Static structures (e.g. – buildings) – Preassembled subenclosure or substructure section of unit or... – With retaining or attaching means
Reexamination Certificate
2002-10-10
2004-09-21
Friedman, Carl D. (Department: 3635)
Static structures (e.g., buildings)
Preassembled subenclosure or substructure section of unit or...
With retaining or attaching means
C052S309400, C052S578000, C052S783100
Reexamination Certificate
active
06792722
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field
The present invention relates to a particular feature of an Air Handling Unit Casing which holds various components for changing the thermal conditions of air. More particularly the present invention relates to the feature which is “the cold-bridge-free” and “air tight” construction of the casing by means of which the heat transfer between the air inside and outside of the air handling unit and the air leakage to and from the outside air are minimized.
2. Description of Related Art
Air handling units are widely used in both comfort and industrial process air conditioning systems for the purposes of changing the thermal conditions of air and removing the undesired particles and odors from the air. Various components such as cooling and heating coils, filters, blowers, humidifiers etc. are installed inside the air handling unit casing in order to change the thermal conditions of air and in order to circulate the air through the air handling unit casing.
The function of the air handling unit casing is to physically separate the conditioned and circulated air inside the unit from the environment air outside and additionally to provide a protective cover for the inner components.
Design of the air handling unit casing is not a new subject. Generally, air handling unit casings can be classified into two groups which are called as frameless and pentapost casings. In a frameless air handling unit casing, the side by side connection of the panels is performed by direct connection of the panels to each others, while the panels are perpendicularly connected to each others by employing fixing angles such that fixing angles are independent from each others and they are not joined on the corner of the unit. The work of the Ernst Frei (U.S. Pat. No. 3,854,261, 1974) is a sample of a frameless air handling unit casing.
In the pentapost air handling unit a frame is firstly constructed. The side by side connection of the panels are performed by connection of the panels to the frame profiles. The perpendicular connection of the panels are also performed by profiles which are connected or welded to each others on the unit corners by employing corner pieces. In the pentapost air handling unit, most of the casing and employed elements weight are loaded to the frame profiles rather than the panels. The works of the Van Benthem et al (WO 99/13273, 1999) and the Louis Reigne (EPC 0 427 626 A1, 1990) present two examples for the pentapost air handling unit casings.
The main elements which comprise an air handling unit casing are doors, panels and the fixing accessories that join these elements. The doors provide access to the inside of the casing for maintaining and repairing the components or for making amendments or adjustments on the system in case of necessity. The door is basically made of two separate sheet metal plates called inner and outer skins and a filling material in between which is used for insulation. The door is also furnished with hinges along one side through which it is fixed to the panels of the casing and with door handles on the side across, for locking the door.
The panels are also constructed of two separate sheet plates and an insulation material in between similar to the doors. Since the air handling units come with different sizes depending on the required performance and air conditioning capacity, a different number and combination of standard panels are used to build each particular size of the casing and different techniques and methods are employed to join the panels.
Due to the air temperature difference between inside and outside of the air handling unit, a heat flow occurs through the casing which has to be controlled and reduced by means of applying an insulation material between the panel skins.
With the present technology and the construction outlines of air handling unit casings as described above, properties of the conditioned air are negatively affected due to occurrence of thermal-bridge and air leakage.
Disadvantages or negative effects introduced by the constructions which are produced by the present technology can be listed as follows:
In case there is any thermal-bridge in any part of the air handling unit casing, the heat transfer rate between inner and outer air is augmented and condensation may be formed locally on the casing surface depending on the inner and outer air temperature and humidity conditions. On the other hand in case of an air leakage through the adjoining surfaces of the panels due to the pressure difference between the inside and the outside of the casing condensation may occur alongside the edges of the panels and doors. If the condensation is formed on the inner surfaces of the air handling unit it promotes the corrosion of the material inside the casing and depending on the amount of condensation, some amount of water may be collected inside the air handler which is then carried to the other sections of the system and even to the conditioned space. Alternatively condensation formed outside the air handling unit casing causes rusting and corrosion of the outer skin and accumulation of condensed water in the machine room, where the equipment is installed, which degrades the hygiene in the environment.
Besides condensation problems, air leakage through panel and door joints creates energy loss and air thermal condition inside the unit deviates from the intended quantities.
Another disadvantage offered by the constructions of the present technology is that the comfort air which is filtered and cleaned through the filter sections is lost due to air leakage through the casing and/or similarly the unfiltered and unconditioned air from the environment enters to the unit due to slack joints on the air handling unit casing.
The effect of the thermal leakage (thermal bridge) from the panels on the formation of the surface condensation is more than the effect of the conductive of heat transfer of panel. In recent years, works have been performed to develop cold bridge free panels to eliminate the contact of the inner and outer panel sheets. Two old works in this subject belong to Brown Boveri et al (532 973, 1931) and work of the Paul Stauffer (212 271, 1940). In the both works, plastic pieces are employed to prevent the panel sheets contact. Raymond M. L. Tig (U.S. Pat. No. 5,048,248, 1991) has developed another type of panel are applied to buildings wall. The developed panels can not resist against loads, since they have to be attached to the objects such as building walls. The another panel has been developed by Goebel, R. A. (WO 88/011327, 1988). Again, plastic pieces are suggested to prevent the contact of the inner and out panel sheets. Although the side by side connection of the panels are described in that work, the detail of the perpendicular connection of the panels which are very important in order to obtain a close cover for unit elements and the details of the cold bridge free door and cold bridge free door frames of the unit casing are not handled. One of the another recent developed panel belongs to Louis Regiene (0 427 626 A1, 1990). A plastic piece is developed to fix the inner and outer sheets of the panels and prevent the their contact. The panels are developed for a pentapost air handling unit casing since it is mentioned that the side profiles are connected or welded to each others on unit corners. Additionally, the side by side panel connection and details of cold bridge free door and cold bridge free door frame which are required for air handling unit casing and the detail of the corner piece which provides the join of the side profiles to each others on the unit corner are not described.
SUMMARY OF THE INVENTION
One purpose of the invention is; to reduce the thermal-bridge between the inner and the outer skins of the panels which are used in constructing air handling unit casings and hence to prevent deviation of the thermal conditions of the conditioned air from that of the intended for comfort.
Another purpose of the invention is; to prevent formation of the condensation on
Arkun Yildirim
Beser Erkut
Uysal Hamdi
Friedman Carl D.
Kinslow Cathrine K.
McDermott Kevin
Yee Duke W.
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