US3261129A - Panel hardware - Google Patents

Description

July 19, 1966 R. BRYDOLF ETAL 3,261,129

PANEL HARDWARE Filed April 6, 1964 2 Sheets-Sheet 1 EMS; INVENTORS.

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United States Patent 3,261,129 PANEL HARDWARE Robert Brydolf, Pasadena, and Kenneth K. Kellems, Ontario, Califi, assiguors to Acme Appliance Manufacturing Company, Monrovia, Calif., a corporation 'of California Filed Apr. 6, 1964, Ser. No. 357,490 3 Claims. (Cl. 49-411) The present invention relates in general to hardware for framing and supporting panels and, more particularly, to hardware for framing and supporting wooden or composition panels, or panels of other materials, in the manufacture of sliding doors. For convenience, the invention will be considered in such connection herein, although it will be understood that other applications are possible.

General objects of the invention are to provide a panel frame which can readily be assembled with a pane-l to form a sliding door, or the like, which requires no special tools or equipment for assembly purposes, which can readily be fitted to an opening of any size, and the like. Other general objects are to provide hardware attachable to such a panel frame for supporting and/or guiding the framed panel on and/or along suitable tracks.

More particularly, the invention contemplates a rectangular panel frame which includes two vertical stiles and two horizontal rails secured together by connectors in the corners of the frame. When the framed panel is utilized as a sliding door, wheeled hangers engageable with an upper, overhead track may be connected to the upper end of the frame and guides engageable with a lower track may be connected to the lower end of the frame.

The foregoing general structure is disclosed in Patent No. 3,058,173, granted October 16, 1962 to Robert Brydolf, one of the present applicants. The present inwention relates to improvements on the structure of this patent.

An important object of the invention is to provide an improved means of securing the corner connectors to the rails and stiles without any necessity for drilling any screw holes, or the like, in the rails and/or stiles. More particularly, an important object in this respect is to secure the connectors to the rails and stiles solely by striking portions of the rails and stiles into suitable holes in the corner connectors, thereby eliminating any necessity for screws, or like fasteners. Still another important object is to provide an improved lower guide which cannot readily be disengaged from a lower track for guiding the lower end of a sliding door, such as a sliding panel framed in accordance with the invention.

Yet another important object is to provide a sliding panel guide, for use with a track having a longitudinal groove provided with an outwardly facing mouth and an inwardly facing shoulder inwardly of and offset laterally relative to the mouth of the groove, comprising: first and second guide elements spaced apart longitudinally of the groove and insertable into the groove through its mouth; the first guide element being relatively thick as compared to the second guide element and being engageable with the edges of the mouth to guide the sliding panel along the track; and the second guide element being relatively thin and flexible, so that it can be snapped into the groove through its mouth, and having a laterally extending lug engageable with the inwardly facing shoulder to prevent inadvertent disengagement of the guide from the track. A further object in this connection is to provide a floating guide capable of movement relative to the sliding panel in a direction to compensate for deviations from parallelism between the track under consideration and another track associated with the sliding panel.

3,261,129 Patented July 19, 1966 Yet another object of the invention is to provide a framed panel of the foregoing nature wherein certain of the corner connectors carry movable track engaging members the positions of which relative to the panel are adjustable by screw means extending in the direction of desired adjustment.

A further object of the invention is to provide a panelframe rail having improved rigidity and stiffness.

The foregoing objects, advantages, features and results of the present invention, together with various other objects, advantages, features and results thereof which will be evident to those skilled in the art to which the invention relates in the light of this disclosure, may be achieved with the exemplary embodiment of the invention described in detail hereinafter and illustrated in the accompanying drawings, in which:

FIG. 1 is a fragmentary perspective view of a sliding door installation which embodies the invention;

FIG. 2 is an enlarged, vertical sectional view taken along the arrowed line 22 of FIG. 1;

FIG. 3 is a fragmentary, vertical sectional view taken along the arrowed line 33 of FIG. 2;

FIG. 4 is a perspective view of a combination corner connector and upper track-engaging member or hanger of the invention;

FIG. 5 is a perspective view of a combination corner connector and lower track-engaging member or guide of the invention; and

FIG. 6 is an enlarged, fragmentary sectional view taken as indicated by the arrowedline 66 of FIG. 3.

