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Patent Searching and Data


Title:
RETRACTABLE AWNING
Document Type and Number:
WIPO Patent Application WO/2004/088065
Kind Code:
A2
Abstract:
A retractable awning includes a frame structure, roll bar, and a lead bar supported in cantilever fashion by a series of extendable arms that extend from the frame structure. An awning sheet is connected between the roll bar and the lead bar. When the lead bar is extended outwardly from the roll bar, the sheet awning is unrolled and supplied from the roll bar. Conversely, when the awning is retracted, the lead bar retracts towards the roll bar and in the process, the sheet awning is rolled onto the roll bar. The frame structure, roll bar and lead bar are split into at least two sections with each pair of sections including a coupler for connecting the two sections together.

Inventors:
POWELL BILLY R (US)
POWELL TONY A (US)
POWELL REID (US)
Application Number:
PCT/US2004/009252
Publication Date:
October 14, 2004
Filing Date:
March 26, 2004
Export Citation:
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Assignee:
POWELL AND POWELL SUPPLY COMPA (US)
POWELL BILLY R (US)
POWELL TONY A (US)
POWELL REID (US)
International Classes:
E04F10/06; (IPC1-7): E04H/
Foreign References:
US3789904A1974-02-05
US2620025A1952-12-02
US1363746A1920-12-28
US1099258A1914-06-09
US0827483A1906-07-31
Attorney, Agent or Firm:
Coats, Larry (P.L.L.C. Post Office Box, Raleigh NC, US)
Download PDF:
Claims:
CLAIMS
1. A retractable awning comprising: a. a frame structure; b. a roll bar; c. a lead bar; d. wherein the frame structure includes two separable sections; e. wherein the roll bar includes two separable sections; f. wherein the lead bar includes two separable sections; g. a first coupler for connecting the sections of the frame structure; h. a second coupler for connecting the sections of the roll bar; and i. a third coupler for coupling the sections of the lead bar.
2. The retractable awning of claim 1 wherein at least one of the couplers comprises a malefemale connector.
3. The retractable awning of claim 1 wherein the second coupler includes a drive member for transferring torque from one section of the roll bar to another section of the roll bar.
4. The retractable awning of claim 1 including an awning sheet adapted to be connected between the roll bar and the lead bar.
5. The retractable awning of claim 4 wherein the frame structure, roll bar, lead bar and awning sheet form a part of an awning kit and wherein the awning sheet is adapted to be connected to the roll bar and lead bar after the respective sections of the frame structure, roll bar and lead bar have been connected together by the couplers.
6. The retractable awning of claim 1 wherein the roll bar is rotatively driven and wherein the second coupler for connecting the sections of the roll bar includes a shaft extending from one section into engagement with the other section such that the rotation of one section results in the rotation of the other section.
7. The retractable awning of claim 1 wherein the roll bar includes a rotatable elongated cylinder that is split into the at least two sections with each section including an inboard end and an outboard end, and wherein the second coupler for connecting the at least two sections includes at least one projecting member that projects from the inboard end of one section into engagement with the inboard end of the other section.
8. The retractable awning of claim 1 wherein when the sections of the frame structure, roll bar and lead bar are connected there is defined an interface between each pair of joined sections.
9. A method of manufacturing and packaging a retractable awning comprising : a. forming a frame structure of the retractable awning into at least two separate sections ; b. providing a first coupler for coupling the two sections of the frame structure together ; c. forming a roll bar of the retractable awning into at least two separate sections ; d. providing a coupler for coupling the two sections of the roll bar together ; e. forming a lead bar of the retractable awning into at least two separate sections; f. providing a third coupler for coupling the two sections of the lead bar together; and g. packaging the frame structure, roll bar and lead bar into a package where the length of the package does not substantially exceed the length of the longest section of the frame structure, roll bar, or lead bar.
10. The method of claim 9 wherein the sections are disposed in parallel relationship within the package.
11. The method of claim 9 wherein the retractable awning is assembled by: a. coupling the sections of the frame structure together; b. coupling the sections of the roll bar together; and c. coupling the sections of the lead bar together.
12. The method of claim 11 wherein coupling the sections of the roll bar together include extending a drive member from one section into engagement with the other section such that the rotation of one section results in the rotation of the other section.
13. The method of claim 11 including after the roll bar and lead bar have been assembled, connecting a sheet awning to both the roll bar and lead bar.
14. The retractable awning of claim 1 wherein the roll bar includes an outer curved surface, wherein the second coupler when coupling the sections of the roll bar together, is disposed inwardly of the outer surface of the roll bar.
