Abstract: A sealed liquid container with a bottle, base, piercer, and cap. The bottle is a blow-fill-seal container with a body, dispensing head connected to the body by a neck, and a fluid chamber. The base has a socket that accepts the dispensing head and permanently attaches to the bottle by one or more fingers extending radially into the socket and under the shoulder of the dispensing head. A keying mechanism prevents the base from rotating on the bottle. The piercer has an axially-extending, sharpened, hollow tube. In shipping mode, the piercer is turned onto the base until the tube tip is touching the dispensing head. To use, the piercer is turned until the tube tip penetrates the dispensing head into the fluid chamber, and the piercer locking mechanism is engaged to prevent removal of the piercer. A cap turns onto the piercer.
Abstract: A dosing system for analgesic liquid suspensions including unit dose containers made using blow-fill-seal (BFS) technology. The containers come in various sizes and hold appropriate doses for specific weight ranges. Each container has body with a compartment for holding the liquid, finger rests for squeezing the container to expel the liquid, a tab at one end for labeling, and a twist-off closure at the other end. In the larger containers, the opening end has a lip rest, which is a flattened section that includes opposed, curved depressions. In the smallest container, the opening end has a long tapered neck. The suspension has a relatively low viscosity to ensure more complete dose evacuation from the container. The containers will be sold in assemblages of various combinations of sizes.
Type:
Grant
Filed:
August 17, 2012
Date of Patent:
June 14, 2016
Assignee:
HealthStar, Inc.
Inventors:
William J. Grabowski, Peter J. DeCoste, Jr.
Abstract: A pneumatic control head for controlling the supply of a product into a container via a filling head. A manifold has a pilot air duct. A start valve outputs main air to the pilot air duct when actuated by a mechanical switch. A pilot valve activates a cylinder using the main air in response to air pressure in the pilot air duct. A filling head source valve routs either sensing air or blow down air to a filling head output in response to the condition of a blow down valve actuated by a mechanical switch. An overpressure valve exhausts the pilot air duct in response to the sensing air having a pressure higher than normal. The switches each includes a ball bearing captured by a collar. An external cam pushes the ball bearing into the collar, causing the ball bearing to actuate the respective valve. Duct connections to valves are implemented by a single machined plate with a depression that overlaps the duct aperture and valve opening.
Abstract: A drop dispenser for accurate dispensing of drops of a predetermined size. The dispenser comprises a container joined to a tip by a neck. The liquid from the container is forced into a flat flow passage in the neck and discharged into a chamber in the tip where the liquid coalesces. The liquid is then dispensed through an aperture which controls the size of the drop dispensed. The size of the aperture is independent of the pressure applied to the bottle. The flat flow passage prevents the flow of liquid therethrough at such a rate such that the liquid could be dispensed as a stream and not at the desired drop size.