Referring particularly to FIG. 1 of the drawings, illustrated therein is a sliding door installation which is shown as comprising two bypassingdoors 20 and 21 installed in a doorway 22. Thedoor 21 is identical to, and is supported and guided in the same way as, thedoor 20. Consequently, only thedoor 20 will be considered hereinafter.

Thedoor 20 is mounted in the doorway 22 for sliding movement along upper andlower tracks 24 and 26. Thedoor 20 is provided at its upper end withwheels 28 Which roll along theupper track 24 and which serve to suspend the door therefrom.Guides 30 of the invention are mounted on the lower end of thedoor 20 and are slidable along thelower track 26.

The slidingdoor 20 comprises apanel 32 of any suitable material, the edges of the panel being disposed in aframe 34 which reinforces the panel. Eachwheel 28 is carried by a hanger orhanger member 36 connected to the upper end of theframe 34 in a manner to be described. Eachguide 30 is connected to the lower end of theframe 34 in a manner which will also be described hereinafter.

Theframe 34 includes upper andlower rails 40 and 42 respectively receiving the upper and lower edges of thepanel 32 therein, and includesstiles 44 and 46 respectively receiving the vertical edges of the panel. The tworails 46 and 42 are identical, as are the twostiles 44 and 46.

Therail 40 and thestile 46 are interconnected by anupper corner connector 48, FIGS. 2, 3 and 4, located on the rear side of thepanel 32. Therail 42 and thestile 46 are interconnected by alower corner connector 50, FIGS. 2, 3 and 5, also located on the rear side of thepanel 32. The twoconnectors 48 and 50 are identical, except that each is a mirror image of the other. Therail 40 is connected to thestile 44 by a corner connector, not shown, identical to thecorner connector 50. Similarly, therail 42 is connected to thestile 44 by a corner connector, not shown, identical to thecorner connector 48. Thus, therails 40 and 42 and thestiles 44 and 46 are interconnected at the corners of theframe 34 by four corner connectors two of which are mirror images of the other two. In other words, two of the corner connectors are lefts and the other two are rights.

Considering therail 40 in more detail, and referring particularly to FIG. 2 of the drawings, it includes integral front, intermediate andrear walls 52, 54 and 56 which are parallel and spaced apart to form a front rail channel 60 and arear rail channel 64. The front rail channel 60 faces inwardly of theframe 34 and receives the upper edge of thepanel 32 therein. Therear rail channel 64 faces outwardly of the frame and performs a function which will be described hereinafter. To improve the stifrness and rigidity of therail 40, anintegral flange 62 extends rearwardly from the upper edge of therear wall 56 of this rail, such rearwardly extending flange terminating in an upwardly extendingflange 63. The L-shaped reinforcing structure formed 'by theflanges 62 and 63 serves to materially improve the rigidity of therail 40.

Therail 42 is identical to therail 40, except that it is inverted relative thereto. Consequently, a detailed description of therail 42 is unnecessary.

Referring particularly to FIG. 6 of the drawings, thestile 46 is generally E-shaped in cross section and includes front, intermediate andrear walls 66, 68 and 70. The front andintermeidate walls 66 and 68 converge slightly and cooperate to form afront stile channel 72 which faces inwardly of theframe 34 and which receives the corresponding edge of thepanel 32, such slight convergence accommodating slight variations in panel thickness. The intermediate andrear walls 68 and 70 cooperate to provide therebetween a firstrear stile channel 74 serving to rigidity thestile 46 and to house thecorresponding guide 30 andhanger 36, and their mounting means, as will be discussed hereinafter.

Theintermediate wall 68 of thestile 46 is doubled back on itself to form a secondrear stile channel 78 which faces outwardly relative to theframe 34 and which has arear wall 80. The purpose of therear stile channel 78 will be discussed hereinafter.

The rear wall 70 of thestile 46 and the closed side of the firstrear stile channel 74 are of double thickness to provide added rigidity for thestile 46. The walls of thefront stile channel 72 are of single thickness since they are rigidified by the corresponding edge of thepanel 32. Theentire stile 46 is preferably formed of a single piece of sheet metal bent into the cross sectional shape shown.

Thestile 44 is identical to thestile 46 so that no detailed description of thestile 44 is necessary.