15. A method of assembling a retractable awning, comprising: a. forming a frame structure by connecting two separate frame sections together; b. forming a drivable roll bar by connecting two separate roll bar sections together such that the rotation of one section will result in the rotation of the other section; and c. forming a lead bar by connecting two separate lead bar sections together.
16. The method of assembling a retractable awning of claim 15 wherein after connecting the roll bar sections and the lead bar sections, connecting an awning sheet to both the formed roll bar and the formed lead bar.
17. The method of claim 16 including extending the lead bar outwardly and away from the roll bar prior to connecting the awning sheet to the formed roll bar and formed lead bar.
18. The method of claim 15 wherein connecting the roll bar sections includes extending a driving member from one section into engagement with another section.
19. The method of assembling a retractable awning of claim 15 wherein each roll bar section includes an outer curved surface and wherein the step of connecting the roll bar sections includes confining a connecting structure to a position inwardly of the outer surfaces of the roll bar sections.
20. A retractable awning, comprising: a. a frame structure ; b. a lead bar; c. at least two separate roll bar sections with each section having opposed end portions ; d. a coupler for interconnecting the roll bar sections, the coupler including a driver that extends from one roll bar section to the other roll bar section and connects the two sections such that the rotation of one section results in the rotation of the other section.
21. The retractable awning of claim 20 wherein the coupler includes at least one plate secured to one section and wherein the driver is connected to the plate.
22. The retractable awning of claim 20 wherein the coupler includes a pair of plates, one plate secured to one section and the other plate secured to another section; and wherein the driver is interconnected between the two plates.
23. The retractable awning of claim 22 wherein each section includes an inboard end and an outboard end, wherein the plates are secured to the inboard ends of the sections.
24. The retractable awning of claim 23 wherein the driver includes a shaft that extends between the two plates.
25. The retractable awning of claim 20 wherein each section includes an inboard end and an outboard end and wherein the driver includes a shaft that is coupled to the two inboard ends of the two sections.
26. A retractable awning comprising: a. a frame structure; b. a lead bar; c. a roll bar ; d. wherein at least one of the frame structure, lead bar or roll bar includes first and second sections with the first section being telescopically contained within the other section such that the first section can be retracted into the second section or extended from the second section ; and e. wherein the lead bar is movable back and forth with respect to the frame structure.
27. The retractable awning of claim 26 wherein each of the frame structure, lead bar and roll bar include first and second sections wherein the first section is telescopically contained within the second section.
28. The retractable awning of claim 26 wherein the roll bar includes first and second sections and wherein the first section is telescopically contained within the second section such that the first section can be retracted into the second section or extended from the second section.
29. A retractable awning comprising: a. a frame structure; b. a roll bar; c. a lead bar ; d. wherein the lead bar is movable back and forth with respect to the frame structure; e. wherein at least one of the frame structure, lead bar or roll bar includes two sections movable with respect to each other such that the two sections can assume a shipping mode and an operative mode; and f. wherein in the operative mode the two sections are generally aligned and extend a selected length ; and wherein in the shipping mode the two such sections can be oriented with respect to each other such that the two sections together assume a length substantially less than the selected length assumed when the two sections assume the operative mode.
30. The retractable awning of claim 29 further including at least one coupler for coupling the two sections together.
31. The retractable awning of claim 29 wherein one section is telescopically contained within the other such that one section can be retracted into the other or extended from the other.
32. The retractable awning of claim 29 wherein each of the frame structure, lead bar and roll bar include the two sections.
33. The retractable awning of claim 32 further including at least three couplers, one coupler for connecting the two sections of the frame structure, a second coupler for connecting the two sections of the lead bar, and a third coupler for connecting the two sections of the roll bar.
34. The retractable awning of claim 32 wherein the two sections of the frame structure are telescopically connected, and wherein the two sections of the lead bar are telescopically connected, and wherein the two sections of the roll bar are telescopically connected.
Description:
RETRACTABLE AWNING FIELD OF THE INVENTION The present invention relates to awnings and more particularly to a retractable awning that is specifically designed to accommodate shipping and merchandising.

