US3132352A

US3132352A - Composite stretchable insulator

Info

Publication number: US3132352A
Application number: US151771A
Authority: US
Inventors: Richard P Doerer
Original assignee: Van Dresser Specialty Corp
Current assignee: Van Dresser Specialty Corp
Priority date: 1961-11-13
Filing date: 1961-11-13
Publication date: 1964-05-12
Anticipated expiration: 1981-05-12

Description

May 12, 1964 R. P. DOERER COMPOSITE STRETCHABLE INSULATOR 2 Sheets-Sheet 1 Filed Nov. 13, 1961 a. o. mdE

Rm M R NE EO VD mP D R A H m R ATTORNEYS m hm mm m United States Patent 3,132,352 COMPGSITE STRETCHABLE INSULATQR Richard I. Doerer, Ypsilanti, Mich, assignor to Van Dresser Specialty Corporation, Warren, Mich a corporation of Michigan Filed Nov. 13, 196i, Ser. No. 151,771 13 Claims. (Cl. -354) This invention relates generally to insulators for use between the padding and supporting spring structure of an upholstered assembly.

One of the essential objects of the invention is to provide a flexible, bodily stretchable insulator pre-stretched to a stable configuration approximating the contour of the supporting spring structure.

Another object is to provide an insulator comprising an elongated sheet of flexible material and a plurality of elongated, laterally spaced, substantially parallel, stretchable resilient reinforcing strands threaded through the sheet.

Another object is to provide an insulator wherein the reinforcing strands are threaded through pleats or undulations in the sheet which extend at right angles to the strands.

Another object is to provide an insulator wherein the strands are helically coiled wires.

Another object is to provide an insulator that is simple in construction, economical to manufacture, and etlicient in use.

Another object is to provide a pre-stretched insulator wherein the reinforcing strands are stretched to a stable elongated condition free of spring back.

Other objects, advantages and novel details of construction of the invention will be made more apparent as this description proceeds, especially when considered in connection with the accompanying drawings, wherein:

FIGURE 1 is a perspective view of an upholstered.

just prior to release of the ends of the insulator by the clamps after stretching. 7

FIGURE 3 is a sectional view taken on the line 3-3 of FIGURE 2.

FIGURE 4 is a top plan view of the pre-stretched insulator shown marginally secured to the border frame of the supporting spring structure.

FIGURES 5 to 11, inclusive, are sectional views taken respectively on the lines 55, 6-6, 7-7, 8- -8, 99, 10-1(l and 1111, of FIGURE 4. I

FIGURE 12 is a plan view of an assembly composed of a pre-stretched insulator and a layer of padding bonded thereto in snrface-to-surface relation, shown overlying the border frame of the supporting spring structure before being secured thereto.

FIGURE 13 is a view similar to FIGURE 12 but shows the insulator and padding bonded thereto secured to the border frame of the supporting spring structure.

FIGURE '14 is a sectional View taken on the line 1414 of FIGURE 13.

FIGURE 15 is a sectional view taken on the line ice like insulator embodying my invention disposed between an overlying padding B for an exterior trim material C and an elongated underlying supporting spring structure D of predetermined length of an upholstered assembly.

As shown, the insulator A includes an elongated, substantially rectangular, extensible sheet 10 of flexible material, and separate elongated, laterally spaced, parallel stretchable resilient reinforcing strands 11 of uniform length threaded lengthwise through the sheet 16.

The sheet It? is formed with a longitudinal series of transverse pleats or undulations I12, and the reinforcing strands iii are preferably in the form of helically coiled wiresat right angles to the pleats. The strands 11 thread through the pleats 12 so that alternate pleats lie on opposite sides of the strands, as shown in. FIGURE 5. In the initial free state of the insulator shown in FIGURE 2, the undulations or pleats 12 are relatively deep and close together, substantially as shown in FIGURE 5, and the reinforcing strands are all of the same pitch, being suitably coiled and having a plurality of convolutions between successive undulations or pleats of the sheet. It will be understood that in some instances the pleats may extend longitudinally of the sheet and the strands may extend transversely of the sheet and may be threaded through the longitudinally extending pleats. I V

The insulator A also includes a pair of elongated anchorage portions 13, one along each end of and separate from the sheet it). The reinforcing strands 11 are terminally provided at each end with return bent portions 14 which are clamped around the anchorage portions '13.

