US2814243A - Baseboard air distributing duct - Google Patents

Description

A. H. BERGER ETAL 2,814,243 BASEBOARD AIR DISTRIBUTIN DUCT Nov; 26, 1957 2 Sheets-Sheet 1 Filed Dec. 2, 1953 Nov. 26, 1957 A. H.' BERGER ET AL MBASEBOARD AIR DISTRIBUTING DUCT 2 Sheets-Sheet 2 7 Filed Dec. 2, 1953 M/rdms.

United StatesPatent 31 2 3 BASEBOARD na nrsransurmo DUCT Application December 2, 1953, Serial No. 395,651 3 Claims. (c1. 9s.-40

This invention. relates, as indicated, to a baseboard air distributing duct of the type commonly designated perimeter heaters for installation about the base perimeter of a room to be heated in place of the conventional baseboard. While air distributing ducts of. this type are commonly designated perimeter heaters, it will be understood that such ducts are adaptable to air conditioning operations generally, such as cooling and cleaning, in addition to the heating operation implied by the term.

This invention has, as one of its principal objects, the provision of an improved baseboard air distributing duct of the character referred to affording improved distribution of the air circulating therethrough. and elimination of the undesirable feature of concentration of air flow through the distribution openings adjacent the supply duct.

Another object of the invention is to. provide in an air baseboard distributing duct of the ditioned air into a room in which the air distributing vents are concealed from View and in which the conditioned air is introduced into the room in a downward direction along the floor of. the room.

Another object of theinvention is to provide a baseboard air distributing duct. comprised; of'front and rear metal panels having a tongue and groove connection by which the front panel may be readily assembled and disassembled with respect to the rear panel and without the necessity of removing the rear panel. Q

Other objects and advantages of the invention will become apparent from the following description.

In the drawings, there is shown a preferredembodiment of the invention together with amodified'form. In this showing: i

Fig. 1 is a fragmentary perspective View looking at an interior corner of a room illustrating the manner in which the baseboard air distributing duct of this invention is installed;

Fig. 2 is an enlarged sectional view taken substantially along the line IIII of Fig. 1;

Fig. 3 is a fragmentary perspective view showing the manner in which the deliveryduct of the air-conditioning apparatus is connected with the baseboard air distributing duct of this invention;

Fig. 4 is a front elevational view of a section of an air distributing duct constructed in accordance with the principles of this invention;

Fig. 5 is a perspective view of a connector element for connecting sections of an air distributing duct together;

Fig. 6 is a perspective view of a cap member forclosing the ends of a distributing duct as shown in Fig. 4;

Fig. 7 is an end elevationalview having a portion thereof broken away to show. a damper for varying thel communicating opening between the upper and lowerpor tions of the duct;

' livered to this enclosure by Patented Nov. 26, 1957 Fig. 8, is a similar view to Fig. 7 illustrating a modified form of the invention;

Fig. 9is an enlarged view of a portion of the showing of Fig. 8 illustrating the structure of the adjusting-means for varying the position of the partition member; and

Fig. 10 is an enlarged fragmentary perspective view illustrating the construction of the damper for varying the effective size. of the air distributing openings.

in Fig. 1 of the drawings,numerals 1 and 2 indicate the walls of a room having an air distributing duct 3 installed along the base thereof in place of the conventional baseboard. The air distributing duct 3 is fabricated of sheet metal and provides an air distributing enclosure extending along the base of thewalls 1 and 2 in a manner to be described and is provided with elongated air distributing openings 4'at spaced intervals along its length.