BACKGROUND OF THE INVENTION Many awning structures sold in the United States today are custom manufactured. These custom manufactured awnings are often manufactured and sold by local awning shops. In addition to custom manufactured awnings, there are businesses that manufacture and sell standard awnings including retractable awnings.

However, these non-customized awnings are usually sold through mail order and the internet, and are not ordinarily found in conventional retail settings.

Awnings, and particularly retractable awnings, are long and in many cases have a length of 16 feet or longer. That makes awnings in general ungainful and difficult to handle. They are also awkward to package and shipping is relatively expensive.

Because of their length, awnings are particularly susceptible to damage during shipment.

Because of these factors and considerations, little effort has been made to sell and merchandise awnings in traditional retail outlets.

SUMMARY OF THE INVENTION The present invention relates to a retractable awning having a frame structure, a roll bar, and a lead bar, wherein all three of these components are split or divided into two sections. To couple the sections together, there is provided a series of couplers for coupling the frame structure and the lead bar sections.

In one embodiment, the coupler coupling the roll bar sections together is provided with a drive member extending from section into engagement with the other section. Since at least one of the roll bar sections is driven, it follows that by driving one section that the other section is likewise driven.

The present invention also entails a method of manufacturing a retractable awning and a method of assembling a retractable awning. In this case, the retractable awning is manufactured in sections and more particularly, the mainframe structure, roll bar, and lead bar are each manufactured in at least two separate sections. The method of manufacture further includes providing a coupler for coupling together the sections of the frame structure, roll bar and lead bar.

Likewise, the method of assembling the retractable awning of the present invention includes coupling together the sections of the frame structure, roll bar and lead bar. In coupling the roll bar sections together, a drive member is extended from one roll bar section into engagement with another roll bar section such that when one roll bar section is driven, the other roll bar section is likewise driven.

Other objects and advantages of the present invention will become apparent and obvious from a study of the following description and the accompanying drawings, which are merely illustrative of such invention.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of the retractable awning of the present invention.

Figure 2 is a perspective view of the retractable awning with its basic components being split into two sections.

Figure 2A is a perspective view showing the two sections being disposed side by side in a packaging-type configuration.

Figure 3 is a fragmentary perspective view particularly illustrating the inboard ends of one section of the frame, roll bar and lead bar.

Figure 4 is a fragmentary perspective view particularly illustrating the inboard ends of the other section of the frame, roll bar and lead bar.

Figure 5 is a fragmentary perspective view illustrating how the awning sheet 30 can be connected to the roll bar of a retractable awning.

Figure 6A is an exploded perspective view of a coupler that could be utilized to connect any two corresponding sections of the awning.

Figure 6B is a perspective view of the coupler of Figure 6A showing the two sections being connected.

Figure 6C is a perspective view of the coupler of Figure 6A in a connected configuration.

Figure 7 is a perspective view of an alternative design for the retractable awning which includes telescoping sections and wherein the telescoping sections are retracted and the awning is shown in a retracted or packaging mode.

Figure 8 is a perspective view of the retractable awning shown in Figure 7, but in an extended or operative mode.

Figure 9 is a perspective view of a portion of the telescoping retractable awning shown in Figures 7 and 8.

DESCRIPTION OF EXEMPLARY EMBODIMENT With further reference to the drawings, the retractable awning of the present invention is shown therein and indicated generally by the numeral 10. Retractable awning 10 is designed to be mounted to the side of a structure such as a residential dwelling. It should be pointed out that retractable awnings of the general type disclosed herein are known in the prior art and therefore, a detailed discussion of each and every element of the retractable awning 10 will not be dealt with herein because such is not per se material to the present invention and, as mentioned above, retractable awnings of this general type are known and are commercially available.

