United States Patent [191 Anderson July 23, 1974 1 1 WINDOW STRUCTURE [75] Inventor: Richard N. Anderson, Owensboro,
[73] Assignee: V. E. Anderson Mfg. Co.,
Owensboro, Ky.
[22] Filed: May 18, 1970 [2]] Appl. N0.: 38,453
[52] US. Cl 52/203, 52/476, 52/499 [51] lnt. Cl E06b 3/28 [58] Field of Search 52/202, 203, 208, 403, 52/476, 498, 616, 499, 500, 501, 502
[56] References Cited UNITED STATES PATENTS 861,573 7/1907 Budd 52/476 X 1,637,959 8/1927 Osborn .1 2,209,536 7/1940 Owen 2,226,254 12/1940 Owen 52/202 2,617,160 11/1952 Bodnar 52/502 2,659,463 11/1953 Persson 52/616 2,848,762 8/1958 Peterson 52/202 X 3,024,881 3/1962 Haas 52/616 X 3,233,381 2/1966 Von Wedel h 52/496 3,296,763 l/1967 Curl l M 52/50() 3,344,573 10/1967 Martin 52/502 3,363,390 H1968 Crane et al. 52/403 X 3,455,080 7/1969 Meadows 52/403 X Primary Examiner Henry C. Sutherland Assistant Examiner-Henry E. Raduazo Attorney, Agent, or Firm-Whittemore, Hulbert & Belknap [57] ABSTRACT A storm sash and structure for installation of the storm sash on a prime window sash is disclosed. The storm sash includes a generally U-shaped dual durometer hardness plastic strip secured to a glazing panel around the periphery thereof. The structure for installation of the storm sash includes, in different modifications, extensions of the cross section of the glazing strip and/or various retainer clips.
5 Claims, 15 Drawing Figures PAIENIEIJ SIEUIUZ INVENTOR. RICHARD N. ANDERSON B zawmw ATTORNEYS PATENTEDmzamn 3.824.753
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INVENTOR. RICHARD N. ANDERSON ATTORNEYS WINDOW STRUCTURE CROSS-REFERENCE TO RELATED APPLICATIONS The invention is a storm sash for piggyback installation on prime window sash having a frame with an exterior surface and a prime glazing panel secured within the frame in spaced relation to one surface of the frame, such as the prime sash disclosed in applicants US. Pat. No. 3,643,377, issued Feb. 22, 1972 and applicants co-pending application Ser. No. 36,303, filed June 22, l970.
BACKGROUND OF THE INVENTION l. Field of the Invention The invention relates to window structures and refers more specifically to a storm sash and means for securing the storm sash to a prime window sash, which storm sash and securing means are particularly simple in construction, economical to manufacture, and efficient in use.
2. Description of the Prior Art In the past, storm windows have usually included relatively massive frames which have been rigidly secured to a building over prime window structure. Such prior storm windows have entirely separate sash members including sash frames and sash glazing panels and have, therefore, been relatively expensive and often difficult to install over prime window structure.
SUMMARY OF THE INVENTION It is the purpose of the present invention to provide a storm sash which may be conveniently installed in a piggyback fashion on a prime window sash to provide an insulating air space between the storm sash glazing panel and the prime sash glazing panel. For this purpose a unique dual durometer plastic strip is disclosed operable to securely receive the periphery of a storm sash glazing panel, space the storm sash from a prime window glazing panel, and seal the storm sash glazing panel within the frame of the prime window sash.
The storm sash is secured to the prime window sash by an extension on the dual durometer plastic peripheral strip cross section in one modification of the invention. A plurality of modifications of a retainer clip are also disclosed for holding the storm sash in assembly with the prime window sash.
BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is a partial perspective view of the exterior lower right hand corner of prime window structure as disclosed in Pat. No. 3,643,377 referred to above to which the storm sash of the invention has been applied.
FIG. 5 is a section view of one jamb of prime window structure as disclosed in application Ser. No. 36,303 referred to above including a storm sash constructed in accordance with the invention in assembly therewith.
FIG. 6 is an enlarged perspective view of a dual durometer plastic strip for use in storm sash as illustrated in FIG. 5.
FIG. 7 is another section view of the one jamb of the prime window structure illustrated in FIG. 5 including a storm sash constructed in accordance with the invention in assembly therewith.
FIG. 8 is an enlarged perspective view of a dual durometer plastic strip for use in storm sash as illustrated in FIG. 7
FIG. 9 is a perspective view of a retainer clip for use in securing a storm sash to a prime sash as illustrated in FIG. 7.