The supporting spring structure includes an elongated substantially horizontal border frame 18 of predetermined length, made to the desired configuration and area from a wire element or the like and having contoured ends ill and 21. It will be noted that the rectangular insulator It} has, in its initial free state shown in FIGURE '2, an overall length less than the minimum lengthwise dimension of the border frame, measured between the

ends

20 and 21 thereof, and a width substantially equal to that of the border frame. This can be seen in FIGURE 2, in which the

contoured ends

20 and 21 of the border frame are shown in dotted lines.

Prior to the application of the insulator to the border frame 18 of the supporting spring structure, the insulator is stretched to a stable configuration approximating the contour of the border frame. The stretching apparatus is indicated generally at E in FIGURES 2 and 3 and comprises the two

identical stretchers

22 and 23. Each stretcher has a base 24, and cam assemblies 25 and 25- are supported upon said bases 24 for sliding movement in the direction of the arrows 26*. Each cam assembly includes an upper cam plate 27 and a lower cam plate 23 rigidly secured together by the upright posts 29. The cam assemblies 25 and 25' are reciprocated in the direction of the arrows 26 by the hydraulic devices 30. Each hydraulic device 3t; includes a cylinder 31 fixed to the base 24- and a piston (not shown) reciprocable therein having a rod 32 extending therefrom and securedat its free end to the lower cam plate 23. In FIGURES 2 and 3, the cam assembly 25 of the left hand stretcher 22 is shown in its inner position extended toward stretcher 23 and the cam assembly 25' of the right hand stretcher 23 is shown in its outer position retracted away from stretcher 22. The cam assembly 25 can be retracted to an outer position corresponding to the position of cam assembly 25' shown in FIGURES 2 and 3, and the cam assembly 25' can be extended to an inner position corresponding to the position of cam assemblyZS shown in the same figures.

Each stretcher has a plurality of laterally spaced clamps 33, and eachclamp includes the opposed jaws 34 and 35 provided at their inner ends with cooperating arcuate grip- 3 ping portions 36. The outer ends of the jaws are pivoted at 38 to the rod 37 for vertical movement of the jaws toward and away from each other. A compression coil spring 39 between the jaws of each clamp urges them apart to the open position illustrated at the right in FIG- URE 3.

The clamps 33 are individually reciprocated in the direction of movement of the cam assemblies, indicated by arrows 26, by the hydraulic devices 40, each of which has a cylinder 41 rigidly secured to the base 24 and a piston (not shown) reciprocable therein. The rod 42 of each piston is connected to the rod 37 of each clamp by a coupling 43.

Each stretcher has an equal number of clamps, and the clamps of one stretcher are respectively directly opposite those of the other. The clamps 33 of both stretchers are all in their inner positions in FIGURES 2 and 3, that is the clamps of each stretcher are extended toward the other stretcher. Since the clamps of each stretcher are reciprocated by individual hydraulic devices 40 they can be reciprocated through different distances, that is the stroke of any one clamp can be different from that of the others. In the present instance, the outer positions of the clamps are different so that certain portions of the insulator can be stretched more than other portions. In FIGURE 2, the clamps are shown retracted in dotted lines just before they release the insulator.

The jaws each clamp carry cam followers in the form of rollers 44 which respectively travel in contoured grooves 45 of the upper and

lower plates

27 and 28. Each groove 45 has an intermediate straight horizontal portion 46 and vertically offset

terminal portions

47 and 48. The grooves in the upper and lower cams for the followers of the same clamp are vertically opposed and are mirror images of each other in size and contour, and their intermediate portions 46 are parallel. The intermediate portions of the cam grooves force the jaws of the clamps together into gripping relation, as seen at the left in FIGURE 3, and the

offset end portions

47 and 48 enable the jaws of the respective clamps to open, as seen at the right in FIGURE 3, under the influence of the springs 39. The lengths of the intermediate portions of the grooves for the various clamps depend upon the strokes of the clamps, as will be understood from a comparison of the grooves for the two clamps shown in FIG- URE 3.