Viewing retractable awning 10, the same includes a frame structure that is designed to be directly mounted to a support structure such as the side of a residential dwelling. Disposed over the frame structure is a rotatively driven roll bar that functions to hold and store an awning sheet 30. As will be appreciated from subsequent portions of this disclosure, when the retractable awning is in a retracted position the awning sheet 30 will be rolled around and stored on the roll bar. When the retractable awning 10 is extended, a substantial portion of the awning sheet 30 will be unrolled from the roll bar and will extend out with a lead bar. The lead bar is secured to the frame by a pair of eactendable arms as illustral : ed in Figure 1.

Frame, roll bar and lead bar are divided into two or more sections. In particular, and with further reference to the drawings, the frame includes a pair of frame sections 1 2A and 12B. Likewise, the roll bar includes a pair of roll bar sections 14A and 14B. Similarly, the lead bar comprises a pair of lead bar sections 16A and 16B. In the case of the embodiments shown in the drawings, the retractable awning 10 and its basic components just described, are split in half. However, it should be appreciated by those skilled in the art, that these very same components can be divided or split into three or more sections.

It will be noted that each of the sections referred to above, that is frame sections 12A and 12B, roll bar sections 14A and 14B, and lead bar sections 16A and 16B, each have an inboard end and an outboard end. Because the various sections can be coupled or connected together, the inboard ends of the various sections will mate or be joined together to form an assembled retractable awning 10 such as that illustrated in Figure 1.

As noted earlier, lead bar and its respective sections 16A and 16B are supported in cantilever fashion by a pair of arm structures that are interconnected between the frame sections 12A and 12B and the sections 16A and 16B of the lead bar. One arm structure, as shown in Figure 1, includes a pair of arms 20A and 20B. These arms are interconnected by a pivot pen or pivot joint 20C. Arm 20B is connected to frame section 12A by an arm bracket 24. In similar fashion, the other arm structure includes a pair of arms 22A and 22B. These arms are connected together by a pivot pen or pivot joint 22C.

Arm 22B is connected to frame section 12B through a bracket 24. Arms similar to those shown in the drawings and described above are well known and are used in retractable awnings of the prior art. These arms are movable from a retracted position such as partially illustrated in Figures 3 and 4 to an extended position such as illustrated in Figure 1. Each of the arm structures is provided with a biasing structure for biasing the respective arms towards an extended position. Generally, this biasing structure includes a spring structure disposed internally within one or both of the arms which comprise one of the arm structures disposed on one side of the retractable awning. As will be described subsequently, the arm structure just described, because of its biasing nature, assists in moving the awning to an extended or partially extended position as shown in Figure 1. By the same token, when the awning sheet is retracted and rolled around the roll bar sections 14A and 14B, the biasing force of the arms must be overcome.

When the retractable awning 10 is in the assembled mode, as viewed in Figure 1, the roll bar sections 14A and 14B are supported above or in a spaced apart relationship to the frame sections 12A and 12B. To provide the support, there is provided a pair of roll bar support brackets 26. Although not particularly shown, each roll bar bracket 26 is adapted to rotatively hold and support the roll bar sections 14A and 14B. That is, the outboard ends of each section 14A and 14B is held within a respective bracket 26 such that the combined or joined together roll bar sections 14A and 14B can rotate therein.

Mounted adjacent one end of one roll bar section 14A or 14B is a gear assembly 28.

Gear assembly 28, when appropriately mounted adjacent one of the roll bar sections 14A or 14B, is driving interconnected with one of the sections. Extending downwardly from the gear assembly 28 is a relatively short crank arm that is adapted to be connected to an extended crank arm (not shown). By turning the extended crank arm, the gear assembly 28 is driven which in turn drives the roll bar sections 14A and 14B. It should be appreciated that the roll bar sections 14A and 14B can be driven by other means such as an electric motor that can even by remotely controlled.

As discussed above, connected between the roll bar sections 14A and 14B and the lead bar sections 16A and 16B, there is provided an awning sheet 30. Although the awning sheet 30 may be connected to these components in various ways, it is contemplated that in one embodiment, that the awning sheet 30 would be connected to the roll bar sections 14A and 14B and the lead bar sections 16A and 16B after the retractable awning 10 has been assembled and when the lead bar sections 16A and 16B is disposed in an extended or at least a partially extended position.

