Egzoset
Bluelighter
This been inspired by the concept of Robert Schneider aka BeamDreamer, inventor of a LASER vaporizer:
So far his design relies on conduction while condensation reaching the device's lense makes it mandatory to keep it clean on a regular basis. Thanks to another inventor who made blue LEDs (and flat TVs...) possible now there's blue LASERs to play with, if cautious enough. One problem i got with portable electric vaporizers is their battery being submitted to instense electric stress while just a few inches from a consumer's nose. IMO the power source should remain on a table and the consumption tool only contain a metered reserve of heat, passively.
In this Microsoft Paint drawing i represent SiC Foam in dark blue when in fact it's just dark. The blue LASER hits it from one side which can be as well totally obstructed, e.g. air-tight, while injected energy only moves to flood the bowl if there's airflow, during inhalation exactly. The fact that this energy reserve can be precisely matched to its workload in terms of Joules per puff implies the user can't reach combustion temperatures before such fixed amount of energy gets depleted, hence promoting self-awareness as an « HR » side-effect because the consumer's opportunities to leave it there and forget about it are multiplied, with the result of avoiding dosing abuse without feeling too restrictive as a bonus.
In conduction mode the SiC Foam caused cannabic vapour to travel back to the LASER's lense, but my strategy being about convective heat instead this means the bowl stays fresh until a wave of hot air floods it, traveling in only one direction, away from that lense. And since i've experimented abundantly on the merits of fresh air injection into an SIC Foam core this calls for manual control so to enhance the ritual as well.
In electromagnetic energy transfer scenarios it's quite possible and convenient to wirelessly transfer data back to the power driver in order to cut energy injection once the SiC core has reached its target temperature, actually reflecting a metered amount of Joules. That means over-heating can be prevented, too much fresh air may waste the thermal charge but there can't be too much of it if the match is adequate and account for that heat's degradation along the path.
In the end a purist's goal to eliminate hot metal in his cannabic path now seems like an attainable reality without having to make any trade-offs on features such as precision, efficiency and safety.
Etc., etc. In short a vaporist's ultimate dream even the politicians might appreciate.
Good day, have a nice 4-20!
So far his design relies on conduction while condensation reaching the device's lense makes it mandatory to keep it clean on a regular basis. Thanks to another inventor who made blue LEDs (and flat TVs...) possible now there's blue LASERs to play with, if cautious enough. One problem i got with portable electric vaporizers is their battery being submitted to instense electric stress while just a few inches from a consumer's nose. IMO the power source should remain on a table and the consumption tool only contain a metered reserve of heat, passively.
In this Microsoft Paint drawing i represent SiC Foam in dark blue when in fact it's just dark. The blue LASER hits it from one side which can be as well totally obstructed, e.g. air-tight, while injected energy only moves to flood the bowl if there's airflow, during inhalation exactly. The fact that this energy reserve can be precisely matched to its workload in terms of Joules per puff implies the user can't reach combustion temperatures before such fixed amount of energy gets depleted, hence promoting self-awareness as an « HR » side-effect because the consumer's opportunities to leave it there and forget about it are multiplied, with the result of avoiding dosing abuse without feeling too restrictive as a bonus.
In conduction mode the SiC Foam caused cannabic vapour to travel back to the LASER's lense, but my strategy being about convective heat instead this means the bowl stays fresh until a wave of hot air floods it, traveling in only one direction, away from that lense. And since i've experimented abundantly on the merits of fresh air injection into an SIC Foam core this calls for manual control so to enhance the ritual as well.
In electromagnetic energy transfer scenarios it's quite possible and convenient to wirelessly transfer data back to the power driver in order to cut energy injection once the SiC core has reached its target temperature, actually reflecting a metered amount of Joules. That means over-heating can be prevented, too much fresh air may waste the thermal charge but there can't be too much of it if the match is adequate and account for that heat's degradation along the path.
In the end a purist's goal to eliminate hot metal in his cannabic path now seems like an attainable reality without having to make any trade-offs on features such as precision, efficiency and safety.
Etc., etc. In short a vaporist's ultimate dream even the politicians might appreciate.
Good day, have a nice 4-20!