Considering thecorner connector 48 with reference to FIGS. 2, 3 and 4 of the drawings, it is a generally boxlike structure which is disposed within the firstrear stile channel 74 and which includes three mutuallyperpendicular walls 82, 84 and 86. Thewall 82 substantially parallels and lies adjacent theintermediate stile wall 68, while thewall 84 substantially parallels and lies adjacent the closed side of the firstrear stile channel 74. Thewall 86 is perpendicular to the other two and is located at the lower end of thecorner connector 48. Thecornerconnector walls 82 and 84 engage the adjacent walls of the firstrear stile channel 74 to orient this corner connector longitudinally of this stile channel, the corner-connector wall 82 havingbosses 87, FIG. 2, struck therefrom which engage thecorresponding'stile wall 68.

Considering the manner in which thecorner connector 48 is secured to and interconnects therail 40 and thestile 46, thewall 82 of the connector is provided at the upper end of the connector with a laterally offsettab 88 inserted in therear rail channel 64. Thewall 82 of theconnector 48 is provided at its lower end with atab 90 inserted in the secondrear stile channel 78. Thetabs 88 and 90 are provided therethrough withholes 92 and 84, respectively, thehole 94 being shown as a notch in one edge of thetab 90. Therear walls 56 and 80 of therespective channels 64 and 78 at least partially overlie therespective holes 92 and 94. Aportion 96 of therear wall 56 of therear rail channel 64 is struck forwardly into thehole 92, as by means of a punch, not shown. Similarly, aportion 98 of the rear wall of the secondrear stile channel 78 is struck forwardly into thehole 94, as by means of a blunt blade, not shown.

When secured to therail 40 and thestile 46 in the foregoing manner, thecorner connector 48 rigidly interconnects this stile and rail to provide a rigid corner for theframe 34. Securing thecorner connector 48 to therail 40 and thestile 46 by means of the forwardly struckportions 96 and 98 is easily and quickly accomplished with simple tools, there being no necessity for drilling screw holes, or the like, in either the rail or the stile. Further, this construction permits cutting the rail and the stile to precisely the lengths required for a particular installation since the forwardly struckportions 96 and 98 may readily be formed in thewalls 56 and 80, respectively, wherever required by a particular installation. Moreover, this construction avoids any exposed screw heads, or the like.

Thecorner connector 48 has thecorresponding wheel hanger 36 vertically-adjustably-rnounted thereon in a manner which will now be described. As shown in FIGS. 2, 3 and 4, thehanger 36 in question is channel-shaped in cross section and is provided in itsbase wall 102 with avertical slot 104. Secured to thecorner connector 48 is arivet 106 which extends through theslot 104 and which is provided with a head for securing thehanger 36 to the corner connector while permitting vertical movement of the hanger relative to the corner connector to adjust the vertical position of the corresponding vertical edge of thedoor 20 as required by a particular installation.

The necessary vertical adjustment of thehanger 36 relative to thecorner connector 48 is effected by a screw means comprising avertical screw 108 inserted into anotch 110 in thewall 86 of the corner connector and threaded through atab 112 at the lower end of the hanger. Thescrew 108 is provided with ahead 114 engageable with the lower side of thewall 86, and is provided thereon with acollar 116 engageable with the upper side of such Wall. With this construction, vertical movement of thescrew 108 relative to thecorner connector 48 is prevented, whereby rotation of the screw produces vertical movement of thehanger 36 for adjustment purposes. As will be apparent, the vertical position of thehanger 36 relative to theframe 34 may be adjusted readily by turning thescrew 108 with a screwdriver, not shown. It will be noted that the weight of thedoor 20 is transmitted to thehanger 36 through thescrew 108. Thus, the weight of the door tends to maintain the adjustment of thescrew 108 by producing rotation-resistant frictional forces between the screw and the corner connector and between the screw and the hanger.

Theupper rail 40 and thestile 44 are interconnected by a corner connector, not shown, in identically the same manner as theupper rail 40 and thestile 46 are interconnected by thecorner connector 48. Also, theother hanger 36 is adjustably mounted on the corner connector between theupper rail 40 and thestile 44 in the same manner as described above. Therefore, a further description is not required.

Thelower corner connector 50 interconnects thelower rail 42 and thestile 46 in identically the same manner as theupper corner connector 48 interconnects theupper rail 40andthe stile 46. Consequently, the various elements of thelower rail 42, thecorner connector 50, and the means for securing thecorner connector 50 to thelower rail 42 and thestile 46, are merely identified by reference numerals higher by one hundred than the reference numerals utilized to identify the corresponding elements of theupper rail 40, thecorner connector 48, and the means to secure thecorner connector 48 to theupper rail 40 and thestile 46. No further description is believed to be necessary since the previous one is applicable.