As seen in the drawings, the retractable awning 10 can be split or divided into two sub-assemblies. See Figure 2. Each sub-assembly is comprised of one frame section, one roll bar section, and one lead bar section. To secure one sub-assembly to another sub-assembly, or in other words, to secure the various sections together, there is provided a series of couplers. As illustrated in Figure 2, there is provided a first coupler, indicated generally by the numeral 32, for coupling the individual frame sections 12A and 12B together. A second coupler, indicated generally by the numeral 40, is provided to couple the individual roll bar sections 14A and 14B together. Finally, a third coupler, indicated generally by the numeral 50, is provided to couple the individual lead bar sections 16A and 16B together.

First, with reference to the first coupler 32, the same includes an inner sleeve or connector 34 and an outer sleeve 36 along with one or more bolts or set screws 38. In Figure 3, it is seen where the inner sleeve or connector 34 projects from the inboard end of frame section 12A. About the inboard end of the other frame section 12B, the outer sleeve 36 is adapted to receive the inner sleeve 34. There are numerous ways of connecting the frame sections 12A and 12B together. In one embodiment, the inner sleeve 34 and outer sleeve 36 can be dimensioned or sized so as to generate a tight or frictional fit. In the case of the embodiment illustrated herein, the inner sleeve 34 is secured tightly within outer sleeve 36 by the one or more bolts or set screws 38 formed in the outer sleeve 36. These bolts or set screws 38 are simply tightened down on the inner sleeve 34 when the inner sleeve is inserted into the outer sleeve. Note that the bolts or set screws 38 are directed through a corner seam or edge of the outer sleeve 36. This jams a corner of the inner sleeve 34 against the corner of the outer sleeve 36 opposite the bolts or set screws 38, and firmly attaches one section of the frame with another section of the frame. It will be appreciated that the position of the inner sleeve 34 and the outer sleeve 36 can be reversed. That is, the inner sleeve 34 can project from the inboard end of either section 12A or 12B, and the same can be said for the outer sleeve 36.

Turning to the roll bar sections 14A and 14B, it is appreciated that due to the nature and function of the roll bar assembly that it is necessary to provide an interconnecting drive between the inboard ends of the respective sections 14A and 14B.

This interconnecting drive forms a part of the second coupler 40. In this case, there is provided a driver or drive shaft 42 that extends from roll bar section 14A and when the retractable awning 10 is coupled the driver or drive shaft 42 projects into a receiver 47 shown in Figure 4. In the inboard end of the roll bar section 14A there is provided a first plate 44. First plate 44 is anchored and secured in the inboard end such that as the roll bar section 14A turns the first plate 44 is constrained to turn also. Driver or drive shaft 42 is secured to the first plate 44 and turns therewith. Likewise, in the inboard end of the other roll bar section 14B there is provided a second plate 46 which is secured within the inboard end of the other roll bar section 14B. Like first plate 44, second plate 46 is firmly secured within the inboard end of section 14B such that section 14B and second plate 46 are constrained to move together. Although a frictional or interference fit may be sufficient to couple roll bar sections 14A and 14B together, in the embodiment illustrated herein, there is provided one or more counter sunken bolts or set screws 48 in roll bar section 14B. These one or more bolts or set screws 48 are designed to extend into and engage the driver or drive shaft 42 when inserted within receiver 47.

Third coupler 50 associated with lead bar sections 16A and 16B, comprises a pair of stub shafts 52 that project from the inboard end of lead bar section 16A. See Figure 3. To receive stub shafts 52, there is provided a pair of spaced apart receivers 54 formed in the inboard end of the other lead bar section 16B. Again, frictional or interference fits may suffice to couple the lead bar sections 16A and 16B together.

However, in this case there is provided one or more bolts or set screws 56 particularly placed in ! ead bar section 16B so as to engage stub shafts 52 when inserted within the receivers 54.

As discussed above and is shown in the drawings, various forms of a coupler can be utilized to connect the respective sections of the retractable awning 10 together. For example, the type of coupler disclosed as the first coupler 32 could be utilized to couple other sections of the retractable awning together.

Awning sheet 30 may be inserted after the retractable awning has been assembled and extended as shown in Figure 1. The roller bar sections 14A and 14B include a series of circumventially spaced grooves 60 formed in the outer surface.

