A track switching element for providing a ride experience in an amusement ride that includes a pivotable track section that has a longitudinally extending support beam with a longitudinally extending upper surface, a first end and a second end, the support beam includes a pivot element located between the first end and the second end, and a longitudinally extending rail that is adapted to receive a vehicle and that is located adjacent the upper surface. The rail communicates with an entry rail section when the pivotable track section is in a first position. A support structure cooperates with the pivot element such that the pivotable track section is pivotable about the pivot element from the first position to at least a second position such that the rail communicates with an exit rail section in the second position.

A track switching element for providing a ride experience in an amusement ride that includes a pivotable track section that has a longitudinally extending support beam with a longitudinally extending upper surface, a first end and a second end, the support beam includes a pivot element located between the first end and the second end, and a longitudinally extending rail that is adapted to receive a vehicle and that is located adjacent the upper surface. The rail communicates with an entry rail section when the pivotable track section is in a first position. A support structure cooperates with the pivot element such that the pivotable track section is pivotable about the pivot element from the first position to at least a second position such that the rail communicates with an exit rail section in the second position.

The disclosed device provides improved hydraulic railroad switch points and presents a solution for avoiding the switch points from moving due to the spring force generated during manual installation or maintenance. The present device further provides a reliable point detection and indication mechanism. The device includes a trailable switching unit that enables a train to run through the trailable switching unit. A throw unit automatically adjusts plurality of rail and throw distances. The hydraulic cylinder provides constant forward and reverse movements, each movement in time defining an operation period. The hydraulic circuit unit increases the operation period. The center stroke unit blocks the hydraulic cylinder movement at the middle stroke during installation and maintenance. The mechanical target automatically indicates the position of a point rod. The spring unit produces the continuous thrust force that keeps the railroad switch points closed in forward and reverse positions. The proximity sensors detect the point rod position and adjust the point rod.

The disclosed device provides improved hydraulic railroad switch points and presents a solution for avoiding the switch points from moving due to the spring force generated during manual installation or maintenance. The present device further provides a reliable point detection and indication mechanism. The device includes a trailable switching unit that enables a train to run through the trailable switching unit. A throw unit automatically adjusts plurality of rail and throw distances. The hydraulic cylinder provides constant forward and reverse movements, each movement in time defining an operation period. The hydraulic circuit unit increases the operation period. The center stroke unit blocks the hydraulic cylinder movement at the middle stroke during installation and maintenance. The mechanical target automatically indicates the position of a point rod. The spring unit produces the continuous thrust force that keeps the railroad switch points closed in forward and reverse positions. The proximity sensors detect the point rod position and adjust the point rod.

A rail junction assembly (10) comprises a fixed rail portion (12) and a movable switch rail portion (14). The fixed rail portion (12) having a transfer region (26) which can be engaged by the switch rail portion (14) to effect transfer of a rail vehicle between the fixed and switch rail portions (12, 14). The switch rail portion (14) has an end region (28) movable into engagement with the transfer region (26) of the fixed rail portion (12). The transfer region (26) of the fixed rail portion (12) comprises an embedded rail portion embedded within an embedment (16).

A rail junction assembly (10) comprises a fixed rail portion (12) and a movable switch rail portion (14). The fixed rail portion (12) having a transfer region (26) which can be engaged by the switch rail portion (14) to effect transfer of a rail vehicle between the fixed and switch rail portions (12, 14). The switch rail portion (14) has an end region (28) movable into engagement with the transfer region (26) of the fixed rail portion (12). The transfer region (26) of the fixed rail portion (12) comprises an embedded rail portion embedded within an embedment (16).

A superstructure device (10) for a set of points having a switch support which is composed of a block of high-strength steel and which has stock and short point rails which delimit said switch support and are formed integrally from the block, wherein the block is connected to a lower part composed of a material other than the high-strength steel, such as mild steel, and is in particular connected in a materially joined fashion, wherein the block extends essentially over the entire length of a switch rail device as the superstructure device on both sides beyond the switch support, and the lower part is a means of supporting the block in the form of at least two supports which are spaced apart from one another.

A superstructure device (10) for a set of points having a switch support which is composed of a block of high-strength steel and which has stock and short point rails which delimit said switch support and are formed integrally from the block, wherein the block is connected to a lower part composed of a material other than the high-strength steel, such as mild steel, and is in particular connected in a materially joined fashion, wherein the block extends essentially over the entire length of a switch rail device as the superstructure device on both sides beyond the switch support, and the lower part is a means of supporting the block in the form of at least two supports which are spaced apart from one another.

A foreign matter removing device Y1 for use in a turnout X1 is provided with a base rail 100 and a tongue rail 200. The foreign matter removing device Y1 is provided with an inlet member 4 including an inlet channel 44, the inlet member 4 extending in the width direction of the base rail 100 in a region lower than a bottom surface B1 of the base rail 100; and a connecting portion 22 including a communication channel 22c for communicating a nozzle portion 21 which injects a foreign matter removable medium to between the base rail 100 and the tongue rail 200, and the inlet channel 44. The connecting portion 22 is connected to one end portion 41 of the inlet member 4 in the region lower than the bottom surface B1 of the base rail 100. The other end portion 42 of the inlet member 4 disposed on the outside of the bottom surface B1 of the base rail 100 in top plan view is configured such that the operator can hold the one end portion 41 in a state that the one end portion 41 does not fall off from the connecting portion 22.

A passive switch for a railway track is disclosed. A railway car is moveable along the railway track in a facing direction. The passive switch includes a first track section and a second track section. The first track section includes a first main track, a first diverging track, and a first guard rail. The first guard rail is shaped to guide a first wheel of the railway car from the first main track onto the first diverging track as the first wheel travels in the facing direction within the passive switch. The second track section includes a second main track and a second diverging track. The second main track is shaped to guide a second wheel of the railway car from the second main track onto the second diverging track.