FIG. 10 is another section view of the one jamb of the prime window structure illustrated in FIG. 5 including a storm sash constructed in accordance with the invention in assembly therewith.
FIG. 11 is a perspective view of a retainer clip for use in securing the storm sash to a prime sash as illustrated in FIG. 10.
FIG. 12 is another section view of the one jamb of the prime window structure illustrated in FIG. 5 including a storm sash constructed in accordance with the invention in assembly therewith.
FIG. 13 is a perspective view of a retainer clip for use in securing a storm sash to a prime sash as illustrated in FIG. 12.
FIG. 14 is another section view of the one jamb of the prime window structure illustrated in FIG. 5 including a storm sash constructed in accordance with the invention in assembly therewith.
FIG. 15 is a perspective view of a retainer clip for use in securing a storm sash to a prime sash as illustrated in FIG. 14.
DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown best in FIG. 1, thestorm sash 10 of the invention is applied toprime window structure 12. The lower exterior right hand corner of theprime window structure 12 illustrated includes asill 14, ajamb 16, aprime sash 18 having aprime glazing panel 20 secured therein byglazing strip 22, and atrim molding 24. It will be particularly noted that theouter surface 26 of theprime window structure 12 is in spaced relation to theprime glazing panel 20.
Thestorm sash 10 of the invention includes thestorm glazing panel 28, the peripheralplastic strip 30 and theretainer clip 32.
Theperipheral strip 30 as best shown in FIG. 3 is a dual durometer hardness plastic extrusion and includes a relatively hard U-shapedcross section portion 34 for receiving the periphery of the stormsash glazing panel 28 as shown in FIG. 2. Relatively soft longitudinally extending barbs project inwardly and toward the connecting portion of the U-shaped cross section portion from both legs thereof for securing the strip to thestorm glazing panel 28. A relatively hard longitudinally extendingspacing projection 38 is provided on the cross section of thestrip 30 projecting substantially in the plane of the connecting part of the U-shaped cross section portion of the strip toward theprime glazing panel 20 with thestorm sash 10 in assembly, as shown in FIG. 2.Projection 38 serves to space thestorm glazing panel 28 from theprime glazing panel 20.
In addition, thestrip 30 includes a longitudinally extending relativelysoft sealing flange 40 projecting downwardly from the U-shaped cross section portion of thestrip 30 before assembly of thestorm sash 10, as shown in FIG. 3. Theflange 40 is arcuately deformed as shown best in FIG. 2 on assembly of the storm sash in aprime sash 12 to provide a seal between the storm sash and prime sash.
Theretainer clips 32 are generally L shaped and include aportion 42 adapted to engage theplastic strip 30 of a storm sash in installation, as shown best in FIG. 2. Theportion 44 of theretainer clip 32 includes anopening 46 therein through which a screw or the like is inserted to secure theretainer clip 32 in an adjusted position on the prime sash l2 with thestorm sash 10 in assembly as shown best in FIGS. 1 and 2. As illustrated, theretainer clip 32 is of variable thickness providing anoffset 48 preventing interference with theglazing member 22 of theprime window structure 12 and theplastic strip 30 of thestorm sash 10.
In use, theglazing strip 30 is first positioned around the periphery of the storm glazing panel and the assembledstorm sash 10 is positioned within theframe 26 of theprime sash 18. Theretaining clips 32 are then positioned and secured to theprime sash 18. Thestonn sash 10 is thus installed in a piggyback fashion on the prime sash I8 to provide excellent insulation at a minimum cost with substantially no maintenance problems. In addition, the original prime window structure is substantially unchanged in appearance.
In theprime window structure 60 illustrated in FIG. 5, a prime sash 62 is pivotally supported by pivot means 64 in frame 66. Aweather seal 68 is provided between the periphery of the prime sash 62 and the prime window structure frame 66. A prime glazing panel 70 is held in the prime sash 62 by means of theglazing strip 72.
Thestorm sash 74 includes thestorm glazing panel 76 and the dual durometerplastic strip 78. The plastic strip is applied to thestorm glazing panel 76 around the periphery thereof and the assembled storm glazing panel and plastic strip are secured in theprime window structure 60 in piggyback fashion.
As shown better in FIG. 6, theplastic strip 78 includes the relatively hard U-shapedcross section portion 80 into which the edge of thestorm glazing panel 76 is inserted and the relativelysoft barb portions 82 for retaining thestorm glazing panel 76 and theplastic strip 78 in assembly. Theplastic strip 78 further includes the relativelysoft sealing flange 84 for sealing between thestorm sash 74 and theglazing strip 72, as shown best in FIG. 5.
