According to the present disclosure, a storage facility includes a number of storage compartments and doors for controlling access to the storage compartments. The doors move along guide tracks between a lowered-closed position and a raised-opened position relative to respective entryways into the storage compartments. Latches are coupled to the doors for blocking movement of the doors at the selection of a user. One or more locks can be used with the doors to block access to the storage compartments.

A rolling shutter driving device includes a motor, a locking assembly and a gearbox. The motor includes a stator and a rotor. The rotor includes a rotary shaft connected to the gearbox. The rotary shaft drives through the gearbox a rolling shutter to extend or retract. The locking assembly includes a brake pad slidingly fitted on the rotary shaft and a rotary member fixedly mounted to the rotary shaft. The brake pad is circumferentially fixed relative to the stator. The brake pad is slidable relative to the rotary shaft so as to be selectively engaged with the rotary member to lock the rotary shaft and hence hold the load in position, or disengaged from the rotary member to unlock the rotary shaft.

An integrated system that may include a motorized rollable shutter system and a window frame; wherein the motorized rollable shutter system comprises a housing, a rollable shutter, a rolling element, and motor for rotating the rolling element, wherein a rotation of the rolling element assists to in a winding and an unwinding of the rollable shutter; wherein window frame the is either connected to the housing or is integrated with the housing; wherein the window frame comprises at least one rollable shutter guiding element for guiding the a rollable shutter during a rolling and unrolling of the rollable shutter; and wherein the window frame comprises at least one window guiding element for guiding at least one window when the at least one window moves in relation to the window frame.

The present invention concerns an auto-close door for closing an area (3) at least partially defined by a frame, said auto-close door comprising: A) A motorized driving mechanism (10) suitable for moving a leading edge (1L) of a shutter (1) in a first direction () to close said area defined within said frame and in a second direction () to open said area; B) Wave detection cells (5) suitable for detecting the presence of an obstacle within the area defined by the frame; and/or C) In addition or alternatively, an impact detector (6) suitable for detecting an impacting event with a leading edge of the shutter, D) A processing unit (CPU) programmed to carry out the following operations: a) Upon opening the area a first time by moving the leading edge of the shutter in said second direction (), maintain the area open for an opening time (t1), after which b) close the shutter, c) Record whether an obstacle and/or an impacting event is detected by the wave detector or the impact detector, upon closing the shutter; d) Count the number (n), of obstacles and/or impacting events detected during a number (N), of repetitions of the cycle defined by steps (a) to (c), and if n/N>v.sub.ref,1, wherein, v.sub.ref,1, is a first control ratio, then the opening time (t1), is prolonged to a time, t2=t1+t2, wherein t2>0; (e) Repeat steps (a) to (d) with the values t1 or t2 determined in step (d).

The present invention concerns an auto-close door for closing an area (3) at least partially defined by a frame, said auto-close door comprising: A) A motorized driving mechanism (10) suitable for moving a leading edge (1L) of a shutter (1) in a first direction () to close said area defined within said frame and in a second direction () to open said area; B) Wave detection cells (5) suitable for detecting the presence of an obstacle within the area defined by the frame; and/or C) In addition or alternatively, an impact detector (6) suitable for detecting an impacting event with a leading edge of the shutter, D) A processing unit (CPU) programmed to carry out the following operations: a) Upon opening the area a first time by moving the leading edge of the shutter in said second direction (), maintain the area open for an opening time (t1), after which b) close the shutter, c) Record whether an obstacle and/or an impacting event is detected by the wave detector or the impact detector, upon closing the shutter; d) Count the number (n), of obstacles and/or impacting events detected during a number (N), of repetitions of the cycle defined by steps (a) to (c), and if n/N>v.sub.ref,1, wherein, v.sub.ref,1, is a first control ratio, then the opening time (t1), is prolonged to a time, t2=t1+t2, wherein t2>0; (e) Repeat steps (a) to (d) with the values t1 or t2 determined in step (d).

The present invention is directed to an embedded interconnecting drive system. The drive system is used to deploy and retract flexible, roll-up panels away from or onto a roller drum as the drum rotates on its longitudinal axis. In this invention, a plurality of cogs, each comprising a semi-tubular recess and tapered shaft, interact with each other to induce the flexible panel to move in concert with the roller drum as the roller drum rotates, preventing the flexible panel from unraveling on the drum. The cogs compel the flexible panel to deploy away and downward from the drum as it rotates deployingly, and to retract onto the roller drum as it rotates retractingly. This invention discloses details of the cog and a complimentary annular lock disc used to secure the cog to a flexible panel. Further, this invention discloses a plurality of embodiments of the embedded interconnecting drive system.

The present invention is directed to an embedded interconnecting drive system. The drive system is used to deploy and retract flexible, roll-up panels away from or onto a roller drum as the drum rotates on its longitudinal axis. In this invention, a plurality of cogs, each comprising a semi-tubular recess and tapered shaft, interact with each other to induce the flexible panel to move in concert with the roller drum as the roller drum rotates, preventing the flexible panel from unraveling on the drum. The cogs compel the flexible panel to deploy away and downward from the drum as it rotates deployingly, and to retract onto the roller drum as it rotates retractingly. This invention discloses details of the cog and a complimentary annular lock disc used to secure the cog to a flexible panel. Further, this invention discloses a plurality of embodiments of the embedded interconnecting drive system.

An enclosure system is adapted for exterior storage. The storage system has a rear wall, joined to two side walls with a mechanical housing there between. A first track is arranged on a first inner edge of the first side wall and extends distally away from the mechanical housing while parallel to the ground surface and then downward toward the ground surface. A second track is arranged on a second inner edge on the second side wall and extends distally away from the mechanical housing while parallel to the ground surface and then downward toward the ground surface. A rolling coiling service door is housed in the mechanical housing, and is configured to roll down the first track and the second track to enclose an internal space between the first side wall and the second side wall.

A retractable gate system structured and arranged to block off stairs and doorways with a simple pull and click by extending a sliding rail, pulling down mesh material, and clipping the device into bottom anchor hooks to instantly close off any opening thereby keeping kids and pets safe.

A vehicle interior component is disclosed. The component may comprise a base providing a compartment with an opening, a door moveable between open and closed positions and an interface between the base and the door to facilitate movement of the door. The interface may comprise a set of projections on the door to engage a set of guides on the base. The set of projections may comprise a set of extrusions. The door may comprise a substrate and a cover layer; the substrate may be formed by extrusion. The component may comprise at least one of a vehicle trim component, a console, a center console, a floor console, a storage compartment, an arm rest. A method of making a component is also disclosed. The component may comprise a base and a door comprising a cover and a carrier. The carrier may be formed by extruding a polymer material.