A detent mechanism for controlling translation between two components in a longitudinal direction includes a resilient beam on one of the components and a rhomboid ramp member on the other component. The resilient beam is essentially straight when relaxed and has a first beam head and is arranged to interact in a ramped engagement with respectively one of two ramps. Each ramp is on one longitudinal side of the rhomboid ramp member such that application of a translative force between the components in one longitudinal direction with the first beam head engaged to one of the ramps in a first state deflects the resilient beam in one transversal direction and such that application of a translative force between the components in the other longitudinal direction with the first beam head engaged to the other one of the ramps deflects the resilient beam in the other transversal direction.

A telescoping rod is adjustable to a range of household environments and includes a first tubular member defining a primary axis. A cam body is secured to an end of the first tubular member, and the cam body defines ramped outer surfaces that vary in distance from the primary axis as a function of angular position about the axis. A second tubular member is sized to slide over the first tubular member and the cam body. The rod also includes a first cam sleeve and a second cam sleeve disposed about the ramped outer surfaces of the cam body. Rotation of the second tubular member about the primary axis relative to the cam body causes the first and the second cam sleeves to exert outward forces against an inner surface of the second tubular member that are applied at substantially different angles relative to each other.

A side lock sleeve assembly includes: a first tube, a sleeve having a first coupling portion defining a first receiving space for sleeving over the first tube, wherein a hole is formed on the first coupling portion at a position between a center of the first receiving space and an outer surface of the sleeve; and a fastening screw having an operation section and an extension section, wherein a diameter of the screw gradually decreases from the operation section toward the extension section such that threadedly extension of the extension section through the hole to retain the extension section between the sleeve and the first tube and such that threadedly insertion of the extension section of the screw through the hole results in a threaded fitting portion on an outer surface of the first tube complementing with the extension section, thereby snugly receiving the extension section of the screw therein.

A detent mechanism for controlling translation between two components in a longitudinal direction includes a resilient beam on one of the components and a rhomboid ramp member on the other component. The resilient beam is essentially straight when relaxed and has a first beam head and is arranged to interact in a ramped engagement with respectively one of two ramps. Each ramp is on one longitudinal side of the rhomboid ramp member such that application of a translative force between the components in one longitudinal direction with the first beam head engaged to one of the ramps in a first state deflects the resilient beam in one transversal direction and such that application of a translative force between the components in the other longitudinal direction with the first beam head engaged to the other one of the ramps deflects the resilient beam in the other transversal direction.

A method and apparatus for a curtain rod bracket and cam lock. A tension rod assembly includes a tension rod, a first curtain rod bracket assembly, the first curtain rod bracket assembly including a first bracket base, a first bracket arm and a first friction pad, the first bracket base including a first bracket base front, a first bracket base rear and defining a first friction pad mounting opening that communicates the first bracket base front with the first bracket base rear, and a second curtain bracket assembly, the second curtain rod bracket assembly including a second bracket base, a second bracket arm and a second friction pad, the second bracket base including a second bracket base front, a second bracket base rear and defining a second friction pad mounting opening that communicates the second bracket base front with the second bracket base rear.

An auto-injector for administering a dose of a liquid medicament has a tubular chassis telescopable in a tubular case, a carrier subassembly comprising a tubular carrier slidably arranged relative to the chassis inside the case, where the carrier adapted to contain a syringe with a hollow injection needle. The injector has a drive spring and a plunger for forwarding load of the drive spring to a stopper of the syringe, wherein the syringe is lockable for joint axial translation with the carrier. There is also a trigger button arranged distally or laterally in or on the case, a control spring arranged around the carrier, and a needle extension control mechanism for coupling a proximal end of the control spring to either the carrier for advancing it for needle extension or to the chassis for needle retraction depending on the relative axial position of the carrier and the chassis.

An auto-injector for administering a dose of a liquid medicament includes a case and a carrier subassembly with a carrier slidably arranged inside the case. The carrier can contain a syringe with a hollow injection needle, a drive spring and a plunger for forwarding drive spring load to a syringe stopper. The syringe can jointly, axially translate with the carrier. The drive spring acts between the carrier and the plunger. In an initial state, the plunger is locked to the carrier by a ramped engagement to the carrier and is prevented from rotating out of this engagement depending on a longitudinal position of the carrier in the case. The plunger can be released for rotating out of the ramped engagement when the needle reaches nearly a predefined injection depth on translation of the carrier in the proximal direction for advancing the needle beyond a proximal end of the auto-injector.

An auto-injector for administering a dose of a liquid medicament includes an elongate case arranged to be held by a user, a tubular chassis telescopable in the case and biased against the case so as to protrude from the case, a syringe with a hollow injection needle, a drive spring and a plunger for forwarding load of the drive spring to a stopper of the syringe, and a trigger button which is initially abutted against the case thus preventing actuation.

The chassis is arranged to translate into the case against the bias when pressed against an injection site. The trigger button is initially coupled to the chassis such that the trigger button emerges from the case when the chassis is being pressed against the injection site to allow actuation by being translated towards the case for starting an injection cycle.

The invention relates to an auto-injector (1) for administering a dose of a liquid medicament (M), comprising: a tubular chassis (2) telescopable in an elongate chassis (12), a carrier subassembly comprising a tubular carrier (7) slidably arranged partially inside the chassis (2) and inside the case (12), the carrier (7) adapted to contain a syringe (3) with a hollow injection needle (4), a drive spring (8) and a plunger (9) for forwarding load of the drive spring (8) to a stopper (6) of the syringe (3), wherein the syringe (3) is lockable for joint axial translation with the carrier (7), a control spring (19) arranged around the carrier (7), a needle insertion control mechanism (24) for coupling a proximal end of the control spring (19) to either the carrier (7) for advancing it for needle insertion or to the chassis (2),
wherein the needle insertion control mechanism (24) comprises a first collar (20) biased by the control spring in a proximal direction (P), wherein at least one fifth clip (2.10) is arranged on one of the chassis (2) or the first collar (20) initially abutting a block (20.7) on the other of the chassis (2) or the first collar (20), wherein a ramped engagement between the fifth clip (2.10) and the carrier (7) is provided for outwardly deflecting the fifth clip (2.10) on translation of the carrier (7) in the proximal direction (P), wherein outward deflection of the fifth clip (2.10) and translation of the carrier (7) in the proximal direction (P) is initially prevented by the case (12) outwardly abutting the fifth clip (2.10), wherein the case (12) is at least initially biased in the distal direction (D), wherein the case (12) is arranged to translate against the bias in the proximal direction (P) relative to the chassis (2) into an advanced position thereby translating a second window (12.8) in the case (12) outwardly behind the fifth clip (2.10) thus allowing outward deflection so as to decouple the fifth clip (2.10) from the block (20.7) and to allow the first collar (20) to abut against the carrier (7) and advance it under load of the control spring (19).

The invention relates to a detent mechanism for controlling translation between two components in a longitudinal direction (P, D), the detent mechanism comprising at least one clip on one of the components arranged to be in a ramped engagement with a recess in the other one of the components in an initial state in such a manner that translation between the components is constrained and that application of a translative force between the components in one longitudinal direction (P, D) with the clip engaged with the recess deflects the clip out of the recess when a predetermined value of the translative force, at least depending on the resilience of the clip, is overcome so as to allow translation between the components.