The present invention refers to a Packaging and transportation kit for hydrogen peroxide or other chemical products used as sterilizing or disinfecting agents in sterilization or disinfection equipment that prevents leakage of the product. It also refers to the respective supplying system. The referred packaging and transportation kit comprises a primary recipient or a set of primary recipients (1, 12) made of material that is compatible with the chemical product used; a sealing membrane or nano-membrane (2.1); a separation membrane or nano-membrane (2.2) of the primary recipient (1, 12) that divides it into different parts; with or without a capsule (3) with one or more holes; a super absorbent material (4.1) applied around the recipient(s) (1); an absorbent material (4.2) that can be inserted in the interior of the recipient (1) together with the liquid; a chip/RFID with memory and/or color code system, and/or a barcode system, and/or a QR code system; a temperature and/or humidity indicator (6, 6.1); a leakage indicator (7); and an external packing of resistant material (8).

The present invention refers to a Packaging and transportation kit for hydrogen peroxide or other chemical products used as sterilizing or disinfecting agents in sterilization or disinfection equipment that prevents leakage of the product. It also refers to the respective supplying system. The referred packaging and transportation kit comprises a primary recipient or a set of primary recipients (1, 12) made of material that is compatible with the chemical product used; a sealing membrane or nano-membrane (2.1); a separation membrane or nano-membrane (2.2) of the primary recipient (1, 12) that divides it into different parts; with or without a capsule (3) with one or more holes; a super absorbent material (4.1) applied around the recipient(s) (1); an absorbent material (4.2) that can be inserted in the interior of the recipient (1) together with the liquid; a chip/RFID with memory and/or color code system, and/or a barcode system, and/or a QR code system; a temperature and/or humidity indicator (6, 6.1); a leakage indicator (7); and an external packing of resistant material (8).

The disclosure concerns a portable system for absorbing shock and carrying electronic equipment. The system includes a container having an open end, a closed end, and an interior wall. The system includes at least one first standoff attached to a first interior wall portion and at least one second standoff attached to a second interior wall portion such that the first and second standoff oppose each other. The system includes at least one piece of electronic equipment attached to a plate. The plate includes a rail. Each standoff also has a groove to receive the rail. The system further includes a relief section defined by an area between the interior wall of the container and at least one of a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the electronic equipment from damage.

The disclosure concerns a portable system for absorbing shock and carrying electronic equipment. The system includes a container having an open end, a closed end, and an interior wall. The system includes at least one first standoff attached to a first interior wall portion and at least one second standoff attached to a second interior wall portion such that the first and second standoff oppose each other. The system includes at least one piece of electronic equipment attached to a plate. The plate includes a rail. Each standoff also has a groove to receive the rail. The system further includes a relief section defined by an area between the interior wall of the container and at least one of a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the electronic equipment from damage.

Embodiments of systems, apparatuses, and methods are provided herein for disposing and documenting the disposal of controlled substances. According to one embodiment, a waste containment apparatus is provided with a housing comprising a waste input port configured for receiving controlled substance waste doses deposited into the waste containment apparatus, and a collector securely disposed within the housing and coupled to the waste input port. The collector may generally include a plurality of single-dose containers, where each container is configured for receiving one of the controlled substance waste doses deposited into the waste containment apparatus via the waste input port.

A container 10 for mixing and dispensing of material having a liquid receptacle 14 and a plunger 18. The receptacle 14 has a front portion 36 and the plunger 18 has a forwardly projecting sharp protrusion 42 having a shaft 72 which terminates in a sharp outer end 78, 82. Upon the plunger 18 being depressed the sharp protrusion 42 pierces a front portion 36 of the liquid receptacle 14 and the liquid in the receptacle 14 is pushed hydraulically through the front portion 36 into a main chamber 17. Thus the liquid contacts material in the main chamber 17 to form a mixture. The plunger 18 can continue to be depressed so as to break the front portion 36 of the liquid receptacle 14 away and then push the material in the main chamber 17 towards a dispensing nozzle 26. The main chamber 17 has a frangible membrane 22 at a distal end 13 thereof which is hydraulically broken by pressure applied from the material in the main chamber 17 so that the material can be dispensed from the container 10. The container 10 is particularly envisaged for use with mixing and dispensing of dental materials.

A container 10 for mixing and dispensing of material having a liquid receptacle 14 and a plunger 18. The receptacle 14 has a front portion 36 and the plunger 18 has a forwardly projecting sharp protrusion 42 having a shaft 72 which terminates in a sharp outer end 78, 82. Upon the plunger 18 being depressed the sharp protrusion 42 pierces a front portion 36 of the liquid receptacle 14 and the liquid in the receptacle 14 is pushed hydraulically through the front portion 36 into a main chamber 17. Thus the liquid contacts material in the main chamber 17 to form a mixture. The plunger 18 can continue to be depressed so as to break the front portion 36 of the liquid receptacle 14 away and then push the material in the main chamber 17 towards a dispensing nozzle 26. The main chamber 17 has a frangible membrane 22 at a distal end 13 thereof which is hydraulically broken by pressure applied from the material in the main chamber 17 so that the material can be dispensed from the container 10. The container 10 is particularly envisaged for use with mixing and dispensing of dental materials.

In one embodiment, a portable system for absorbing shock and carrying electronic equipment is disclosed. The system includes a container having an open end, a closed end, and an interior wall. At least one first standoff is attached to a first interior wall portion and at least one second standoff is attached to a second interior wall portion such that the first and second standoff oppose each other. At least one piece of electronic equipment is attached to a plate. The plate includes a rail. Each standoff also has a groove, where each groove is configured to receive the rail. The system further includes a relief section defined by area between a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the equipment from damage. In other embodiments, the system includes at least one solar panel defining a kit.

In one embodiment, a portable system for absorbing shock and carrying electronic equipment is disclosed. The system includes a container having an open end, a closed end, and an interior wall. At least one first standoff is attached to a first interior wall portion and at least one second standoff is attached to a second interior wall portion such that the first and second standoff oppose each other. At least one piece of electronic equipment is attached to a plate. The plate includes a rail. Each standoff also has a groove, where each groove is configured to receive the rail. The system further includes a relief section defined by area between a perimeter of the plate and a perimeter of the electronic equipment. The system also includes shock absorbing properties to protect the equipment from damage. In other embodiments, the system includes at least one solar panel defining a kit.

A dispenser (10) for dispensing a flowable material M has a container (12) having an outer wall (20) and membrane (14) collectively defining a first chamber (22) configured to contain the flowable material M. The membrane (14) has a thickness and a weld seam (40) wherein the weld seam (40) has a thickness less than the thickness of the membrane (14). A fracturing mechanism (16) is operably connected to the container (12). The fracturing mechanism (16) has an extending member (64) projecting from the outer wall (20) of the container (12). The extending member (64) has a projection (66) positioned proximate the membrane (14), wherein in response to deflection of the extending member (64), the projection (66) deflects the outer wall (20) proximate the membrane (14) wherein the weld seam (40) fractures creating an opening (41) through the membrane (14) configured to allow the flowable material M to pass therethrough and from the dispenser (10).