This invention relates to the field of air curtains used to create an airflow defined barrier in openings in buildings between interior and exterior or different conditioned spaces within the building for reduced energy use by environmental retention therebetween.
Prior art devices of this type have been directed towards air curtains and associated air blower assemblies that include airstream conditioning such as heating. Typically, air curtains are limited to ambient air recirculation with the inclusion of heaters to condition the airflow as it leaves the blower through a directional outlet nozzle to form a laminar airflow barrier between openings. All known air curtain configurations condition the airflow pre or post blower, see for example U.S. Pat. No. 5,984,649.
Other heated air blower units have been developed for a variety of air heating applications with associated electric resistant coils, see for example U.S. Pat. No. 4,988,847 for defogging a bathroom mirror and well know portable electric heaters used for auxiliary point of use heating too numerous to list.
An air curtain unit with multiple blower fans having integrated heating coils positioned within and without intake air stream venturies defined by the interior of the impellor fan cage as such the heating coils conform to and define a venturi airflow characteristic by integrated coil dimension augmentation for maximum heat transfer from respective opposing heat coil placements with minimal air outflow impact.
Referring to
The electric motor assembly 14 has an upstanding motor support frame mount 15 with an electric drive motor 16 mounted thereon. The drive motor 16 has a pair of oppositely disposed extending power drive shafts 17 and 18 with respective associated bearing assemblies 17A and 18A and a power controller 19 as is well known and understood within the art. The power controller 19 is in electrical communication with a power supply motor control circuit C well known and understood within the art in such industrial applications.
As noted, each of the blower assemblies 12 and 13 are identical having a blower housing cylindrical casings 20 and 21 with integrated rectangular extending nozzle outlets 20A and 21A formed thereon secured to the support pan 11, as best seen in
Outer end multiple heating coil mounting heating coil mounting brackets 26, best seen in
The mounting brackets 26 support multiple annular spaced coil engagement elements 27, each bracket having multiple half arcuate coil receiving notches 26A, 26B and 26C therewithin. The mounting brackets 26 extend from outside the impellor's fan cage 22 inwardly holding the assistant heating coils 27A, 27B and 27C of different annular dimensions.
In this example, the coils 27B and 27C are of identical dimension with coil 27A of an increased diameter dimension so as to form a venturi shaped air intake flow V (illustrated by flow arrows) feeding into and within the fan cages 22 during operational rotation by the drive shafts 17 and 18 as hereinbefore described.
Referring now to
Referring now to
It will be seen when a three phase commercial power source is used defined in the graphic electrical supply circuit 31 as L1, L2 and L3, in this example, 208 volts of the outside coil pair assemblies 31 and 34 are supplied by L2 at approximately 4.66 kw each and the inside coil pair coil assemblies 32 and 33 are supplied in parallel at 2.33 kw each, thus defining an equal power supply of 4.66 kw for each coil configuration as will be understood by those skilled in the art.
Referring now to
A drive motor 44 has a pair of oppositely disposed extending drive shafts 45 and 46, shown in broken lines, and a power controller 47 in electrical communication with the power supply motor control circuit C as hereinbefore discussed in the primary form of the invention 10, as noted. The identical blower assemblies 41 and 42 have respective blower housing cylindrical casings 48 and 49 with integrated rectangular extending nozzle outlets 48A and 49A formed thereon.
Each air blower has a fan cage 50 supported in rotational relationship therewithin.
The alternate heating coil assemblies 40 are defined by a pair of modified outer blower end coil mounting brackets 51 and 52 and a pair of modified oppositely disposed inner blower end coil mounting assemblies 53 and 54, best seen in
The outer mounting brackets 51 and 52 each have a coil support frame 55 having spaced parallel coil end engagement flanges 56A and 56B interconnected by top and bottom cross members 57A and 57B best seen in
A plurality of cylinder resistant heating coils 58 extend between the engagement flanges 56A and 56B in parallel aligned spaced relation to one another. A central coil support element 59 extends between the respective cross members 57A and 57B with coil stabilization and engagement arms 60 extending therefrom.
It will be evident from the above description that the combination of the end supported cylindrical resistant heating coils 58 with the center coil support element 59 provides a stabile and incrementally equally spaced coil arrangement which is critical to the pre-vortex air flow configuration as will be described in greater detail hereinafter.
Coil end power connection fittings 61 are fitted to the respective ends of each resistant coil 58 for selective interface with a power circuit C as hereinbefore described.
A support flange mount 61 extends from the top member 57A overlying and secured to the exterior surface of the blower cylindrical casings 48 and 49 respectively.
Referring now to
Each of the cross brackets 65-67 have a coil wire registration notch 68 therein to engage support and positionally separate a pair of resistant heating coils 69 and 70 which are held within the frame 62 in a corresponding arcuate delineation. The mounting assemblies 53 and 54 are secured to the respective blower cylinder casings 48 and 49 by a flange bracket 71 which overlies and is secured thereto.
It will be evident from the above description that the outside respective ends of the cylindrical casings 48 and 49 will still provide a blower air intake path that will emulate a venturi intake effect while achieving ease of insulation and service. The orientation and positioning of the respective heating coil assemblies 40 externally as hereinbefore described effectively define a pre-venturi air intake path insuring an effective and efficient heating of the air flow as it enters the respective blowers of a so defined air curtain assembly as previously described generally known within the art.
It will be evident that the hereinbefore described integrated inner venturi heaters for air curtains provides a unique combination of integrated fan inclusively positioned airflow determinate heating coil assemblies in the respective ends and about the corresponding impellor fan cages of blower assembly used within an air curtain configuration to impart a modified venturi air intake effect over the respective heating coil surfaces both internally and externally in the alternate coil forms for increased efficiency and enhanced heat transfer with the utilization of a unique three power phase supply electrical energy distribution into corresponding four coil assembly use of equal power intake available only in the configuration set forth in the above referred to description and embodiment.
It will thus be evident that a new and novel air curtain venturi integrated heater coil configurations have been illustrated and described and it will be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the spirit of the invention.
Number | Name | Date | Kind |
---|---|---|---|
1723405 | Carmean | Aug 1929 | A |
3211891 | Kendall | Oct 1965 | A |
3332334 | Melzer | Jul 1967 | A |
3827862 | Berlant | Aug 1974 | A |
4090061 | Glucksman | May 1978 | A |
4450755 | Catan | May 1984 | A |
4526510 | Hoffman | Jul 1985 | A |
4988847 | Argos et al. | Jan 1991 | A |
5072658 | Bogage | Dec 1991 | A |
5984649 | Kato et al. | Nov 1999 | A |
7168917 | Bronaugh | Jan 2007 | B2 |
8568210 | Thomas, Jr. et al. | Oct 2013 | B1 |