In the operation of the stretching apparatus, it will be assumed that both cam assemblies 25 and 25 are in the outer position shown at the right of FIGURE 3, that is in positions retracted away from each other, and that the clamps 33 of each stretcher are in their inner positions so that the jaws thereof are open. An insulator A will then be positioned between the two

stretchers

22 and 23 and the hydraulic devices 30 operated to move the earn assemblies 25 and 25' toward each other to their inner positions, seen at the left in FIGURE 3, closing the jaws of each clamp and thereby causing the anchorage portions 13 along both ends of the insulator to be gripped by the gripping portions 36 of the jaws. The hydraulic devices are then operated to move the clamps of the two

stretchers

22 and 23 away from each other to their outer positions. The clamps are shown in dotted lines in FIG- URE 2 as they approach their outer positions and just prior to the release of the anchorage portions 13. The hydraulic devices 40 will of course be adjusted so that each clamp will retract the exact distance necessary to stretch the insulator to the desired configuration. In this connection, it will be understood that the intermediate portions 46 of the opposed cam grooves in the upper and

lower cam plates

27 and 28 for each clamp will be somewhat shorter than the stroke of that clamp so that the clamp will remain closed during most of its outward movement (to the point indicated in dotted lines in FIG- URE 2) and will open only at the very end of its outward movement. Hence when the clamps reach their 4- outer or retracted positions they automatically open and release the insulator.

If desired, the hydraulic devices 40 can be controlled to dwell near their outer positions (the positions shown in dotted lines in FIGURE 2), momentarily holding the insulator in a stretched condition, and thereafter to complete their strokes causing the cam followers to drop into the offset groove portions 47, opening the clamps and releasing the insulator. The hydraulic devices 40 are simultaneously operated to retract the respective clamps at the same time, and the stroke of each clamp of one stretcher is equal to the stroke of the opposing clamp of the other stretcher.

After the clamps "33 have been retracted by the hydraulic devices 40, the hydraulic devices 30 are operated to move the cam assemblies 25 and 25' of each stretcher away from each other to their outer positions, and the hydraulic devices 40 are operated to move the clamps 33 to their inner positions, so that the positions of the parts of both stretchers being as shown at the right in FIG- URE 3. The apparatus is now ready to stretch another insulator.

Referring to FIGURE 2, it will be seen that the insulator is stretched lengthwise to a contour substantially the same as that of the border frame 18 of the supporting spring structure, although preferably it is overstretched somewhat as shown in FIGURE 2 so that upon release of the insulator the inherent spring-back will cause the insulator to assume a stable pre-stretched condition substantially conforming to the border frame in configuration and in overall length. Instead of being overstretched, the insulator may alternatively be stretched substantially to the configuration and overall length of the border frame, that is not overstretched. When released by the stretching apparatus, it will spring back somewhat to a length slightly less than that of the border frame although its ends will be of the same configuration as the ends of the border frame. In either case, the reinforcing strands of the insulator are stretched beyond their initial elastic limit and accordingly assume a stable pre-stretched condition.

Although the various elements of my insulator may be formed of any suitable material for the purposes set forth, the rectangular sheet 10 is preferably formed of burlap, and the reinforcing strands 11 are preferably formed of wire of circular cross-section. The anchorage portions 13 are preferably formed of rolled or folded burlap.

The pre-stretched insulator is shown in FIGURE 4 secured to the border frame 18. The pre-stretched insulator may have the configuration and length of the border frame, in which event it would be in a free state condition when secured to the border frame as shown in FIGURE 4. On the other hand, the pre-stretched insulator may in its free state be slightly shorter than, although of the same configuration as, the border frame, in which event the pre-stretched insulator in FIGURE 4 would be in longitudinal tension, having been stretched somewhat beyond its stable pre-stretched condition when attached to the border frame.

In order to apply the insulator A to the border frame 18 of the supporting spring structure, one end of the insulator is attached to one

end

20 or 21 of the border frame by hog rings 49. The hog rings 49 embrace an anchorage portion 13 and the border frame at one end of the supporting spring structure. The hog rings, while of any suitable flexible, deformable material, are preferably of metal, and each is formed as an open loop capable of being deformed to cross or open the ends to secure an anchorage portion 13 of the insulator to or release it from the border frame. The configuration of the hog rings is clearly shown in FIGURES 14 and 15 illustrating a modification described more fully hereinafter. The opposite end of the insulator is then secured to the opposite end of the border frame by hog rings 49 in the same manner. If the insulator, by reason of spring-back,

is somewhat shorter than the border frame in its stable pro-stretched condition, it must of course be horizontally stretched before its opposite end is secured to the opposite end of the border frame. I

Eitherbefore or after the ends of the insulator are secured by hog rings as described above, the longitudinal edges of the insulator will be secured to the

parallel sides

50 and 51 of the border frame 18 by additional spaced hog rings 49. The hog rings 49 along the longitudinal edges of the insulator pierce the body of the sheet and encircle the

sides

50 and 51 of the border frame.

