Vapor phase heaters

Electric resistance heating devices – Heating devices – Vaporizer

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C122S478000

Reexamination Certificate

active

06701067

ABSTRACT:

BACKGROUND
This invention relates to vapour phase heaters.
Vapour phase heaters are known devices which comprise a boiler in connection with one or more heater tracks. The boiler heats a heat transfer fluid so as to produce hot vapour which expands into the heater tracks. Gravity returns the condensed fluid to the boiler. Any non-condensing gases are expanded through small holes disposed at the top of the heater tracks and its pipes, which are connected to a vent box. Thus, non-condensing gases are collected in the vent box. A return tube returns the condensed heat transfer fluid from the vent box to the boiler. The arrangement enables the boiler to be commissioned or vented without using a vacuum pump.
There are a number of problems associated with such known vapour phase heaters.
Firstly, although conventional vapour phase heaters generally function perfectly well when the heater tracks are disposed in a vertical position, i.e., the longitudinal axis of a track is at 90° to the horizontal, such heaters perform less well when the tracks are at a shallower angle to the horizontal. This is because, in order to operate a vertical multitrack vapour phase heater in a satisfactory manner, the boiling action must take place in the horizontal boiler with sufficient space in the boiler for the vapour to flow freely into the tracks. At shallow angles, there is a risk that the heat transfer fluid will spill into the tracks such that there is no route for vapour to pass from the boiler to the tracks. One way of overcoming this problem would be to utilize a very high sided boiler. However, such an approach is undesirable since the boiler flat plate sections would have to be made from very thick material to withstand the high stresses resulting from such a design. Additionally, the boiler surface area would have to be increased, resulting in increased heat losses which would render the boiler less thermally efficient. In view of these problems it is perhaps not surprising that conventional multi-track heaters are generally not capable of operating at angles of less than 35° to the horizontal. However, it would be desirable to provide vapour phase heaters which are capable of operating at shallower angles still. Applications of such low angle heaters include use in filament processing machines, for example in a false twist texturing machine.
Secondly, problems are encountered when a large number of heater tracks are utilized. As the number of heater tracks utilized in a vapour phase heater is increased, the width of the boiler must be increased in order to accommodate them. Conventionally, the boiler comprises a heat input tube extending across the width of the boiler. In such a configuration, high expansion stresses are encountered during rapid temperature increases which necessitates the use of expensive high quality components.
Thirdly, stability problems are often encountered due to “hot spots” on the heat input tubes which produce an expanding bubble of vapour within the fluid. The effect of the vapour bubble expanding and eventually collapsing is to cause uncontrolled oscillations in temperature. This problem is common to both single and multi-track vapour phase heaters.
The present invention overcomes the above described problems, and provides improved vapour phase heaters.
SUMMARY
Objects and advantages of the invention will be set forth in part in the following description, or may be obvious from the description, or may be learned through practice of the invention.
According to a first aspect of the invention there is provided a vapour phase heater comprising:
A plurality of elongated, hollow heater tracks;
A vapour generator having a vapour generation chamber in fluid flow communication with the interior of each track at a lower end of each track;
At least one heat input tube extending through the vapour generation chamber;
A fluid vaporizable by heat supplied through the heat input tubes; and
Vapour flow connector means communicating with the vapour generator and the interior of each track at a location removed from the lower end of the track so as to provide conduits for vapour produced in the vapour generator to pass into each track.
The provision of the vapour flow connector means provides a passage for heated vapour to pass to the heater tracks even if there is no such passage for vapour flow from the vapour generator into the lower ends of the tracks which are in fluid flow communication with the vapour generator chamber. This permits the vapour phase heater to be used at shallow angles with respect to the horizontal, even though at shallow angles the fluid may be horizontally displaced in vapour generation chamber to such an extend that the fluid has flowed into the lower end of the tracks and thereby blocked passage of heated vapour from the vapour generation chamber to said lower ends. Angles as low as 5° to 10° to the horizontal can be accommodated with such an arrangement.
The vapour flow connection means may comprise a plurality of vapour flow connection tubes, each vapour flow connection tube directly communicating with the interior of a track and the vapour generator.
The vapour phase heater may be adapted for use in operation configurations in which the angle of the tracks relative to the horizontal can range between 90° and at least 30°, preferably 10°, most preferably 5°, the vapour generation chamber being disposed at the lower end so that in any operating condition fluid condensed in each track is returned to the vapour generation chamber by gravity. The quantity of fluid may be such that the heat input tubes are continuously covered with fluid accumulated in the vapour generation chamber when the heater is in any operation configuration but also such that a vapour collection space remains free of fluid within the chamber, said vapour collection space being in communication with the vapour flow connector means.
The vapour generator may comprise a plurality of section, wherein:
Each section has an associated heat input tube or tubes which are separate from those of the other section or sections; and
Each section is in fluid flow communication with a different set of tracks.
In this way, the expansion stresses resulting from increases in temperature are reduced, because an individual heat input tube only extends across a single section, rather than the entire width of the vapour generator. As a result, low cost, robust heater elements can be used safely.
A vapour flow communication path may be provided between vapour collection spaces of different sections. The vapour flow communication path may contain, but not be filled by, fluid in any of the operation configurations.
The vapour generator may comprise two sections.
A gas collecting chamber may be provided to collect non-condensing gases, the gas collecting chamber being in flow communication with the ends of the tracks spaced from the vapour generator. A fluid return may be provided between the gas collecting chamber and the vapour generation chamber. The fluid return may be provided with a trap to prevent vapour flow from the vapour generation chamber to the gas collecting chamber.
The wall of the vapour generation chamber opposite the tracks may be curved to converge with the lower ends of the tracks.
Each track may have a front face with a pair of thread receiving grooves, the other track faces being insulated. The grooves may have a spacing in the range of 10 to 15 mm, preferably about 12 mm.
The surfaces of the heat input tubes within the vapour generation chamber may be provided with a heat distribution wrapping to limit the size of vapour bubbles created at each point on the tube surface. This permits operation of the device at lower temperatures than would otherwise be possible.
It has been found that the wrapping provides a significant reduction in problems associated with “hot spots”. Preferably, the heat distribution wrapping comprises a braiding, such as a steel braiding.
The heat input tubes may be arranged in a single row adjacent the tracks.
The heat input tubes may receive electrical heater ele

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Vapor phase heaters does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Vapor phase heaters, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Vapor phase heaters will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3232770

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.