A dispenser actuator assembly (100) for actuating a dispenser (10) is disclosed. The dispenser (10) is in the form of a glass ampoule assembly (10) having a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14) wherein the outer container (14) has a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has a base member (102) configured to mount on the outer container (14). The dispenser actuator assembly (100) also has an actuator assembly (104) operably connected to the base member (102) wherein the actuator assembly (104) has a first actuator arm (132a) and a second actuator arm (132b) each pivotally connected to the base member (102). The first actuator arm (132a) and the second actuator arm (132b) extend from the base member (102) in generally opposed relation defining a first position, or neutral position. The first actuator arm (132a) has a first protrusion (150a) depending therefrom and the second actuator arm (132b) has a second protrusion (150b) depending therefrom. The first actuator arm (132a) and the second actuator arm (132b) are pivotable from the first position towards one another to a second position, or actuating position, that is configured such that the first protrusion (150a) engages the outer container (14) and the second protrusion (150b) engages the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is configured to be dispensed from the glass ampoule assembly (10).

A dispenser actuator assembly (100) for actuating a dispenser (10) is disclosed. The dispenser (10) is in the form of a glass ampoule assembly (10) having a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14) wherein the outer container (14) has a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has a base member (102) configured to mount on the outer container (14). The dispenser actuator assembly (100) also has an actuator assembly (104) operably connected to the base member (102) wherein the actuator assembly (104) has a first actuator arm (132a) and a second actuator arm (132b) each pivotally connected to the base member (102). The first actuator arm (132a) and the second actuator arm (132b) extend from the base member (102) in generally opposed relation defining a first position, or neutral position. The first actuator arm (132a) has a first protrusion (150a) depending therefrom and the second actuator arm (132b) has a second protrusion (150b) depending therefrom. The first actuator arm (132a) and the second actuator arm (132b) are pivotable from the first position towards one another to a second position, or actuating position, that is configured such that the first protrusion (150a) engages the outer container (14) and the second protrusion (150b) engages the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is configured to be dispensed from the glass ampoule assembly (10).

A dispenser actuator assembly (100) has base member (102) and an actuator arm (104) that is configured to crush a glass ampoule assembly (10). The glass ampoule assembly (10) has a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14), the outer container (14) having a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has the base member (102) that is configured to mount on the outer container (14). The actuator arm (104) is pivotally connected to the base member (102). The actuator arm (104) is pivotable from a first position to a second position that is configured to engage the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is dispensed from the glass ampoule assembly (10).

A receptacle for detecting a targeted pathogen is provided. The receptacle includes a main body configured to accommodate reagent containing ampoules and a specimen collector, a reservoir provided at a distal end side of the main body, and a support extending through the main body in an extending direction of the receptacle. The support includes an inlet that permits passage of the specimen collector into the main body and an outlet that restrictively permits passage of the specimen collector into and out of the reservoir.

A dispenser actuator assembly (100) has base member (102) and an actuator arm (104) that is configured to crush a glass ampoule assembly (10). The glass ampoule assembly (10) has a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14), the outer container (14) having a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has the base member (102) that is configured to mount on the outer container (14). The actuator arm (104) is pivotally connected to the base member (102). The actuator arm (104) is pivotable from a first position to a second position that is configured to engage the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is dispensed from the glass ampoule assembly (10).

Disclosed is a pair of capsules assembled together and respectively including two different phases to be mixed in order to obtain a personalized cosmetic product, including: two pouches respectively containing the two different phases and respectively included in the two capsules and interconnected by a communication channel including at least one portion of narrow cross-section relative to the two pouches, this portion of narrow cross-section of the communication channel including two right-angle bends.

A dispenser actuator assembly (100) has base member (102) and an actuator arm (104) that is configured to crush a glass ampoule assembly (10). The glass ampoule assembly (10) has a rupturable glass ampoule (12) containing a flowable material (M). The glass ampoule (12) is contained within an outer container (14), the outer container (14) having a first open end (22) and a second closed end (24). The glass ampoule assembly (10) has an applicator (16) positioned in the first open end (22). The dispenser actuator assembly (100) has the base member (102) that is configured to mount on the outer container (14). The actuator arm (104) is pivotally connected to the base member (102). The actuator arm (104) is pivotable from a first position to a second position that is configured to engage the outer container (14) to crush the glass ampoule (12) wherein the flowable material (M) is dispensed from the glass ampoule assembly (10).

Process for the manufacture of dual-chamber containers (1) includes steps of: shaping one layer of a plastic material to form at least one semi-finished product (2); closing the semi-finished product (2) inside a forming mould (3); blowing an expansion gas to make the semi-finished product (2) adhere to the forming mould (3) to form a strip (6) comprising at least one pair of vials (7a, 7b), wherein each of the vials (7a, 7b) is provided with: a hollow body (9) comprising a substantially flat first wall (8a) and a substantially curved second wall (8b); a closed delivery neck (12); and an open bottom tang (14);

and wherein the hollow bodies (9) are joined together through a folding attachment portion (11); folding the pair of vials (7a, 7b) around the folding attachment portion (11) between an extended configuration, wherein the first walls (8a) are substantially coplanar, and a configuration of use, wherein the first walls (8a) are facing each other and brought close to each other to obtain a dual-chamber container (1).

Disclosed is a pair of capsules assembled together and respectively including two different phases to be mixed in order to obtain a personalized cosmetic product, including: two pouches respectively containing the two different phases and respectively included in the two capsules and interconnected by a communication channel including at least one portion of narrow cross-section relative to the two pouches, this portion of narrow cross-section of the communication channel including two right-angle bends.

A dispenser (10) for dispensing a flowable material M has a first container (12) configured to contain the flowable material M. The first container (12) is configured to be fracturable in response to a force applied thereto. A second container (14) has a first open end and a second closed end wherein the first container (12) is contained within the second container (14). The dispenser (10) further has an applicator assembly (16) operably positioned in the first open end of the second container (14) and defining a juncture therebetween. A connector member (18) is positioned proximate the juncture wherein the connector member (18) provides a compressive force proximate the juncture.