After the pre-stretched insulator is secured to the border frame, both the pleated fabric and reinforcing strands thereof remain in an undulated condition. Referring to FIGURES 4 and 11, the sheet and reinforcing strands will be seen to be stretched considerably along side 50 of the border frame. However, along the opposite side 51 of the border frame, the pleated fabric and the reinforcing strands are extended very little if at all (FIGURES 4 and 5). Hence in this section of the insulator, the pleats or undulations in the fabric are deep and the strands are more closely coiled. Between the opposite longitudinal edges of the insulator, the fabric and reinforcing strands are stretched to varying degrees, as will be apparent from an inspec-tion of FIGURES 4 and 6-11.

It will be observed that both the fabric sheet and the reinforcing strands remain in an undulated condition after application to the border frame of the supporting spring structure at all points, although at some points the undulations are deeper or more closely formed than at others. Hence, the insulator, when applied to the supporting spring structure as shown in FIGURE 4, remains stretchable at all points to compensate for localized loads imposed thereon.

Referring to FIGURES 12-15, the insulator A there shown is a pro-stretched insulator having the same width as the border frame, as was the case in FIGURES 1- l1. The insulator is shown in its stable free state condition and will be seen to have an overall length greater than that of the border frame, although the contour of its ends is the same as the contour of the border frame ends. Applied over the insulator A and bonded thereto in surface-to-surface relation by any suitable adhesive in a layer 54 of cotton or any like soft cushion material, the layer of cotton having substantially the same configuration as the pro-stretched insulator A although it is somewhat longer and wider. The insulator A and layer 54 bonded thereto are shown in FIGURE 12 overlying the border frame 18 prior to being secured thereto.

FIGURES 13-15 illustrate the insulator A and layer 54 bonded thereto after they have been secured by hog rings 49 to the border frame. As seen in FIGURE 14, hog rings 49 along the sides of the border frame embrace the border frame and pierce the material of the insulator fabric and of the layer 54 to firmly attach the marginal portions of the insulator and layer to theborder frame. Hog rings 49 also secure the ends of the insulator A and layer 54 to the

ends

20 and 21 of the border frame. As seen in FIGURE 15, the ends of the insulator A and layer 54 are folded over the ends of the border frame, and hog rings embracing the ends of the border frame pierce the material of the insulator fabric and layer, including the folded portions thereof, to firmly attach the same to the border frame.

It will be understood that the layer 54 of cotton or like material is first bonded in surface-to-surface relation to the pre-stretched insulator A, and the assembly composed of the insulator and layer is then secured to the border frame by the hog rings.

What I claim as my invention is:

1. Insulator structure for use between an overlying padding and an underlying supporting spring structure of an upholstered assembly and adapted to be attached to an elongated border frame of said supporting spring structure; comprising an elongated, flexible, substantially hortor, said insulator including an elongated sheet of flexible,

material formed with transverse undulations, and a plurality of elongated, laterally spaced, substantially parallel, stretchable, resilient reinforcing strands threaded through said undulations and extending longitudinally of said sheet, said sheet having, in the initial free state of said insulator, a lengthwise dimension less than the minimum lengthwise dimension of said elongated border frame, said insulator being longitudinally stretched to a free state condition of increased length in which the lengthwise dimension of said sheet approximates the lengthwise dimension of said elongated border frame and in which the ends of said sheet conform substantially in contour to the ends of said border frame, the strands of said stretched insulator being stretched beyond the initial elastic limit thereof to a stable free state condition.

2. The insulator structure defined in claim 1, wherein the lengths of said stretched strands are approximately equal to the lengthwise dimensions of the corresponding portions of said border frame.

3. The insulator structure defined in claim 2, wherein said strands are of undulating form.

4. The insulator structure defined in claim 2, wherein said strands are helical.

5. The insulator structure defined in claim 4, wherein said insulator includes anchorage portions extending along both ends of said sheet, and said strands are terminally connected to said anchorage portions.

6. The insulator structure defined in claim 1, wherein a layer of soft, flexible, compressible material is permanently bonded in surface-to-surface relation to said sheet.

