A high-speed remote landslide simulation test device with a variable angle includes a support adjustment component, slide plates, and loose leaves. The device first transmits the operation paths of adjusting the slide plate at different angles to the controller, and the personnel operates the control panel to control the support jack, the motor, and the electromagnet to start and stop through the controller, the output shaft of the motor drives the stainless steel threaded rod to rotate, the controller first energizes one electromagnet and disconnects the other three electromagnets, which can only make the stainless steel threaded rod rotate in a fixed position inside the inner threaded pipe, and the three inner threaded pipes follow the rotation direction of the stainless steel threaded rod, thus, the position of the support jack can be moved separately.

A method for designing and manufacturing a building system in regards to environmental factors including, acquiring a visual image for determining topographic characteristics of a surface, generating a set of architectural geometries in a computing system, creating design models representing an architectural design of the building system, geometric comparison and evaluation of the topographic characteristics with the architectural geometries, selecting a design model for manufacturing the building system, manufacturing a plurality of interlockable building bricks, obtaining a plurality of interlockable modular structure by combining the interlockable building bricks, each of said bricks having a shell portion formed on the inner core of the interlockable building bricks so that the modular structure has common outer surface formed from said shell portion of each brick. The shell portion includes TiO.sub.2 exhibiting a radiation-protective effect and manufacture of the building system in regards to environmental factors.

A method and structure for for displaying an optimal tactile display, comprising transforming a CAD image into physical dimensions and creating an optimal tactile display reflective of the physical dimensions utilizing instructions from one or more microcontrollers. The optimal tactile display comprises an array display surface comprising a collection of controlled pins, a quantity of controlled pins propositional to a size of the physical dimensions, wherein each pin assembly of the controlled pins configured to be extended pins based upon the size of the physical dimensions, a plurality of planetary motors, each of the planetary motors associated with the controlled pins and configured to move the plurality of pins, a control unit to monitor the extension of the plurality of pins, and respective linear actuators configured to drive a respective motor shaft connected to a respective lead screw, each respective lead screw placed inside of each of respective threaded circular cross-section stoke tube.

A method and structure for for displaying an optimal tactile display, comprising transforming a CAD image into physical dimensions and creating an optimal tactile display reflective of the physical dimensions utilizing instructions from one or more microcontrollers. The optimal tactile display comprises an array display surface comprising a collection of controlled pins, a quantity of controlled pins propositional to a size of the physical dimensions, wherein each pin assembly of the controlled pins configured to be extended pins based upon the size of the physical dimensions, a plurality of planetary motors, each of the planetary motors associated with the controlled pins and configured to move the plurality of pins, a control unit to monitor the extension of the plurality of pins, and respective linear actuators configured to drive a respective motor shaft connected to a respective lead screw, each respective lead screw placed inside of each of respective threaded circular cross-section stoke tube.

Systems and methods for training firefighters and other first responders are provided. The systems include a plurality of sensors configured to detect at least one ambient condition, such as, temperature; a receiver configured to receive the electric signals from the plurality of sensors; and a digital storage device operatively connected to the receiver and adapted to store the electrical signals corresponding to the detected ambient conditions. The data detected by the sensors can be retrieved for later review, analysis, and training. The systems may include at least one video recorder and/or at least one infrared image recorder each configured to detect images that can be stored for later retrieval and a synchronizing device adapted to synchronize the sensor data with the recorded images for later review. Methods of implementing the systems and portable cases enclosing the system are also provided.

Systems and methods for training firefighters and other first responders are provided. The systems include a plurality of sensors configured to detect at least one ambient condition, such as, temperature; a receiver configured to receive the electric signals from the plurality of sensors; and a digital storage device operatively connected to the receiver and adapted to store the electrical signals corresponding to the detected ambient conditions. The data detected by the sensors can be retrieved for later review, analysis, and training. The systems may include at least one video recorder and/or at least one infrared image recorder each configured to detect images that can be stored for later retrieval and a synchronizing device adapted to synchronize the sensor data with the recorded images for later review. Methods of implementing the systems and portable cases enclosing the system are also provided.

Sets of structural parts (CPE) designed for the composition of Architectural didactic models (MD) for learning or research carried out by students, teachers, engineers, architects or anyone else interested in the subject; (CPE) comprise structural elements vertical and transverse sections (40) forming the pillars and beams and formed by springs (41) and (42) are cylindrical and helical, the traction and compression of which deformations (d1) or displacements (d2) of the structures (MD); (ii) metal cables (50) which comprises bracing and struts; (iii) plates (60) simulating slabs, walls and coverings made of plastic for horizontal locking, vertical and inclined between the elements (40) and (50) so as to simulate slabs, walls and roofs of a building; and (iv) groupings of links (AG), also, formed by labeled bonds (70) comprising balls metallic (71) for receiving the magnets (IM) of the elements (40) and (50) or other magnets (IM) of other structural parts (CPE) and rigid connections (90) configured by trapezoidal-shaped parts (91) where in at least that in three flat faces 91a, 91b and 91c are provided housings (r1) for magnet assembly (IM); the assembly of the parts CPE 30, 40, 50, 60 and (70) and inclusion of the base connection pieces (80), rigid links (90) and links (100) comprises a kit (10) mounted in a compact housing (20) with a hinged lid (21) which includes an instruction manual (T1) where possible structures obtained with the arrangement of the parts Structural Funds (FPC).

Sets of structural parts (CPE) designed for the composition of Architectural didactic models (MD) for learning or research carried out by students, teachers, engineers, architects or anyone else interested in the subject; (CPE) comprise structural elements vertical and transverse sections (40) forming the pillars and beams and formed by springs (41) and (42) are cylindrical and helical, the traction and compression of which deformations (d1) or displacements (d2) of the structures (MD); (ii) metal cables (50) which comprises bracing and struts; (iii) plates (60) simulating slabs, walls and coverings made of plastic for horizontal locking, vertical and inclined between the elements (40) and (50) so as to simulate slabs, walls and roofs of a building; and (iv) groupings of links (AG), also, formed by labeled bonds (70) comprising balls metallic (71) for receiving the magnets (IM) of the elements (40) and (50) or other magnets (IM) of other structural parts (CPE) and rigid connections (90) configured by trapezoidal-shaped parts (91) where in at least that in three flat faces 91a, 91b and 91c are provided housings (r1) for magnet assembly (IM); the assembly of the parts CPE 30, 40, 50, 60 and (70) and inclusion of the base connection pieces (80), rigid links (90) and links (100) comprises a kit (10) mounted in a compact housing (20) with a hinged lid (21) which includes an instruction manual (T1) where possible structures obtained with the arrangement of the parts Structural Funds (FPC).

The present invention is a pre-construction sample that is made of a flexible material and has a product image corresponding to an actual construction product. The pre-construction sample is preferably at least 18 inches in one dimension. The pre-construction sample is preferably produced by a printing process having at least 200 dpi, and more preferably 300 dpi. Kits of pre-construction samples are provided to assist the consumer choosing from among various construction products, such as flooring, decking, countertops, cabinets, windows, shingles, among others.

The present invention is a pre-construction sample that is made of a flexible material and has a product image corresponding to an actual construction product. The pre-construction sample is preferably at least 18 inches in one dimension. The pre-construction sample is preferably produced by a printing process having at least 200 dpi, and more preferably 300 dpi. Kits of pre-construction samples are provided to assist the consumer choosing from among various construction products, such as flooring, decking, countertops, cabinets, windows, shingles, among others.