Thelower rail 42 and thestile 44 are interconnected by a corner connector, not shown, in the same manner as thelower rail 42 and thestile 46. Again, a detailed description is not required.

Considering the relationship between thelower corner connector 50 and the correspondinglower guide 30, the latter is vertically-adjustably-mounted on the lower corner connector in somewhat the same manner as the correspondinghanger 36 is vertically-adjustably-mounted on theupper corner connector 48. More particularly, theguide 30, which is preferably a molded part of a suitable plastic material, is vertically slidable relative to thecorner connector 50 and is restrained against horizontal movement by engagement with thewalls 182 and 184 of the corner connector and by a headedrivet 206 extending through avertical slot 204 in the guide and suitably secured to thebase wall 182 of thecorner connector 50. Theguide 30 is a floating member capable of free vertical movement, within the limits imposed by the ends of theslot 204, to accommodate any variations in the vertical spacing between the upper andlower tracks 24 and 26 resulting from variations in the vertical spacing of the portions of the building structure on which the tracks are mounted.

Considering theguide 30, and its relationship to thelower track 26, the latter includes, as best shown in FIG. 2, alongitudinal groove 210 which has an upwardly facingmouth 212 and which is widened below such mouth to provide downwardly facingshoulders 214 laterally offset to opposite sides of the mouth. (Actually, only oneshoulder 214 is necessary as will become apparent, but thegroove 210 is preferably made symmetrically so that thelower track 26 may be used turned end for end.)

Theguide 30 includes longitudinally spacedguide elements 216 and 218 insertable into thegroove 210 through itsmouth 212. Theguide element 216 is relatively thick, its thickness being substantially equal to the width of thegroove mouth 212 so that it makes a relatively close sliding fit therein to guide the lower end of thedoor 20 along thelower track 26. Theother guide element 218 is relatively thin and flexible and is provided at its lower end with a laterally extendinglug 220 adapted to hook under one of the downwardly facingshoulders 214 and to engage such shoulder and an upwardly facingshoulder 222 therebeneath.

The flexibility of the relativelythin guide element 218 perm-its it to deform laterally sufficiently to enable thelug 220 to pass downwardly through themouth 212 of thegroove 210, as theguide element 216 is inserted into such mouth, whereupon thelug 220 snaps laterally under one of the downwardly facingshoulders 214. Thelug 220 then acts to prevent inadvertent disengagement of theguide 30 from thelower track 26 as thedoor 20 is open or closed. Thelug 220 also rides along theshoulders 214 and 222 to cause theguide 30 to move upwardly or downwardly as required to compensate for deviations from parallelism of the upper andlower tracks 24 and 26, thereby preventing disengagement of theguide 30 from the lower track despite substantial deviations from parallelism, which is an important feature.

Near the lower end of theslot 204 are two small inwardly-extendingprojections 205 which snap over therivet 206 when theguide 30 is moved upwardly into a fully retracted position wherein theguide elements 216 and 218 are housed within thestile 46. Theguide 30 can readily be moved downwardly to extend theguide elements 216 and 218 by finger pressure thereon. Thus, these guide elements can be housed within thestile 46 to protect them until they are to be engaged with thetrack 26.

The second of the twolower guides 30 is mounted on the corner connector, not shown, which interconnects thelower rail 42 and thestile 44 in substantially the manner just described, such lower guide having the same relationship to thelower track 26. Consequently, a further description is not necessary.

5 Although an exemplary embodiment of the invention has been disclosed herein for purposes of illustration, it will be understood that various changes, modifications and substitutions may be incorporated in such embodi ment without departing from the spirit of the invention as defined by the claims which follow.

