Can tap

Abstract

Disclosed are can taps for dispensing fluids from containers. The can tap has a housing with a housing net and a housing outlet, and a pin and a tap outlet. The pin has a flow portion in fluid communication with the housing inlet and housing outlet. The flow portion of the pin may be a hollow shaft. The pin has a blunt depressor capable of operating a valve on the container. The can tap may have a gasket comprising a material having a hardness that prevents deformation of the container.

Description

BACKGROUND INFORMATION[0001]1. Field of the Disclosure[0002]This invention relates to can taps for use with containers for dispensing materials. More specifically, this invention relates to can taps for dispensing refrigerants from pressurized containers.[0003]2. Description of the Related Art[0004]Chlorofluorocarbon (CFC), hydrochlorofluorocarbon (HCFC), hydrofluorocarbon (HFC), and hydrofluoroolefin (HFO) compounds have been used extensively as refrigerants, as well as propellants and cleaning solvents. In response to global warming and ozone depletion concerns, new environmental pressures are continuously being exerted on refrigerant service technicians. Refrigeration and air-conditioning (a / c) systems commonly lose refrigerants due to system fatigue, servicing, and / or normal system leakage. Therefore, refrigeration and a / c systems need to be re-charged by adding refrigerant. In the automotive aftermarket, it is very common to recharge a / c systems with small (typically 12 oz. or ...

AI Technical Summary

Benefits of technology

The present invention provides a can tap that allows for easy tapping of cans with a valve. The can tap comprises a housing with a throat between its lower and upper ends, a pin located inside the housing with a blunt depressor for operating the valve, and a flow portion located between the upper and lower ends of the pin. The can tap also has an outlet at the upper end of the housing and a gasket made of a hard material positioned near the housing's inlet. The gasket is made of a specific material that ensures a tight seal with the can's valve. The technical effect of this invention is that it allows for easy and secure tapping of cans with minimal risk of leakage or contamination.

Problems solved by technology

Refrigeration and air-conditioning (a / c) systems commonly lose refrigerants due to system fatigue, servicing, and / or normal system leakage.

Due to the thin metal seal on the can which must be pierced and ultimately destroyed to dispense the contents, the can cannot be resealed.

Therefore, the cans can only be used once before they are discarded.

If all of the contents are not used, the excess refrigerant is wasted.

Another issue often encountered with the piercing-type can taps (piercing taps) is inconsistent and / or stopped flow.

If the needle-shaped pin is inserted too far into the can, the needle pin will block the flow of the contents out of the can.

If the pin is not inserted far enough, the hole in the metal seal may be small and restrict the flow of material out of the can.

However, when technicians actuate the can tap, for example by turning a handle, and begin to remove the pin out of the can, the refrigerant normally starts to flow, so the technician may not fully dis-engage the pin.

First, the needle-shaped pin may damage the plug and / or the seal and may destroy the can's ability to release refrigerant.

Second, piercing can taps also provide an inconsistent flow rate similar to the previous can designs.

Third, depending on the material of construction of the needle-shaped pin, some pins cannot even sufficiently depress a spring-actuated plug to liberate refrigerant.

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