CA2042997C - Sterilizer for compressed air - Google Patents

Abstract

Compressed air systems such as those used in dental offices and hospitals produce moisture condensation in the complessor's reservoir, due to the pressure variations inherent in successive starts and stops. This water thus accumulated in the tank becomes a natural incubator for infection. In addition, the quality of the air at its point of use (ie in the patient's mouth) is dependent on the ambient atmosphere in which the air intake of the complessor is located and there is previously no way to counter this contamination. The present invention is a dynamic dry autoclave which, by infrared, heats the compressed air to 200 degrees C, under a pressure of 100 to 150 lbs / in2, by circulating it at high velocity in a copper coil. combined actions (temperature, pressure) provide users with aseptic compressed air and a system preventing any bacterial proliferation throughout the network.

Description

20 ~ 2997 AI ILISATOR: R TABLET

The present invention relates to a method ebctro-m ~ ni ~ read aseptization air in compressed air systems, and not ~ mm ~ nt oeux used for inslru ~ nts chi ~ ulgical and industrial tires.
Actuell ~ mPnt, bacterial proliferation and ambient air pollution are inevitable consequences of the operation of a dental office and this, by a double source. The first is the air circuit Co ~ p ~ C itself by} a condPn ~ tion ~ hlm ~ té due to pressure variations in the tank. This middle becomes a natural habitat for bacteria. The source iP-m ~ is the system saliva ejector because the CO ~ p ~., S ~. It s ~ lm ~ nte de l'en ~ oti ~ n septic tank of this pump and recycles it in compressed air. Contaminated air from of these two sources goes directly to the users in the intervention environment.
The creative idea of the present invention relates to the preventive tr ~ it ~ m ~ nt of the two sources of bacterial proliferation described above. Indeed, this sterilizer is inserted in the Colllyl c air circuit between the compfess ~ r and the pnellm ~ ti ~ read instruments.
Compressed air passing at high velocity through a copper coil under pressure average of 100 to 150 Ibs / in2 is heated to a temperature of 200 degrees C. The flow is approximately 15 cfm. Les_icro-org ~ qni ~ mps are projected against the walls damaged from the coil and are thus fragmented. The refractory concrete enclosing the element and the copper tube (where the air co.npr ~ c circulates) acts like c ~ p ~ cit ~ ur of energy by forcing this energy to heat the copper tubing rather than escaping into the atmosphere.
Although the present invention was first designed to meet a need dental and medical worlds, it can also be used in con ~ e and industry whenever air quality col. ~ l) r., ~ is involved. For example, air tablet sterilized by the present invention may be used to actuate instruments pneumatic parts on an assembly line, where humans handle them, will be used for ~ 5th ~ h ~ r containers of ph products ~ rm ~ celltiqucs before the stamping as well as in the manufacture of sterile blisters.
In summary, the present invention protects the utili ~ teurs air colllp.i.llé
Against the proliferation of micro-gold ~ pathogenic ninnes.

Relating to d. s ~ in ~ which illustrate the r ~ li ~ tion of the invention:

Drawing 1 represents the dynamic autoclave when connected to a compressor traditional.

Drawing 2 represents a sectional view of the dynamic autoclave with the elements the constituent.

ESSIN 1: The dynamic autoclave (1) connects to the compressor (2) in the same way following: The stale air coming from the compressor (2) is brought to the autoclave dynamic (1) by c ~ n ~ tion (3). Purified air leaving the autoclave dynamic (1) is brought to the pneumatic dental instruments (not illustrated) by the c ~ n ~ tion (4). A microprocessor and two relays (5) provide temperature control.

ESSIN 2: The dynamic autoclave (1) consists of a copper tube coil (shown in black on the drawing and starting at entry 3 to terminate at outlet 4) 3 ~ 8 "in diameter by 182" in length, wound in spiral on 8 superimposed turns, around a heating element (6) itself even wound in a spiral on 8 simple turns.
The heating element (6) generates infrared energy allowing reach the 200 degrees C necessary for sterilization of compressed air.
This assembly is then submerged in refractory concrete (7) which acts as a thermal capacitor and thus contributes to the efficiency of the autoclave dynamic. End ~ m ~ nt, the whole is sealed in a metal bolt (8).

Claims (11)

1. A compressed air sterilization device comprising:

a thermodynamic autoclave made up copper tubing, wound in a spiral, used to create said dynamic necessary for the destruction of pathogenic microorganisms present in the air compressed by spraying them against the uneven walls of said tubing, heated to 200 degrees C (392 F) by an electric element wound in a spiral, inside said copper coil, used to produce the heat energy necessary for air sterilization tablet circulating in said copper coil, said copper coil and said electrical element both being submerged in a refractory concrete serving as a thermal capacitor to optimize the sterilization of compressed air, the inlet of said thermodynamic autoclave taking its compressed air from the outlet of a traditional medium pressure compressor, said autoclave sterilizing this compressed air and conveying it through its outlet to the inlet pneumatic instruments through pipes. 2. An apparatus as defined in claim 1, wherein said thermo-autoclave Dynamique distributes sterilized air to pneumatic instruments used in surgery medical and dental. 3. An apparatus as defined in claim 1, wherein said autoclave thermodynamic sterilizes compressed air actuating pneumatic instruments manufacturers on an assembly line, where humans manipulate these instruments industrial tires. 4. An apparatus as defined in claim 1, wherein the sterilized compressed air by said thermodynamic autoclave is used to dry product containers pharmaceutical before bottling. 5. An apparatus as defined in claim 1, wherein said autoclave thermodynamic sterilizes the compressed air used in the production of wafers sterile. 6. An apparatus as defined in claim 1, wherein said copper tubing has a diameter of 3/8 ". 7. An apparatus as defined in claim 1, wherein said copper tubing has a length of 182 ". 8. An apparatus as defined in claim 1, wherein said copper tubing is wound in a spiral on 8 superimposed turns. 9. An apparatus as defined in claim 1, wherein said electrical element is wound in a spiral over 8 single turns. 10. An apparatus as defined in claim 1, wherein the outlet of said com-presser is at a pressure varying between 100 and 150 PSI and at a flow rate of 15 cfm. 11. An apparatus as defined in claim 6, wherein said copper tubing has a length of 182 ".