We claim:

1. In a sliding panel installation, the combination of:

(a) generally parallel upper and lower tracks;

(b) a generally vertical, sliding panel;

(c) means connected to the upper end of said panel for suspending it from said upper track;

(d) longitudinally spaced guide means connected to the lower end of said panel and engageable with said lower track for guiding the lower end of said panel along said lower track;

(c) said lower track being provided therein with a groove extending lengthwise thereof;

(f) said groove having an upwardly facing mouth and having a downwardly facing shoulder below and oil?- set laterally relative to said mouth;

(g) each of said guide means being integral and including a flexible guide element narrower than and extending downwardly through said mouth of said groove and having a laterally extending lug engageable with said shoulder to prevent withdrawal of said guide element from said groove;

(h) each of said guide means also including another guide element having surfaces engageable with the edges of said mouth of said groove and spaced from said flexible guide element in the direction of said groove; and

(i) means mounting each of said guide means on said panel for vertical movement relative thereto.

2. In a one-piece guide for use with a track having a longitudinal groove provided with an outwardly facing mouth and an inwardly facing shoulder inwardly of and oifset laterally relative to said mouth, the combination of:

(a) a guide body having integral first and second guide elements extending therefrom in side-by-side relation and insertable into said groove through said mouth and spaced longitudinally of said mouth when inserted therethrough;

(b) said first guide element being relatively thick laterally of said mouth as compared to said second guide element and being engageable with the edges of said mouth;

(c) said second guide element being relatively thin laterally of said mouth and being laterally bendable and having a laterally extending lug engageable with said shoulder; and

(d) said second guide element with its said laterally extending lug being narrower than said mouth and being insertable therethrough to bring said laterally extending lug into engagement with said shoulder upon lateral bending of said second guide element.

3. In a guide for use with a track having a longitudinal groove provided with an outwardly facing mouth and an inwardly facing shoulder inwardly of and offset laterally relative to said mouth, the combination'of:

(a) first and second guide elements having interconnected outer ends and having inner ends insertable into said groove through said mouth and spaced longitudinally of said mouth when inserted therethrough;

(b) said first guide element being relatively thick laterally of said mouth and being engageable with the edges of said mouth;

(c) said second guide element being relatively thin laterally of said mouth and being laterally offset relative to said first guide element in a direction toward said shoulder;

(d) said second guide element being laterally bendable and having a lug extending laterally therefrom in the direction of lateral oifset of said second guide element and engageable with said shoulder; and

(e) said second guide element With its said laterally extending lug being narrower than said mouth and being insertable therethrough to bring said laterally extending lug into engagement with said shoulder upon lateral bending of said second guide element.

References Cited by the Examiner UNITED STATES PATENTS Fairhurst 2019 Weinzierl 18976X Pearson 1 16-93 Kochanowski 160-206 Brydolf 20-49 Tucker 2019 10 REINALDO P. MACHADO, Primaly Examiner.

HARRISON R. MOSELEY, Examiner. K. DOWNEY, Assistant Examiner.

Claims (1)

1. 2. IN A ONE-PIECE GUIDE FOR USE WITH A TRACK HAVING A LONGITUDINAL GROOVE PROVIDED WITH AN OUTWARDLY FACING MOUTH AND AN INWARDLY FACING SHOULDER INWARDLY OF AND OFFSET LATERALLY RELATIVELY TO SAID MOUTH, THE COMBINATION OF; (A) A GUIDE BODY HAVING INTEGRAL FIRST AND SECOND GUIDE ELEMENTS EXTENDING THEREFROM IN SIDE-BY-SIDE RELATION AND INSERTABLE INTO SAID GROOVE THROUGH SAID MOUTH AND SPACED LONGITUDIANALLY OF SAID MOUTH WHEN INSERTED THERETHROUGH; (B) SAID FIRST GUIDE ELEMENT BEING RELATIVELY THICK LATERALLY OF SAID MOUTH AS COMPARED TO SAID SECOND GUIDE ELEMENT AND BEING ENGAGEABLE WITH THE EDGES OF SAID MOUTH; (C) SAID SECOND GUIDE ELEMENT BEING RELATIVELY THIN LATERALLY OF SAID MOUTH AND BEING LATERALLY BENDABLE AND HAVING A LATERALLY EXTENDING LUG ENGAGEABLE WITH SAID SHOULDER; AND (D) SAID SECOND GUIDE ELEMENT WITH ITS SAID LATERALLY EXTENDING LUG BEING NARROWER THAN SAID MOUTH AND BEING INSERTABLE THERETHROUGH TO BRING SAID LATERALLY EXTENDING LUG INTO ENGAGEMENT WITH SAID SHOULDER UPON LATERAL BENDING OF SAID SECOND GUIDE ELEMENT.

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