These grooves extend longitudinally along the surface of the roller bar sections 14A and 14B. Opposed ends of the awning sheet 30 are provided with a plastic or other connector 62. One plastic connector 62 is adapted to be threaded from the end or side into one groove 60 formed in the roller bar sections 14A and 14B. It is noted that when the roller bar sections 14A and 14B are coupled together, the grooves 60 in each section align with each other. Thus, the end 62 of the sheet awning 30 can be inserted from the end or side into one of the grooves 60 and simply extended downwardly until the sheet awning 30 is aligned with the combined roller bar sections 14A and 14B.

Likewise, the lead bar sections 16A and 16B includes a similar groove that is not particularly shown in the drawings. In any event, the other end of the awning sheet 30 is inserted into the groove of the lead bar sections 16A and 16B in the same fashion.

Thus, once the opposed ends 62 of the awning section have been inserted into two separate grooves of the roll bar sections and the lead bar sections, it is appreciated that the awning sheet is connected between the roll bar sections 14A and 14B and the lead bar section 16A and 16B.

The retractable awning 10 of the present invention can be provided with a device for angling the arm structures up and down with respect to the frame sections 112A and 12B. Typically, there is provided a turn rod on each end of the retractable awning 10. By turning each turn rod one side of the awning including one set of arm members 20A and 20B or 22A and 22B can be raised or lowered, as desired. The particular structure for accomplishing that function is not specifically shown hersin, but is well lçnown and appreciated by those skilled in the art as such mechanisms are provided on commercially available retractable awnings.

Figures 6A-6C illustrate an alternate design for a coupler for securing the various sections of the retractable awning 10 together. That is, the type of coupler illustrated in Figures 6A-6C could be utilized to connect the frame sections 12A and 12B, the roll bar sections 14A and 14B and the lead bar sections 16A and 16B.

Turning to a discussion of the alternate coupler, the same comprises two sections, a first section indicated generally by the numeral 80 and a second section indicated generally by the numeral 82. First, with respect to section 80, the same includes a sleeve 90 secured to a wedge bar assembly 92. Note that the wedge bar assembly 92 is secured within sleeve 90 by suitable securing means and projects outwardly therefrom to where an outer end portion of the wedge bar assembly can be exposed as illustrated in Figure 6A.

The exposed portion of wedge bar assembly 92 as viewed in Figure 6A, includes a diagonal face 92A. Projecting outwardly from the diagonal face 92A is a position stud 92B. Disposed on each side of the position stud 92B is a screw recess 92C.

Forming a part of the wedge bar assembly 92 is a corner wedge 92D. Corner wedge 92D includes a central opening 92E for receiving the position stud 92B. Disposed on each side of opening 92E is another opening 92F. Each opening 92F is threaded and includes an allen screw 92G secured therein.

Turning to the second section 82, the same includes a rectangular sleeve 94 that is adapted to slide over the exposed portion of the wedge bar assembly 92. Note that about one corner seam of the sleeve 94, there is provided a pair of corner openings 96.

It is appreciated that the sections 80 and 82 would form a part of the retractable awning 10, with the first section 80 forming a part, for example, of frame section 12A while the other section, section 82, would form a part of the other frame section 12B. In any event, to connect sections 80 and 82 together, the corner wedge 92D is placed on the diagonal face 92A. The allen screws 92G are sufficiently retracted into the corner wedge 92D such that the combined cross sectional area of the wedge bar assembly 92 will permit the sleeve 94 to be inserted thereover. Once sleeve 94 is inserted over the wedge bar assembly 92 as shown in Figure 6C, an allen wrench 98 is extended through the openings 92F and engaged with the allen screws 92G. By appropriately turning the allen wrench 98, the allen screws 92G are moved outwardly from the corner wedge 92D and engage the recesses 92C formed in the diagonal face 92A. As the allen screws 92G are turned, the corner wedge 92D is caused to move outwardly and wedge against the interior corner of sleeve 94. By tightening the allen screws 92G, the corner wedge 92D is securely wedged against the interior corner of the sleeve 94 and a secure connection is made.

The coupler illustrated in Figures 6A and 6C shows that the sleeve 90 is likewise connected to another portion of the wedge bar assembly 92. It will be appreciated that this arrangement and method of connection is the same as described above. In other cases, it is possible for the sleeve 90 and wedge bar assembly 92 to simply be fixedly connected.