7. Insulator structure for use between an overlying padding and an underlying supporting spring structure having an elongated border frame; comprising an elongated, fiexible, substantially horizontally extending, bodily stretchable, sheet-like insulator, said insulator including an elongated sheet of flexible material formed with transverse undulations, and a plurality of elongated, laterally spaced, substantially parallel, stretchable, resilient reinforcing strands threaded through said undulations and extending longitudinally of said sheet, said sheet having, in the initial free state of said insulator, a lengthwise dimension less than the minimum lengthwise dimension of said elongated border frame, said insulator being longitudinally stretched to a free state condition of increased length in which the lengthwise dimension of said sheet approximates the lengthwise dimension of said elongated border frame, the strands of said stretched insulator being stretched beyond the initial elastic limit thereof to a stable free state condition, and means for securing said insulator structure to said border frame.

8. The insulator structure defined in claim 7, wherein the lengths of said stretched strands are approximately equal to the lengthwise dimensions of the corresponding portions of said border frame.

9. The insulator structure defined in claim 7, wherein said strands are of undulating form.

10. The insulator structure defined in claim 7, wherein said strands are helical.

11. The insulator structure defined in claim 7, wherein said insulator includes anchorage portions extending along both ends of said sheet, and said strands are terminally connected to said anchorage portions.

12. The insulator structure defined in claim 7, wherein a layer of soft, flexible, compressible material is permanently bonded in surface-to-surface relation to said sheet.

13. Insulator structure for use between an overlying padding and anunderlying supporting spring structure having an elongated border frame; comprising an elongated, flexible, substantially horizontally extending, bodily stretchable, sheet-like insulator, said insulator including an elongated sheet of flexible material formed with transverse undulations, and a plurality of elongated, laterally spaced, substantially parallel, stretchable, resilient reinforcing strands threaded through said undulations and extending longitudinally of said sheet, said sheet having, in the initial free state of said insulator, a lengthwise dimension less than the minimum lengthwise dimension of said elongated border frame, said insulator being longitudinally stretched to a free state condition of increased length in which the lengthwise dimension of said sheet approximates the lengthwise dimension of said elongated border frame, the strands of said stretched insulator being stretched beyond the initial elastic limit thereof to a stable free state condition, transversely extending anchorage members at opposite ends of said reinforcing strands,

said strands being terminally connected to said anchorage members, and means for securing said anchorage members to opposite ends of said border frame.

References Cited in the file of this patent UNITED STATES PATENTS 2,341,254 Williams et a1. Feb. 8, 1944 2,906,320 Reed Sept. 29, 1959 2,961,759 Weissfloch Nov. 29, 1960 3,024,477 Reed Mar. 13, 1962 3,032,868 Billner May 8, 1962

Claims

7. INSULATOR STRUCTURE FOR USE BETWEEN AN OVERLYING PADDING AND AN UNDERLYING SUPPORTING SPRING STRUCTURE HAVING AN ELONGATED BORDER FRAME; COMPRISING AN ELONGATED, FLEXIBLE, SUBSTANTIALLY HORIZONTALLY EXTENDING, BODILY STRETCHABLE, SHEET-LIKE INSULATOR, SAID INSULATOR INCLUDING AN ELONGATED SHEET OF FLEXIBLE MATERIAL FORMED WITH TRANSVERSE UNDULATIONS, AND A PLURALITY OF ELONGATED, LATERALLY SPACED, SUBSTANTIALLY PARALLEL, STRETCHABLE, RESILIENT REINFORCING STRANDS THREADED THROUGH SAID UNDULATIONS AND EXTENDING LONGITUDINALLY OF SAID SHEET, SAID SHEET HAVING, IN THE INITIAL FREE STATE OF SAID INSULATOR, A LENGTHWISE DIMENSION LESS THAN THE MINIMUM LENGTHWISE DIMENSION OF SAID ELONGATED BORDER FRAME, SAID INSULATOR BEING LONGITUDINALLY STRETCHED TO A FREE STATE CONDITION OF INCREASED LENGTH IN WHICH THE LENGTHWISE DIMENSION OF SAID SHEET APPROXIMATES THE LENGTHWISE DIMENSION OF SAID ELONGATED BORDER FRAME, THE STRANDS OF SAID STRETCHED INSULATOR BEING STRETCHED BEYOND THE INITIAL ELASTIC LIMIT THEREOF TO A STABLE FREE STATE CONDITION, AND MEANS FOR SECURING SAID INSULATOR STRUCTURE TO SAID BORDER FRAME.