Automobile compartment cover

An automobile compartment cover, for use in covering a compartment such as the windowed rear compartment of a hatchback or a station wagon type automotive vehicle, has a variable length elongated hollow cylindrical roller about which is rolled a flexible sheet member. At least one end of the roller includes a torsional spring to provide rotational tension on the cover; and compressional spring means to provide longitudinal tension in the roller.

BACKGROUND 
For many reasons the current trend in automobiles is toward smaller 
"compact" type vehicles. Better gas mileage is one reason which is obvious 
to anyone purchasing petroleum products at recently inflated prices. 
A second reason for the popularity of "compacts" is the ease with which 
smaller cars can negotiate the crowded urban and suburban traffic 
conditions and even more crowded urban and suburban parking areas. This 
makes the "compact" cars a particularly favorable choice as a second car 
for local driving and as a means to reach public transportation. 
In order to make the smaller cars more useful and, therefore, more 
attractive, a number of "compacts" are made in the form of a so-called 
hatchback. These vehicles are a hybrid of a sedan and a station wagon. The 
rear seat often folds down and a rear hatch opens to give a relatively 
large cargo area, thus doubling the usefulness of the vehicle. 
Unfortunately, in just those crowded areas where a compact automobile is 
particularly useful, there is also an increased risk that one's automobile 
will be broken into. This is especially true where one can determine by 
mere inspection that valuable items may be stored in the cargo area of the 
automobile. Thus a hatchback or station wagon containing what appears to 
be valuable cargo is a particularly attractive target for a thief. One 
need only look into a rear window or side window to determine whether 
there is anything which appears to be valuable and, if so, determine if 
the risks inherent in breaking into the vehicle are worth the rewards. 
Merely throwing a cover or drop cloth over items contained in the visible 
compartment of a hatchback or station wagon may reduce the chances that 
the cargo will be considered valuable--or may pique the curiosity of a 
possible thief due to the shape of the objects as reflected in the way the 
cover is draped or because of the presence of the cover itself. 
It is therefore an object of this invention to provide a cover for an 
automobile compartment. It is a related object to provide a cover for an 
automobile compartment such as a windowed rear compartment for use in 
concealing from outside view, items stored in a normally visible rear 
compartment of an automobile vehicle. 
It is a further object of this invention to provide a rear compartment 
cover which appears the same whether there are items stored beneath it or 
not. 
It is further object of the invention to provide a rear compartment cover 
which does not restrict access to the rear compartment when the hatch or 
rear door is opened. It is a related object of this invention to provide a 
rear compartment cover which can be left in place as a permanent fixture 
so as not to arouse curiosity by its presence. 
It is a further object of the invention to provide a compartment cover 
which automatically adjusts to compensate for variations in the placement 
of support brackets or minor manufacturing and assembly variations. It is 
a related object to provide a compartment cover that will resist rattling 
by maintaining tension on its mounting brackets. 
Other objects will be set forth below or will be obvious therefrom. 
SUMMARY OF THE DISCLOSURE 
The objects of the invention are attained by utilizing a substantially 
rectangular flexible sheet member having sufficient width and length to 
cover the compartment opening over which it is to be deployed. The sheet 
member is anchored to, and wrapped around, a hollow cylindrical roller. 
The roller carries at least two bearings which carry a support shaft 
substantially coextensively with the central axis of the roller. A 
torsional spring interconnects the shaft and the roller. 
By mounting the shaft on one side of the compartment in a manner which 
restrains its rotation, the unwinding of the sheet member and its 
attachment to the opposite side of the compartment from the roller will 
cause the torsional spring to generate counter-rotary forces to maintain 
tension on the sheet member thereby presenting a substantially smooth flat 
surface to the casual observer looking in from outside of the automobile. 
By providing sufficient additional length, and attaching the free end of 
the sheet member to the hatch or upwardly swinging door of the vehicle, 
the door can be opened without removing the cover. The sheet merely 
unrolls the additional length necessary to allow opening of the door 
thereby giving free access to the otherwise covered compartment area. 