When the retractable awning 10 is manufactured, it is contemplated that the retractable awning would be split or divided into two or more subassemblies. In the case of the embodiment shown in Figure 1, frame section 12A, roller bar section 14A, lead bar section 16A and the arms 20A and 20B interconnected between frame section 12A and lead bar section 16A would form one sub-assembly. Likewise, the other sub- assembly would include frame section 12B, roller bar section 14B, lead bar section 16B and arms 22A and 22B. These two sub-assemblies would be shipped in a retracted position. That is, each arm would assume a folded position such that the folded arm structure would lie between a respective frame section and a respective lead bar section. See, for example, Figure 2. Next, it is contemplated that the respective sub- assemblies would not be packaged end-to-end, but would be packaged in parallel fashion. That is, one sub-assembly would lie adjacent another sub-assembly. This would shorten the packaging and would ultimately reduce the shipping cost. In addition, when the sub-assemblies are packaged in parallel as just described, the same packaging will lend itself to a more compact merchandising presentation. For example, if the retractable canopy, when assembled, has a span of 16 feet, in a parallel package as just described, the total length of the package should not be much more than 8 feet.

One of the many advantages of the retractable awning of the present invention is that the design enables the retractable awning to be compactly packaged. Essentially, the left hand half of the retractable awning assembly, shown in Figure 2, can be laid adjacent the right hand half of the assembly and the two subassemblies can be placed or packaged together, in side-by-side relationship, in the same container.

Turning to Figures 7-9, a second embodiment for the retractable awning of the present invention is shown therein. In this case, the retractable awning is telescoping.

That is, in a preferred embodiment, each of the frame structure, roll bar and lead bar include at least two telescoping sections. Note in Figure 7 where the frame structure includes two sections 112A and 112B. Section 112B can slide in and out of section 112A. Likewise, the roll bar includes sections 114A and 114B. Section 114B is contained within section 112 and is slidable back and forth therein. Further, the lead bar includes two sections 116A and 116B. Section 116B can slide back and forth in section 116A.

When the retractable awning assumes the operative position, as shown in Figure 8, it is desirable for the diameter and circumference of the roll bar sections 1 4A and 114B to be generally equal. Because of the telescoping nature of the design, it is seen that section 114B, as shown in Figure 7, would be smaller in diameter and circumference than section 114A. To compensate for this, the present invention is provided with a pair of panels 118 that are designed to be secured around the outside of section 114B. Cover panels 118 can be secured in various ways such as by screws.

Further, the respective cover panels 118 would be designed with elongated grooves similar to those shown in Figure 1 and indicated by the numeral 60. The cover panels would be secured to section 114B such that the grooves in the cover panels 118 would align with the grooves formed in the outer surface of section 114A. Therefore, it follows that the awning sheet could be conveniently attached to the roll bar sections when the roll bar assumes the expanded or operative mode shown in Figure 8.

It is appreciated that the various sections that comprise the frame structure, roll bar and lead bar would be provided with stops so as to prevent the inner sections from sliding out from the outer sections.

Figure 7 shows the retractable awning 10 in a packaged mode or state. Here, the inner sections are retracted into the outer sections. Figure 8 shows the retractable awning 10 in an expanded or operative mode. Note that the length of the retractable awning in the operative mode is substantially greater than the length of the awning shown in Figure 7 and is also substantially greater than the effective length of the two subassemblies shown in a general packaging configuration in Figure 2A. It follows that when the awning is disposed in the configuration shown in Figures 2A and 7 that the effective length of the awning is substantially less than the length of the awning when it is disposed in an operative position such as shown in Figures 1 and 8. Consequently, a package of less length can be utilized and this makes shipping more cost effective.

Further, this makes the retractable awning more attractive from a merchandising point of view because in the packaged mode, the retractable awning takes up less space in a retail outiet than when the retractable awning assumes the operative or extended mode.

The present : invention may, of course, be carried out in other specific ways than those herein set forth without departing from the scope and the essential characteristics of the invention. The present embodiments are therefore to be construed in all aspects as illustrative and not restrictive and all changes coming within the meaning and equivalency range of the appended claims are intended to be embraced therein.