A securing device includes at least one rigid ring configured to encircle the pipe, and at least one securing system, rigid and distinct from the ring, including a body which has a first contact face configured to be pressed firmly against and secured to a surface of a structure, and at least one groove in which the ring is housed, the groove being configured to allow the securing system to slide with respect to the ring in a direction of sliding along the ring, while being immobile or near-immobile relative to the ring in a plane perpendicular to the direction of sliding.

A fastening part for fastening a cable carrier to a component, said fastening part comprising: a foot web which can be arranged on a component so as to extend in the peripheral direction thereof and has holding means in its end regions for a first fastening element for fastening the fastening part to the component; and a fastening web which extends in the direction of the foot web and which has multiple fastening means for fastening a differently designed second fastening element for fastening a cable carrier to the fastening part; wherein the foot web and the fastening web are connected to one another in their central region via a connecting element, and side regions of the fastening web extending beyond the connecting element have at least some of the fastening means as first fastening means.

An equipment holder comprises a clip with gripping members extending in a first direction. A hook extends from one side of the clip in a second direction. An anchor extends from the opposite side of the clip in a third direction. The clip is configured for releasable engagement with a support structure and with a clip of a like holder. The anchor is configured for releasable engagement with a support structure. The holder can be used in a variety of locations, attached to a support structure by the clip or the anchor. Once holder may also be attached to another holder of the same type for use as a cable management device.

A connecting structure of a first holding device and a second holding device that are respectively configured to hold a first elongated member and a second elongated member, may include a cylindrical anchor formed on the first holding device and having an engagement claw, and an insertion hole formed on the second holding device and configured such that the anchor is introduced thereinto and the engagement claw engages a circumferential periphery thereof. The first and second holding devices are configured to be rotated relative to each other about an axis of the anchor in a connected condition of the first holding device and the second holding device in which the engagement claw engages the circumferential periphery of the insertion hole. The first and second holding devices include a distortion prevention mechanism configured to prevent the anchor from being distorted in the connected condition of the first and second holding devices.

A connecting structure of a first holding device and a second holding device that are respectively configured to hold a first elongated member and a second elongated member, may include a cylindrical anchor formed on the first holding device and having an engagement claw, and an insertion hole formed on the second holding device and configured such that the anchor is introduced thereinto and the engagement claw engages a circumferential periphery thereof. The first and second holding devices are configured to be rotated relative to each other about an axis of the anchor in a connected condition of the first holding device and the second holding device in which the engagement claw engages the circumferential periphery of the insertion hole. The first and second holding devices include a distortion prevention mechanism configured to prevent the anchor from being distorted in the connected condition of the first and second holding devices.

The presently disclosed technology generally provides a modular support system for plumbing connections. In one example, the system includes a frame, a connector that fits entirely in front of a support stud, and an optional housing. The frame includes symmetrical sides, each including a rail assembly. The connector includes first opposed sidewalls, each having a pair of boxways that receive the rails on any side of a frame unit to form a sliding joint between the frame and connector. Second opposed sidewalls include flexible tabs that engage frame corner flanges to prevent rearward disengagement of the connector from the frame. The housing includes structure for connection with the frame. The housing can be rotated for connection with the frame to receive vertical or horizontal plumbing lines. Connectors can connect the frame units in vertical or horizontal relation, or on either side of a building stud, or to brackets.

The presently disclosed technology generally provides a modular support system for plumbing connections. In one example, the system includes a frame, a connector that fits entirely in front of a support stud, and an optional housing. The frame includes symmetrical sides, each including a rail assembly. The connector includes first opposed sidewalls, each having a pair of boxways that receive the rails on any side of a frame unit to form a sliding joint between the frame and connector. Second opposed sidewalls include flexible tabs that engage frame corner flanges to prevent rearward disengagement of the connector from the frame. The housing includes structure for connection with the frame. The housing can be rotated for connection with the frame to receive vertical or horizontal plumbing lines. Connectors can connect the frame units in vertical or horizontal relation, or on either side of a building stud, or to brackets.

One cylindrical pipe is inserted into the hollow cylindrical portions of first and second holders made of hard plastic, and the other cylindrical pipe is inserted into the hollow semi-cylindrical portions. The first and second pipe holders are butted together at butt surfaces, respectively. The cylindrical pipe inserted into the butted hollow cylindrical portions is held in the hollow cylindrical portions using a clamping tool, and the cylindrical pipe inserted into a cylindrical portion that becomes hollow cylindrical by butting is held in the hollow semi-cylindrical portions using the clamping tool.

A spacer (3), for mutually spacing apart a first and a second pipeline in a mutually parallel manner, has a first and a second side (31, 32) for abutting against the two respective pipelines. At least two tensioning straps, which are extending in first and second longitudinal ranges (41, 42), are fixing the spacer relative to the first pipeline. The second side (32) has, in the first and second longitudinal ranges, a second abutment structure (52) for abutting against the second pipeline. Furthermore, the second side has, in a first intermediate longitudinal range (61), a first recessed intermediate surface portion (71). Thanks to the first recessed intermediate surface portion, the portions of the spacer which are extending in the first longitudinal range and the second longitudinal range are, under influence of tensioning forces of the tensioning straps, to a larger extent independently resiliently compressible relative to one another. This improves the effectivity of the tensioning straps.

A spacer (3), for mutually spacing apart a first and a second pipeline in a mutually parallel manner, has a first and a second side (31, 32) for abutting against the two respective pipelines. At least two tensioning straps, which are extending in first and second longitudinal ranges (41, 42), are fixing the spacer relative to the first pipeline. The second side (32) has, in the first and second longitudinal ranges, a second abutment structure (52) for abutting against the second pipeline. Furthermore, the second side has, in a first intermediate longitudinal range (61), a first recessed intermediate surface portion (71). Thanks to the first recessed intermediate surface portion, the portions of the spacer which are extending in the first longitudinal range and the second longitudinal range are, under influence of tensioning forces of the tensioning straps, to a larger extent independently resiliently compressible relative to one another. This improves the effectivity of the tensioning straps.