To provide automatic adjustment to size variations, and restrain rattling 
of the device, an end portion of the shaft is slidably secured and 
compression spring loaded with respect to the shaft.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
With reference to FIGS. 1A and 1B, an automobile compartment cover 10 is 
shown mounted in a station wagon or hatchback bodied automotive vehicle 12 
and extended as a cover across the top of the rear compartment 14 of the 
vehicle 12. The preferred embodiment shown in the drawings is one wherein 
the compartment cover 10 extends from or near the back of the rear seat 16 
of the vehicle 12, across the rear compartment 14 and is attached to the 
hatch or rear door 18. As shown in FIG. 1B, this manner of attaching the 
cover 10 permits free access into the rear compartment 14 when the hatch 
18 is opened. Attachment may also be to the trim below the hatch of a 
hatchback. 
The compartment cover 10 includes an elongated hollow cylindrical roller 20 
having first and second open roller ends 24, 26 (FIG. 2). An anchor groove 
28 is formed the length of the cylindrical roller 20 substantially 
parallel to the central axis of the roller. With reference to FIG. 4, the 
anchor groove includes a necked slotted opening 30 and an enlarged cross 
sectional enclosure portion 32. One edge of the flexible sheet member 22 
is enlarged as by wrapping it about a boltrope 34 and securing the 
flexible sheet member 22 thereabout. The flexible sheet member 22 is thin 
enough to fit through the necked slotted opening 30 of the anchor groove 
28 but the enlarged end portion carrying the boltrope 34 will not fit 
through the necked slotted opening 30. The sheet member 22 can thereby be 
anchored to the elongated cylindrical roller 20 as shown in FIGS. 2 and 3. 
The opposite end of the flexible sheet member 22 may be fitted with hooks, 
slots or other usual connecting means by which it can be secured to 
brackets 36, 38 on the hatch 18 as shown in FIG. 1B. Suitable roller 
support means may be provided for rotatably securing the roller to the 
rear seat 16, also as shown in FIG. 1B, whereby the compartment cover will 
be secured across the opening of the compartment. 
The roller support means includes a rod or tube 40 which extends along the 
central axis of the roller 20 and beyond at least the first open end of 
the roller 24 as shown in FIG. 3. A first and a second bearing 42, 44 are 
provided in the roller 20 to support the rod 40. It is preferable that the 
design of bearings 42, be in accordance with the design shown in FIG. 5. 
This bearing form 42, 44, is designed to fit into the cylindrical roller 
20 shown in FIG. 4 and by suitable rotation either be stopped by stops 46, 
or pass these stops and be stopped by stops 48. As can be seen in FIG. 2, 
this permits insertion of bearings from one end of the roller 20 and have 
them be properly spaced throughout the roller. FIG. 2 shows an additional 
bearing, central bearing 45, which is used especially when the elongated 
roller 20 is long. 
Closing the first and second open roller ends are first and second end caps 
52, 54. Each of these end caps 52, 54 has a central socket 56 to receive 
the ends of the rod 40; and an opening 58 allow passage of the flexible 
sheet member 22 therethrough, as shown in FIG. 2. Each of said end caps 52 
and 54 are disposed over and around the ends of the cylindrical roller 20. 
At least a first end of the rod 40 has a peg 60 extending radially 
therefrom. At least the first end cap 52 includes a slot 62 formed 
transverse to the socket 56 to receive the peg 60. The slot 62 extends 
from the end of the socket downwardly and for a portion of the way along 
the socket whereby the cap can slide back and forth with respect to the 
rod 40. The outer extent of the travel of the cap is limited by the 
abutment of peg 60 with the bottom 64 of the slot 62, as can readily be 
seen in FIG. 3. Because the slot 62 limits the rotary motion of the peg 
60, relative rotational motion between the first end cap 52 and the rod 40 
is restrained. 
In order to apply an outward bias to end cap 52, a compression spring 66 is 
provided between the inner edge of socket 56 and the first bearing 42 
(FIG. 3). Behind the bearing 42 is a torsion spring 68 which has its inner 
end secured to the roller 20 by means of a rivet 70 or other similar 
connector. The other end of the torsion spring 68 passes through the first 
bearing 42 and is held by the first bearing 42 in abutment with the 
outside of anchor groove 28 thereby providing a torsion spring connection 
between the roller 20 and the rod 40. 
