A hose reel, for reeling up a hose for a fluid, is disclosed. The hose reel comprises a drum (100) for the hose to be reeled up on, the drum being moulded, the drum comprising, as integral moulded parts, a swivel connector (120) arranged at a central axis (110), the drum being rotatable about the central axis, a central flow path (130) coaxial with the central axis (110), and a radial flow path (140) extending radially from the central flow path; and a swivel (200) for a supply of the fluid, the swivel being connected to the swivel connector. A method for connecting a hose to the hose reel is disclosed. The method comprises the steps of: rotating the drum to align the connector (300) with the opening (410) of the housing (400); and connecting a hose to the connector, alternatively, before connecting the hose, releasing an already present hose.

A hosed-reeling apparatus comprising a hose reel and a rack having a front opening for demountably receiving and supporting the hose reel. The hose reel has two sidewalls, a connection member concentrically coupling the two sidewalls, and two spindles extending laterally outward from the centers of the two sidewalls, respectively. The rack has at least a base framework, and a locking structure configurable between an unlock position and a lock position. The base framework has two upward facing channels on opposite sides thereof for demountably receiving the hose reel spindles. The channels are accessible from thereabove when the locking structure is at the unlock position, and the channels are inaccessible from thereabove when the locking structure is at the lock position. Each of the sidewalls of the hose reel may have at least one straight outer edge, allowing the hose reel sit stably on a horizontal surface or a ramp.

A footwear lacing apparatus can comprise a housing structure, a spool and a drive mechanism. The housing structure can comprise a first inlet, a second inlet, and a lacing channel extending between the first and second inlets. The lacing channel can comprise a spool receptacle located between the first and second inlets, a first relief area located between the spool receptacle and the first inlet, and a second relief area located between the spool receptacle and the second inlet. The first and second relief areas can be linearly tapered between the spool receptacle and the first and second inlets, respectively. The spool can be disposed in the spool receptacle of the lacing channel. The drive mechanism can be coupled with the spool and adapted to rotate the spool to wind or unwind a lace cable extending through the lacing channel and through the spool.

A medical tubing housing device is provided including a housing having a front housing portion, a rear housing portion and a spool of medical tubing rotatably mounted within the housing. A retraction mechanism, including a drive plate and a spiral torsion spring, is mounted within the housing between the spool and the rear housing portion and the drive plate is in engagement with the spool. An inlet is provided on the rear housing portion for receipt of an external fluid source and is in fluid communication with the supply tubing through a collar of the housing and a connecting portion rotatably attached to the collar. The spiral torsion spring is movable between an unstressed condition and a stressed condition when the spool is rotated as the medical tubing is pulled out of the housing. The medical tubing housing device may also include a wall mount to mount the housing to a stable surface.

A cable storage device includes a first elongate bracket member attachable to a support structure and having a length extending between a first end and a second end. A second elongate bracket member is configured to be coupled to the first elongate bracket member proximate one of the first end or the second end such that the second elongate member extends in a different direction from the first elongate member when installed on the support structure. At least one set of a plurality of retaining mechanisms is configured to be coupled to the first and second elongate bracket members to receive and store a first cable. The at least one of the at least one set of the plurality of retaining mechanisms is adjustable along the first elongate bracket member or the second elongate bracket member. Methods of installing and making the cable storage device are also disclosed.

A manifold is part of the hydraulic system of a transport vehicle and controls both the product pump from the tank for unloading product and a hydraulically powered and controlled hose reel. The manifold includes a high pressure input port and a main return port tied into the hydraulic circuit on the vehicle, as well as two ports for the product pump and two ports for the hose reel. Control valves for both the product pump and the hose reel are mounted on and connected within the manifold block. The control valve for the hose reel preferably allows either forward (winding) or reverse (unwinding) of the hose reel under hydraulic power, as well as easy free spooling of the hose reel. A priority flow valve is also mounted on and connected within the manifold block, providing a higher flowrate to the product pump than to the hose reel motor.

Techniques for implementing a pipe deployment system that includes a pipe reel, in which the pipe reel includes reel ends and a reel drum and the pipe reel enables a pipe segment to be wrapped on the reel drum. The pipe deployment system includes a brake assembly with a brake wheel having a shaft socket keyed with flat inner surfaces, and a shaft adapter assembly, which includes an adapter head to be coupled between the pipe reel and the brake assembly. The adapter head includes an adapter shaft keyed with flat outer surfaces, in which the adapter shaft matingly interlocks with the shaft socket and is to be partially inserted through a reel end of the pipe reel, and a rotation control pin coupled to the adapter shaft, in which the rotation control pin is to be inserted between adjacent reel spokes in the reel end of the pipe reel.

An adapter system is provided that facilitates convenient access to a plurality of adapters, e.g., DVI-D to HDMI adapter(s), Micro-HDMI to HDMI adapter(s), Mini-HDMI to HDMI adapter(s), Mini-DisplayPort to HDMI adapter(s), DisplayPort to HDMI adapter(s), VGA to HDMI adapter(s), MNL to HDMI adapter(s), and/or USB to HDMI adapter(s). The adapter system includes an elongated wire that features a plurality of adapters mounted/secured with respect thereto. The wire is at least partially stored within a housing and extends therefrom. The adapters are mounted/secured with respect to a portion of the wire that extends from the housing. The housing includes a retraction mechanism that facilitates retraction of the wire into the housing for convenient storage thereof. The present disclosure further provides structures that are configured and dimensioned to receive the disclosed housing, e.g., in office, commercial and/or residential environments, thereby facilitating access to the adapters that are mounted/secured with respect to the wire. In use, the disclosed adapter system permits a user to readily access and individually utilize each of the adapters mounted/secured with respect to the wire on an as-needed basis and to store at least the portion of the wire that does not include mounted/secured adapters within a housing. Retraction of the wire into the housing is facilitated by the disclosed retraction mechanism.

A manual reel retractable leash apparatus for manually retracting a leash to control a dog includes a retractable leash spool coupled within a leash body. A leash is windingly coupled around the leash spool and extends through a leash aperture of the leash body. A crank housing is coupled to the leash body and a drive mechanism is coupled within crank housing. The drive mechanism is in operational communication with the leash spool and an outer face of the crank housing. A crank handle is coupled to the outer face to provide a place for a user to rotate the crank housing to power the drive mechanism and retract the leash.

Disclosed is a bidirectional spool apparatus (BSA) and method of use. The BSA comprises a spool apparatus having a plurality of spools, a plurality of cables, and an adjustment knob. When the BSA is in a first mode, rotation of the adjustment knob causes a corresponding rotation of a first spool in a tightening direction and a tightening of a first cable but allows a second cable to rotate substantially freely, and such that when the BSA is in a second mode, rotation of the adjustment knob causes a corresponding rotation of a second spool in a tightening direction and a tightening of a second cable but allows a first cable to rotate substantially freely. Switching of the BSA from a first mode to a second mode and vice versa is accomplished by pulling the adjustment knob out a distance and by pushing the adjustment knob in a distance.