As best shown in Fig. 2, the duct 3 comprises a sheet metal backwall-S and a sheetmetal front wall 6 spaced from theback wall 5. Theback wall 5 has a flange 7 projecting horizontally outwardly from. the bottom edge thereof which forms the base wall of the duct. 3. The outer edge of the base wall 7 has an upwardly projecting lip 8 providing a tongue for a purpose to be described. The upp r edge of the.front wall 6 has an inwardly proj ectingflange 9 which: forms the top wall of the duct and the outer edge. of which. provides atongue 10 for a purpose to be described. The upper edge of theback wall 5 is crirnped and doubled backwardly as at 11 to provide a groove in which .thetongue 10 is received. The lower edge of thebase wall 6 is crimped and doubled backwardly as at 12 to provide adownwardly opening groove in. which. the tongue Sis received. Theparts 8 and 12 and theparts wand 11 respectively provide tongue and groove connections by which thefront wall 6 andtop wall 9 are connected withstheback wall 5 and base wall 7. To assemblethe duct3, it is only necessaryto lowerthe front wall16so that the tongue 8 is received in the groove provided bythe part'12, and the assembly is completed bymoving thefront panel 6 -forwardly-to force the tongue IOintothe-groove provided by thepart 11. Disassembl; of the front wall6 with respect to the back wallSmay be readily effected by a reverse of the assembly operation;

Thewalls 5, 6,- 7 and 9 define an air distributing enclosure of'essentially rectangular shape by which air-is distributed along the length of the duct 3. Air is dean air supply duct 13 which is connected with air conditioning apparatus (not shown) and has an opening at-14 into the base of the enclosure through the bottom wall 7.

The front-wall6 is recessed as at15; the recess being essentially of V-shape in vertical section, separating the; front Wall into spacedvertical portions 16 and 16a. The. upper edge of the lower portion edge; of thevertical portion 16 has which projects angularly downwardly and inwardly to-.

ward theback wall 5. Theflanges 17 and 18 have an.

integral connection at 19 which extendsfalong, a horizontal line spaced from theback wall 5. The flanges 17 and 18' in effect provide .a partitionwhich divides the enclosure within the ductS into upper andlower horizontally extending air distributing.chambers 20 and.21. Thechamber 20 is a distributing chamber which isrelatively smaller than thechamber 21 air supply chamber.

which, constitutes. an

theback wall 5, the size of the opening ent uponthe position of the-connectionorline 19;.

As best-shown in Figs. 3 and;4.;the:air-distributing:

16a has aflange 18" projecting inwardly in a horizontal'plane, and the lower. a depending flange 17.

openings 4 are of rectangular shape and are formed in the depending and angularly inclined flange 17. Adamper 23 is provided for adjusting the size of theopening 4. As best shown in Fig. 10, thedamper 23 is in the form of aflat bar 24, the upper edge of which forms the lower edge 'of the damper opening 4 and which hasopenings 25 at each end thereof for the reception of beaded screws 26. The screws 26 extend throughelongated slots 27 at each end of theopenings 4 and provide adjustment for thebar 24 with respect to theair distributing openings 4. By adjusting the position of the screws 26 in theslots 27, the position of thebar 24 will be changed to vary the size of theopenings 4.

Immediately above theopening 14 connecting thelower chamber 21 with the air supply duct 13, deflectingvanes 28 are provided for deflecting the incoming air into the end portions of the duct 3 at either side of theopening 14. The incoming air is thus distributed equally to the end portions of thesupply duct 21. The partitioning action provided by theflange 18 insures the flow of conditioned air along the length of thesupply duct 21. The air in thesupply duct 21 enters thedistribution chamber 20 through the restrictedopening 22. By reason of the restricted size of theopening 22 between thechambers 21 and 20, air from thesupply duct 21 is distributed uniformly along the entire length of the distributingduct 20, and the quantity of air being forced out of eachopening 4 will be uniform regardless of its location with respect to the supply duct 13. In this manner, the conditioned air being supplied to a room will be distributed uniformly over its floor area.

In the absence of a partition such as theflange 18 separating the air distributing enclosure into upper andlower chambers 20 and 21 and the restrictingopening 22 pro vided by such partition, the air fed to the duct by the supply duct 13 would be exhausted through theopening 4 closest to the supply duct 13 and relatively smaller quantities of air would be carried to theopenings 4 remotely located with respect to the supply duct 13. While the size of theopening 22 between thechambers 20 and 21 is of a fixed size in the showings of Figs. 2 and 3 and is defined by the point of connection of theflanges 17 and 18, adamper 30 may be secured to the underside of theflange 18 as shown in Fig. 7. Thedamper 30 is secured to theflange 18 by ascrew 31 projecting through a slot (not shown) extending transversely of theflange 30 similar to theslot 27 shown in Fig. 10. In this manner, the position of thedamper 30 with respect to theflange 18 may be adjusted to vary the position of itsinner edge 32 with respect to the back wall and thereby vary the effective size of theopening 22.