Theplastic strip 78 further includes the relatively hardcross section portion 86 extending generally arcuately from the bottom of the U-shaped portion of the cross section of the plastic strip terminating in an L- shapedcross section part 88 adapted to fit within therecess 90 in the prime sash and aroundbead 92 as shown in FIG. 5 to retain the storm sash 74 in assembly with the prime sash 62 without separate retainer clips.
The prime window structure illustrated in FIG. 7 is the same as that of FIG. 6 so that the same reference numerals are used to designate the same portions of the prime window structure. However, the storm sash 94 illustrated in FIG. 7 besides theglazing panel 96 includes a modified dual durometerhardness plastic strip 98 which is better shown in FIG. 8 in perspective. A retainingclip 100 better shown in FIG. 9 is used for retaining the assembledglazing panel 96 andplastic strip 98 on the prime window structure.
The pla ti strip again includes the rigid U-shaped cross section portion 102 and the relativelyflexible barb portions 104 for receiving and holding the periphcry of theglazing panel 96 respectively. The sealingflange 106 is again provided to seal between the storm sash 94 and theglazing strip 72 and is of softer plastic than the relatively hard U-shaped portion 102 of thestrip 98.
The retainingclip 100 is substantially S-shaped in cross section and is provided with the longitudinally extendingfoot portion 108 and the heel portion 110. In assembly, thefoot portion 108 of theclip 100 is received in the recess in the prime sash jamb with thehead 92 between the foot portion I08 and theheel portion 112 of theclip 100, as shown in FIG. 7. The retaining clip which is of relatively rigid plastic may be of any desired length to provide the required holding force on the storm sash structure 94.
The prime window structure and the glazing panel and plastic strip of the storm sash jamb section illustrated in FIG. 10 are the same as those illustrated in FIG. 7 and have, therefore, been indicated by the same reference numerals. However, the retainingclip 114 as illustrated in FIG. 11 includes apivot head 116, atransition portion 118, a retaining portion and acamming portion 122. In use, thepivot head 116 of the retainingclip 114 is positioned in therecess 90 in the prime sash jamb and theretainer portion 120 together with thetransition portion 118 is rotated about thepivot head 126 until thecam portion 122 snaps over thebead 92 of the prime sash jamb to lock the storm sash in position on the prime sash.
Similarly, the prime window structure and the storm glazing panels and plastic strips illustrated in the window jamb sections illustrated in FIGS. 12 and 14 are the same as those illustrated in FIGS. 7 and 10 and have, therefore, been given the same reference numerals. However, the retaining clip illustrated in FIG. 13 has been used to mount the storm glazing panel and plastic strip in piggyback fashion on' the prime window sash as shown in FIG. 12, while the retaining clip illustrated in FIG. 15 has been used to secure the storm glazing panel and peripheral plastic strip in the prime window sash illustrated in FIG. 14.
The retaining clip 124 illustrated in FIG. 13 includes thetabs 126 and 128 at the opposite ends thereof, thebody portion 130 located centrally thereof and in spaced relation to thetabs 126 and 128 having thetoe portion 132 at the end thereof. Acamming portion 134 is provided centrally of the body portion of the retaining clip 124.
In assembly as shown in FIG. 12, the relativelythin tabs 126 and 128 are inserted between the U-shaped portion 102 of theplastic strip 98 and thestorm glazing panel 96 on movement of the clip 124 to cam thecamming portion 134 of the clip over the bead I36 especially provided on the particularplastic strip 98 illustrated in FIG. 12 until thetoe portion 132 of the clip snaps over thebead 92 on the sash to lock the clip in position as shown in FIG. 12.
With such construction, thecamming portion 134 tends to apply pressure to hold thetoe portion 132 againsthead 92 when removal of the clip 124 is attempted. Physical bending of the plastic clip 124 is thus necessary to remove thestorm sash 74.
The retainingclip 126 includes theelongated bar portion 140 having longitudinal groove 152 therein terminating in theend portions 142 and 144 extending at right angles thereto and the foot portion 146 extending in the same direction as theend portions 142 and 144 of the bar portion. The retaining portion 148 of retainingclip 126 extends at right angles to the foot portion and includes the bead 150 thereon, as shown in FIG. 15.
