A suspension mounting mechanism is provided. The suspension mounting mechanism is adapted to be mounted on a first ceiling structure. The suspension mounting mechanism includes a suspension bracket, a first holding hook, a second holding hook, a first stopping unit, a second stopping unit, and a locking unit. The first holding hook and the second holding hook are affixed to the suspension bracket. The first stopping unit is moveably disposed on the suspension bracket. The second stopping unit is moveably disposed on the suspension bracket. In a first state of assembly, the first ceiling structure presses and moves the first and second stopping units. In a first mounting state, the first holding hook and the first stopping unit abut one side of the first ceiling structure, and the second holding hook and the second stopping unit abut the other side of the first ceiling structure.

A mounting device for a stand device for arrangement in the operating room and to position or displace a medical apparatus in the operating room, in particular by means of a rotational movement, incorporates a mounting apparatus, which extends along an axis of rotation in a longitudinal direction and has a cavity, which in particular is cylindrical and which is oriented in the longitudinal direction, for accommodating a rotatably supportable connection component of the stand device, in particular a spindle; and an adjustment apparatus for arranging the connection component in a position, which can be predefined, in relation to the mounting apparatus; wherein the mounting device forms a rotational coupling for supporting the connection component on the mounting apparatus, which rotational coupling can be adjusted about the axis of rotation. The invention further relates to a mounting system including such a mounting device.

A fixture member includes: a pillar having a substantially horizontal sectional shape that is a U-shape; a plurality of chip portions fixed in the pillar; and an opening formed by a lower surface of one chip portion, an upper surface of another chip portion, and opposed inner side surfaces of the pillar. A support member is detachably attached to the opening. A receiving member is fixed to the support member. The chip portion has an upper slope surface, a first horizontal surface, and a lower slope surface. The support member has: a first contact surface to contact with the lower slope surface; a second contact surface to contact with the upper slope surface; a third contact surface to contact with the first horizontal surface; and a fourth contact surface and a fifth contact surface to contact with the opposed inner side surfaces of the fixture member.

A photobooth that is suspended from a rigid non-moving structure, such as a ceiling, is disclosed. The photobooth may include a support structure that includes a non-movable section and a movable section. The non-movable section is not moved and remains fixed after installation relative to the ceiling. The movable section may comprise posts or brackets, may move relative to the non-movable section, and may include one or both of a camera or lighting. Further, to rigidize the support structure, a track may be attached to some or all of the posts or brackets, thereby rigidizing the structure and reducing jitter which may affect operation of the camera or lighting.

Disclosed is a system and method for aiding the sterility of a laboratory by suspending items using magnetic force to a laboratory object, such as a cap or a lid, wherein such cap may be suspended on a rack or stand comprising an arm extending horizontally. The system allows for suspension of items rather than placing them on surfaces, which may lead to contamination. The system may further prevent mixing of lids by increasing organizational capability by magnetic suspension of the caps or lids. The disclosed system supports a wide variety of scenarios for laboratory settings and related products and services.

A securing element for securing a spindle in a bushing, in particular for a medical stand device, includes a supporting portion configured to arrange the securing element in a predefined axial position on a supporting apparatus of the stand device, and an engagement portion configured to interact with a spindle rotatably supportable about an axis of rotation in the supporting apparatus, or a pin of the stand device, to secure the spindle or pin in a predefined axial position relative to the supporting apparatus rotatably within the supporting apparatus. The securing element can be supported in at least one radial position on the supporting apparatus, in particular in a mounting preparation position and/or a securing position, wherein the engagement portion is configured to interact with the spindle or the pin by engagement in the radial direction, in particular in the securing position. The securing element may also be secured in several radial positions and comprise coupling portions that are formed correspondingly. Also disclosed are components correspondingly formed to the securing element, in particular a supporting apparatus, a cover for the supporting apparatus, and a coupling element; and a securing system, or a securing mechanism, or a mounting set each comprising at least one securing element according to the invention.

A load balancing arm for a medical device support system. The load balancing arm includes a proximal hub, an adjustable bearing element, a support arm, a spring and a link. A distal end of the support arm is configured to support a medical device load and a proximal end is pivotably mounted to a main bearing element for pivotable movement about a main pivot axis. The spring extends within a cavity of the support arm and is mounted to exert a biasing force between the main pivot axis and a distal end of the spring. The link has a proximal end pivotably mounted to the adjustable bearing element for pivotable movement about an adjustable pivot axis, and a distal end pivotably mounted to the distal end of the spring such that the biasing force exerted by the spring is transmitted through the link to the adjustable bearing element.

A ceiling-mounted TV frame apparatus is disclosed having a fixed frame, a pivoting frame pivotally coupled to the fixed frame, and one or more linear actuators for actuating the pivoting frame. The pivoting frame nests within the fixed frame and is coupled thereto using a hinged or otherwise pivoting bracket.

An offset hygienic anchor sealing bracket for installation of block style tube and pipe hangers to a paneled strata in which there is no access to the reverse side, there being a need to secure the anchor bracket to an anchor bolt or toggle bolt and simultaneously shield the exposed toggle bolt structure from the environment of the clean room, sterile room, or sanitary room in order to protect the irregular surface of the toggle bolt from caustic cleaning solutions and to prevent the build up of dirt and bacteria, the anchor bracket having bored pedestals in communication with the cavity which encapsulates the exposed portion of the toggle bolt and secures the anchor bracket thereto, the anchor bracket having a plurality of female threaded receptacles for receipt of fasteners utilized in assembling block style tube and pipe hangers, thus securing the block style tube and pipe hanger to the panel at a desired slope and center line.

A locking system securing an image scanning device to a container includes a compressible material. The compressible material is disposed between a first securing plate and a second securing plate. A rotational element is disposed within curved edges of the first and second securing plates, where the curved edges each curve away from the compressible material. A shaft extends from the rotational element to the image scanning device. A fastener is secured through the first and second securing plates, and into the securing surface to lock the rotational element, and subsequently the shaft and image scanning device, in place. The locking system can be secured to a pitched surface to naturally position the image scanning device perpendicular to level ground.