The air emerging from theopenings 4, by reason of the slope of the flange 17 in which they are located, flows in an outward and downward direction with respect to the floor of the room in which the distributing duct is located. Since there areseveral openings 4, it will be apparent that the air is distributed uniformly over the floor area of the room. While the air tends to move from theopenings 4 in a direction normal to the slope of the flange 17, thehorizontal flange 18 acts as a deflector, particularly with respect to the air emerging from the inner edges of the openings .4 which causes the air to move outwardly at a flatter angle than it would in the absence of theflange 18. The major portion of the air emitting fromopenings 4 of flange 17 flows downwardlypast flange 18. The portion of air which may impinge onflange 18 creates some turbulence at the inner face of the downwardly flowing air and tends to decrease the velocity thereof.

In Fig. 5 there is shown aconnector 34 for connecting thefront wall sections 6 of the duct 3 together. Theconnector 34 has a shape corresponding to the shape of thefront wall 6 and is provided, with a V-shaped projecting part 35 which is received in the recess 15 as shown in Fig. 4. The upper end of the connector 34has a horizontally inwardly projectingpart 36 which laps the edges of thetop wall 9 at the ends of the sections forming the duct 3. Its bottom edge has an upwardly projecting lip ortongue 37 which is received in the groove formed by theparts 12 at the base of thefront walls 6. Theconnectors 34 are installed by hooking the lip ortongue 37 into thegroove 12 into the sections to be connected and then forcing the connector inwardly so that itstop part 36 will have a resilient clamping engagement with the ends of thetop walls 9 of the sections to be connected together.

Aclosure cap member 38 is shown in Fig. 6. Thecap member 38 has a contour corresponding to the contour of the duct 3 so that it may be inserted over an open end of the duct 3 to provide a closure therefore.

A modification of the invention is shown in Figs. 8 and 9. In this showing, thefront wall 40 is flat throughout its vertical height, thepartition flanges 17 and 18 of the preferred embodiment shown in Fig. 2 being omitted. Anopening 41 is formed in the upper portion of thefront wall 40 through which air may be exhausted from the interior of the duct and is provided with an outwardly projecting flange orlip 42 concealing theopening 41 from view. In this modification, theopenings 41 have a length similar to theopenings 4 of the preferred embodiment of the invention, and the partitioning arrangement separating the interior of the duct into upper andlower compartments 43 and 44 is provided by adamper 45. Thedamper 45 is a flat strip of sheet metal which extends the entire length of the duct and has one longitudinally extending edge connected to apivot rod 46 by which its angular position within the duct may be changed. The innerlongitudinally extending edge 47 of thedamper 45 cooperates with theback wall 48 to define a restrictedopening 49 similar to theopening 22 providing communication between the upper andlower chambers 43 and 44. The position of thedamper 45 as shown in solid lines in Figs. 8 and 9 provides the minimum size for theopening 49, and the size of this opening will be proportionately increased as the damper is pivoted downwardly to the position shown in dotted lines. To adjust the position of thedamper 45, aknurled wheel 50 is secured to thepivot rod 46 and projects through an opening formed in thefront wall 40. Aspring detent 51 has resilient engagement with aknurled wheel 52 also secured to thepivot shaft 46 for holding thedamper 45 in any of its positions of adjustment.

