A mechanism for adjusting the distance and relative horizontal level between a storage box lid and the product storage box body includes a rod, a first adjustment member, and a second adjustment member. The rod is positioned on the edge of the box and is axially movable. The first and second adjustment members on the rod can be repositioned along the length direction of the rod to increase or decrease the distance between the lid and the box body to accommodate different thicknesses of seals between the two, and for achieving integrity in a horizontal level. A product storage box is also disclosed.

A guide system for guiding a door wing includes a first guide rail for guiding the door wing, and a second guide rail for guiding the door wing, with the second guide rail extending transversely relative to the first guide rail. A carrier displaceable along the second guide rail is connected or is to be connected to the door wing via at least three furniture hinges spaced from one another in the mounted condition. All furniture hinges, by which the door wing can be connected or is connected to the carrier in the mounted condition, are arranged or can be arranged on a common mounting member separate from the carrier. The mounting member is releasably connected to the carrier by a fastening device, and the mounting member is releasably connected to the carrier in a direction extending transversely to a longitudinal axis of the carrier.

A buffer with a self-adjustable stopper including a buffer head, a base having a guide profile, and a central body having a groove cooperating with the profile, the central body being mounted on the base by a translation movement, in a first direction (X) in a plane of movement, the central body at least partially receiving the buffer head. The buffer head includes a locking member inserted into the central body in a second direction (Y) and blocks in a third direction (Z) the buffer head in the central body and blocking in the first direction the central body on the base. The locking element and the buffer head include, respectively, at least one thrust ramp and at least one housing adapted to receive said at least one ramp adapted to, when the locking member is translationally actuated, produce a camming effect and to allow raising of the buffer head.

A sliding sash assembly for use as a door or window includes: (a) a frame defining a frame opening; (b) a pair of sashes mounted in the frame opening and slidable relative to each other along an opening axis between a closed position and an open position; and (c) at least one stop device including a housing and a pair of depressible stop members movably mounted in the housing. The stop members are spaced apart from each other along the opening axis. Each stop member is selectively movable independent of the other stop member between a retracted position in which the stop member is retracted into the housing and an advanced position in which the stop member projects from the housing for engagement with one of the sashes to restrict movement of the sashes relative to each other toward the open position.

An adjustable appliance hinge receiver includes a base including spaced-apart first and second lateral walls. A slide body is slidably connected to the base and located between the lateral walls. The slide body slides relative to the base along an adjustment axis. At least one hinge mounting structure is connected to the slide body and is adapted to be engaged by an associated hinge. An adjustment system includes a first inclined ramp connected to the slide body and an adjustment shaft that extends between and that is rotatably supported by the first and second lateral walls of the base. The adjustment shaft is rotatable relative to the base about an axis of rotation. The adjustment system also includes an adjustment member engaged with the adjustment shaft and selectively movable along the axis of rotation in opposite first and second directions in response to rotational movement of the adjustment shaft in opposite first and second rotational directions such that rotation of the adjustment shaft in one of the first and second rotational directions causes the adjustment member to bear against the first ramp and induce sliding movement of the slide body relative to the base along the adjustment axis.

A guide assembly includes a guide configured to be arranged on a stationary furniture part, a guide device configured to be connected to the movable furniture part, the guide device being displaceable relative to the guide, and an adjustment device for adjusting the guide relative to the stationary furniture part. The adjustment device includes a mounting device configured to be fixed to the stationary furniture part and a coupling device configured to be coupled to the guide. The preferably pivotally supported actuating element is for adjusting the coupling device relative to the mounting device. A securing device is provided for fixing the guide device relative to the guide in a securing position, and the securing device includes a securing body integrated into the adjustment device.

A pivoting cursor for a frameless window of a vehicle door, including: a main body portion; a pivoting plate pivotally secured to the main body portion for pivotal movement about an axis; a glass clamping plate; a seal; an adjusting screw for pivoting the pivoting plate with respect to the main body portion, the adjusting screw having a first threaded portion for threadingly engaging an opening in the main body portion; and a locking nut for threadingly engaging a second threaded portion of the adjusting screw, wherein the locking nut is located on an inboard side of the pivoting cursor.

An adjustable slider of a window regulator includes a base body configured to connect with a cable of the window regulator and a clamp-plate assembly having first and second jaws configured to clamp a windowpane therebetween. A hinge plate supports the clamp-plate assembly. A first adjustment mechanism pivotally connects the hinge plate to the base body such that the clamp-plate assembly and the hinge plate are pivotal relative to the base body allowing a vertical angle of the clamp-plate assembly to be changed. The first adjustment mechanism is actuatable to move the hinge plate relative to the base body in a fore-and-aft direction allowing a fore-and-aft position of the clamp-plate assembly to be adjusted.

A refrigerator includes: a cabinet defining a storage space, a door configured to open and close the storage space, and a step difference adjustment member disposed at a rear surface of the door. The step difference adjustment member comprises (i) a stopper that contacts, based on the door being closed, a front surface of the cabinet and (ii) a mounting portion that defines an accommodation space into which the stopper is inserted, and the stopper is configured to move with respect to the mounting portion to thereby vary a protruding length of the stopper from the mounting portion.

A stopper device includes: a stopper that has an abutting part located at a distal end of a tubular part in the axial direction, and a through-hole penetrating through the abutting part and communicating with the inside of the tubular part; and a screw that has a flange-shaped screw head accommodated in the tubular part, and a shaft projecting toward a proximal end side of the tubular part in the axial direction. The tubular part has a first restricting part that restricts movement of the stopper toward the distal end in the axial direction by being engaged with the screw head. The position of the stopper in the axial direction is changed by inserting a tool in the tubular part through the through-hole and rotating the screw.