A conveyance mechanism includes: a lower conveyance guide disposed below an inclined conveyance path having an upward inclination or a downward inclination with which a sheet material is to be conveyed, and to guide a lower surface of the sheet material; an upper conveyance guide located above the inclined conveyance path, and to guide an upper surface of the sheet-shaped material, the upper conveyance guide being openable and closable about a rotation shaft, which is disposed on a side of the inclined conveyance path in a direction of a width of the inclined conveyance path so as to extend along the inclined conveyance path; and a first urging member to urge a portion of the upper conveyance guide away from the rotation shaft in the direction of the width of the inclined conveyance path toward the rotation shaft, the portion of the upper conveyance guide away from the rotation shaft being at an upper end of the upper conveyance guide in an inclined direction.

A conveyance mechanism includes: a lower conveyance guide disposed below an inclined conveyance path having an upward inclination or a downward inclination with which a sheet material is to be conveyed, and to guide a lower surface of the sheet material; an upper conveyance guide located above the inclined conveyance path, and to guide an upper surface of the sheet-shaped material, the upper conveyance guide being openable and closable about a rotation shaft, which is disposed on a side of the inclined conveyance path in a direction of a width of the inclined conveyance path so as to extend along the inclined conveyance path; and a first urging member to urge a portion of the upper conveyance guide away from the rotation shaft in the direction of the width of the inclined conveyance path toward the rotation shaft, the portion of the upper conveyance guide away from the rotation shaft being at an upper end of the upper conveyance guide in an inclined direction.

A stretchable rod structure and a method of mounting the same on an object are introduced. The stretchable rod structure has a fitting member and a rod member. The fitting member has a first fitting portion or first abutting portion. The first fitting portion or first abutting portion is adapted to fit to or abut against a first object. The rod member is movably fitted to the fitting member. The rod member has a second fitting portion or second abutting portion. The second fitting portion or second abutting portion is adapted to fit to or abut against a second object. Therefore, the stretchable rod structure can be fitted to the first object and the second object, thereby allowing two objects to be fitted together, moved or separated.

The invention relates to a stabilizer assembly of a two-track vehicle for stabilizing a rolling movement, the stabilizer assembly being operable on at least two different spring characteristics, comprising a first and a second stabilizer half, each coupled to a wheel of the vehicle, wherein the first and the second stabilizer halves are coupled such that they can rotate relative to each other about their longitudinal axis by means of a spring element, whereby the stabilizer is operable with a first spring characteristic, and wherein the first and the second stabilizer halves can be hydraulically coupled such that they can rotate relative to each other about their longitudinal axis by means of a hydraulic actuator, whereby the stabilizer is operable using at least one second spring characteristic. The actuator comprises at least two work chambers which are filled with a hydraulic medium and coupled to each other by a fluid-conducting connection, and the actuator comprises a transmission unit which is designed such that a rotational movement of the stabilizer halves can be converted into a translational movement of an intermediate element arranged between the two work chambers, and a volume flow of the hydraulic medium from the one work chamber into the other work chamber can thus be produced.

An adjustable tensioner particularly suited for use in applying tension to a halyard line circuit on an outrigger is disclosed and features a length of hollow braided rope having a proximate end serving as a first anchor point for attachment to a boat gunwale; a distal end; a loop section positioned intermediate the proximate end and the distal end, and a braid-in-braid section positioned intermediate the loop section and the proximate end; the loop section serving as a second anchor point for attachment to the halyard line circuit; wherein the effective distance between the first and second anchor points is adjusted by reducing or enlarging the size of the loop section; and wherein when tension is applied to the first and second anchor points, the braid-in-braid section provides a self-induced friction amplification effect to prevent an increase in the distance between the first and second anchor points.

An apparatus can include a housing defining a housing interior, an air pump positioned in the housing interior, and a plurality of resilient connectors connecting the air pump to the housing with the resilient connectors in tension so as to reduce transmission of vibration from the air pump to the housing during operation of the air pump.

An apparatus can include a housing defining a housing interior, an air pump positioned in the housing interior, and a plurality of resilient connectors connecting the air pump to the housing with the resilient connectors in tension so as to reduce transmission of vibration from the air pump to the housing during operation of the air pump.

An apparatus can include a housing defining a housing interior, an air pump positioned in the housing interior, and a plurality of resilient connectors connecting the air pump to the housing with the resilient connectors in tension so as to reduce transmission of vibration from the air pump to the housing during operation of the air pump.

An apparatus can include a housing defining a housing interior, an air pump positioned in the housing interior, and a plurality of resilient connectors connecting the air pump to the housing with the resilient connectors in tension so as to reduce transmission of vibration from the air pump to the housing during operation of the air pump.

The invention relates to a spring (1, 23) comprising at least one tensile body (2, 17, 71, 76) that can be subjected to tensile stress and/or at least one compressive body (37) that can be subjected to compressive stress, the spring also comprising a force-displacement conversion unit (3, 18, 24) for converting the force-displacement of the spring force F, said force-displacement conversion unit (3, 18, 24) having a moveable input control element (6, 19, 29), to which the spring force can be applied and a moveable output control element (7, 20, 30, 54, 60, 68, 72) which is operatively connected to the tensile body (2, 17, 71, 76) or to the compressive body (37) in such a way that the spring force F produces a tensile stress in the tensile body (2, 17, 71, 76) or a compressive stress in the compressive body (37) in a specific force-displacement conversion ratio.