From the foregoing, it will be apparent that a partition means constructed as shown in either Fig. 7 or 8 is effective to separate the space interiorly of the duct into upper and lower distributing chambers having communication with each other through a restricted opening. The provision of a restricted opening, such as theopening 22 in Fig. 7 or theopening 49 in Fig. 8, is effective to insure uniform distribution of air along the entire length of the upper chamber. The provision ofdeflector vanes 28 at the point of connection of the duct with the supply duct 13 assures equal distribution of air to the portions of the baseboard duct at either side of the supply duct 13. The air supplied by theduct 13 to the lower chamber of the baseboard duct flows along its entire length and is distributed through the restricted opening upwardly into the upper or distributing chamber. In this manner, the partition means separating the duct into upper and lower chambers is elfective to prevent concentration of the flow of air through the openings to the upper chamber adjacent the supply duct 13. The action of the partition means between the upper and lower chambers in restricting the flow of air to the upper chamber thus assures the uniform supply of air to all of theexhaust openings 4 thereby preventing a drafty condition as a result of the air being circulated.

Although the above describes the baseboard distributing duct of this invention as having a plurality of spacedelongated openings 4, it will be understood that the spacing between such openings may be diminished to an extent that theopenings 4 ineffect cooperate to provide a single opening extending the entire length of the duct, and that there is contemplated within the principles of this invention a distributing duct having a single opening extending over substantially its entire length through which air may be discharged. The invention also contemplates a duct structure having in place of elongated openings 4 a plurality of closely spaced openings of smaller size and of different shape such as circular openings at intervals along the length of the duct.

Attention is also directed to the fact that the duct of this invention provides improvements from the standpoint of heat radiated by its exposed metal surfaces. The improved radiation results from the action of thepartition 18 or 45 which, While primarily for the purpose of insuring uniform distribution of air through the length of thesupply chamber 21, has a confining action on the air in such chamber. The air in thechamber 21 thus heats the metal, particularly the metal of the front 16a to a higher temperature than the metal defining the chamber 15 in which the air is at a lower pressure. The metal of thewall 16a thus is effective as a radiator inthe distribution of heat to the room in which it is located.

While there is illustrated and described a preferred embodiment of the invention, it will be understood that this is merely by way of illustration, and that various changes and modifications may be made therein within the contemplation of the invention and under the scope of the following claims.

We claim:

1. A baseboard air distributing duct of the character described comprising a horizontally elongated housing having spaced front and back walls connected by top, bottom and end walls, a right angle flange on said front wall extending horizontally inwardly therefrom intermediate the top and bottom walls to adjacent the back wall dividing the housing into connected top and bottom chambers, said front wall forming part of the top chamber having a downwardly and inwardly directed flange overlying the said horizontal flange and connected with the inner end of the latter, openings in said top chamber flange for discharge of air and positioned so that a portion of the air emitting therefrom impinges upon said horizontal flange and the remainder of said air flows downwardly, past said horizontal flange, said air impinging upon the said horizontal flange being deflected upwardly and outwardly, therefrom into the air flowing past the horizontal flange creating a turbulence therein causing diffusion of the air stream emitting from the duct, an air inlet opening in said bottom chamber and arcuate baflles disposed in the path of said entering inlet air diverting same from direct vertical passage through the opening between said front wall flanges and the back wall and diverting a portion of the air to each end portion of the bottom chamber.

2. The duct as defined in claim 1 wherein the air inlet is in the bottom wall of the bottom chamber and the arcuate baffles are disposed beneath the opening between the top and bottom chambers in spaced relation to the bottom chamber front wall providing substantially uniform air pressure throughout the length of said bottom chamber.

3. The duct as defined in claim 1 wherein the said horizontal flange of the front wall has a damper mounted thereon for movement towards and away from the duct back Wall in controlling the effective size of the opening between the top and bottom chambers along the longitudinal length of the duct.

References Cited in the file of this patent UNITED STATES PATENTS 1,809,223 Tashjian June 9, 1931 2,250,330 Eastwood et al. July 22, 1941 2,355,629 Carrier Aug. 15, 1944 2,567,789 Sawyer Sept. 11, 1951 2,585,703 Thorson Feb. 12, 1952 2,639,655 Whitehead May 26, 1953 2,662,747 Trane et al. Dec. 15, 1953 2,745,332 Cotts May 15, 1956 FOREIGN PATENTS 76,963 Sweden Feb. 5, 1931 525,222 Great Britain Aug. 23, 1940 882,307 France May 31, 1943

Images