusions without requiring the use of expensive molds or forming components, and which significantly reduces expensive scrap found in prior art construction systems. In accordance with the teaching of the present invention, any desired cross-sectional shape or configuration is capable of being manufactured in fully automated, high-volume, rapid production conditions, with virtual ease and simplicity. Furthermore, by employing the present invention, foam profiles which previously were unattainable due to their structural configurations, are quickly and easily constructed in a mass production operation.