In use, the foot portion 146 and theend portions 142 and 144 of thebar portion 140 and thebar portion 140 is inserted in therecess 90 in the prime sash 62, as shown best in FIG. 14 withbead 92 in groove 52. Theelongated bar portion 140 permits flexing of theclip 126 in therecess 90 to engage or disengage theclip 140 from thebead 92 to remove theclip 126 from therecess 90 when it is desired to remove the clip. Thus, theclip 126 has the particular advantage of self storing in therecess 90.
Furthermore, with theclip 126 at one extreme of the movement thereof in therecess 90, the storm sash '74 may be removed from the prime sash 62 without removing theclips 126. Loss of the clips on inserting and removing the storm sash when theclips 126 are used is therefore not likely.
What I claim as my invention is:
1. Window structure comprising a prime window sash including a prime glazing panel, a storm sash including a storm glazing panel and a dual durometer synthetic resinous plastic strip having a relatively hard U-shaped cross section portion receiving the edge of the glazing panel and relatively soft cross section portions extending inwardly of the U-shaped portions in engagement with the edge of the glazing panel locking the plastic strip to the edge of the storm glazing panel, a relatively hard cross section portion extending from the U- shaped portion of the cross section into engagement with the prime glazing panel spacing the stonn glazing panel from the prime glazing panel and a relatively soft sealing cross section portion extending from the U- shaped portion of the cross section sealing between the prime window sash and storm sash, positioned on the prime window sash with the storm glazing panel in spaced apart relation with respect to the prime glazing panel and a generally L-shaped relatively hard retaining clip including one portion engaging the plastic strip on the st orm sash and another portion secured to the prime window sash.
2. Structure as set forth in claim 1 wherein the relatively hard portion of the plastic strip cross section spacing the storm glazing panel from the prime glazing panel extends outwardly of the storm sash as well as toward the prime window sash and the relatively soft sealing cross section portion of the plastic strip also extends outwardly of the storm sash as well as away from the prime window sash whereby the storm sash is resiliently positioned on the prime window sash.
3. Structure as set forth in claim 1 wherein the L- shaped retaining clip has a recess therein at the intersection of the portions thereof for receiving the sealing portion of the plastic strip cross section in assembly and the portion of the retaining clip secured to the prime window sash includes an elongated opening therethrough whereby the retaining clips may be variably positioned with respect to the prime window sash.
4. Window structure comprising a prime window sash including a prime glazing panel and means for securing the prime glazing panel in the prime window sash about the periphery of the prime glazing panel, a storm sash including a storm glazing panel and a dual durometer plastic strip having a relatively hard U-shaped cross section portion receiving the edge of the storm glazing panel, relatively soft barb cross section portions within the U-shaped cross section portion locking the plastic strip to the edge of the storm glazing panel, a relatively soft flange cross section portion extending from the U shaped cross section portion of the plastic strip toward the prime window sash and inwardly of the storm sash sealing between the storm sash and prime window sash with the storm glazing panel in spaced apart relation with respect to the prime glazing panel and retaining clips operably connected between the prime window sash and the atorm sash for securing the storm sash to the prime window sash, each of said clips including an elongated bar, transversely extending terminal portions at each end of the elongated bar, a foot portion extending centrally from the elongated bar in the direction of the terminal portions and a retaining portion extending centrally from the elongated bar perpendicularly to the foot portion and terminating in a bead extending in the direction of the foot portion and an elongated groove in the bar on the side thereof opposite the foot portion.
5. Window structure comprising a prime window sash including a prime glazing panel and means for securing the prime glazing panel in the prime window sash about the periphery of the prime glazing panel, a storm sash including a storm glazing panel and a dual durometer plastic strip having a relatively hard U-shaped cross section portion receiving the edge of the storm glazing panel, relatively soft barb cross section portions within the U-shaped cross section portion locking the plastic strip to the edge of the storm glazing panel, a relatively soft flange cross section portion extending from the U-shaped cross section portion of the plastic strip toward the prime window sash and inwardly of the storm sash sealing between the storm sash and prime window sash with the storm glazing panel in spaced apart relation with respect to the prime glazing panel and retaining clips operably connected between the prime window sash and the storm sash for securing the storm sash to the prime window sash, each of which retaining clips includes an elongated bar, a pair of tab portions ex tending transversely of the bar at opposite ends thereof and a body portion extending centrally away from the elongated bar in transversely spaced relation with respect to the tab portions having a toe portion at the free end thereof extending away from the tab portions and a camming portion centrally thereof extending toward the tab portions.