For a better understanding of the manner in which the outer end of the 
torsion spring 68 is held in abutment with the anchor groove 28, reference 
is now made to FIGS. 4 and 5. As can be seen in FIG. 5 the bearing 42, 44, 
45 has a generally circular shape with various indentations formed 
therein. The elongated indentations 72, 74 are designed to permit the 
bearing to pass the seam 75 which is used to close the roller 20 and form 
a strong structure (FIG. 4). The round identations 76, 78 are designed to 
allow the bearing to stop on the first stops 46 or pass the first stops 
and stop on the second stops 48, depending on the relative orientation of 
the bearing with the roller 20. The shaped indentations 80, 82 are 
designed to fit over the anchor groove 28 again depending on the 
orientation of the bearing with respect to the roller 20. The lower 
portion of the shaped indentation 80, 82 includes a second rounded 
indentation 84, 86. It is through this second shaped indentation that the 
end 88 of the torsion spring 68 passes and is held by the bend shown in 
FIG. 3 at the end 88 of the torsion spring 68. As can be seen in FIG. 3, 
end 88 is held in abutment with anchor groove 28. 
In order to reduce noise caused by coiling and uncoiling of torsion spring 
68, tubes 90 and 92 may be provided on the outer and inner circumference 
of the torsion spring 68 to buffer the sound caused by the torsion spring 
moving in contact with rod 40. 
FIG. 3 shows the first end of the assembly. This same mechanism can be 
inserted in the second end of the assembly or, as is shown in FIG. 2, the 
second end of the assembly can be provided with a cap 26 only. 
Finally, as shown in FIG. 6, the outer end of the cap 52 and 54 is provided 
with a flat sided projection 94 which, when supported in a bracket having 
a slotted socket (not shown), will prevent the cap from relative rotation 
with the slotted bracket. 
A preferred embodiment of the cover 10 incorporates a locking mechanism 100 
to prevent loss of torsional potential energy from torsion spring 68 if 
the end cap 52 becomes disengages from the slotted bracket when the 
flexible sheet member 22 is extended. 
The locking mechanism 100 includes a locking portion 102 an unlocking 
portion 104, and a locking pin 106. 
Both the locking portion 102, and the unlocking portion 104 are shaped to 
fit into the hollow cylindrical roller 20. With reference to FIGS. 7-10 
both portions are generally circular in cross-section with a diameter 
approximately equal to that of the inner diameter of roller 20. Comparing 
FIGS. 7-10 with FIG. 4, the locking portion 102 and the unlocking portion 
104 each have, respectively, a rounded groove 108, 110 shaped to receive 
the enclosure 32; and a flattened bottom section 112, 114 to clear seam 
75. These portions 102, 104 of the locking mechanism 100 are therefore 
operable to be slid into the cylindrical roller 20 and be restrained from 
rotational movement with respect thereto. 
Said locking portion and said unlocking portion each have a bore 116, 118 
respectively, formed therethrough and so disposed as to be centrally 
located when the portions 102, 104 are inserted into the cylinderical 
roller 20. The bores 116, 118 are thereby operable to act as bearings to 
support the center rod 40. 
The locking portion 102 has, formed on one face as shown in FIG. 7, pin 
receiving grooves 120 and 122. These grooves extend through the center of 
the bore 116, and are large enough to receive locking pin 106 therein. In 
a second embodiment, as shown in FIG. 8, the pin receiving grooves 120, 
122 may be replaced with stops such as pegs 124, 126. As will be evident 
from the description below of the operation of the locking mechanism 100, 
there need only be one pin receiving groove or one stop for the operation 
of the device. 
With reference to FIGS. 10 and 11, the unlocking portion 104 is in the form 
of a generally flattened cylinderical rod with a large diameter bore 128 
formed on one side as can be seen in FIG. 11. The large diametered bore 
128 is formed only partway through the cylinder while the bore 118, which 
acts as a bearing, is formed completely through. As can be seen in FIGS. 
12A and 12B, the diameter of the large bore 128 must be sufficiently large 
to allow the pin 106 to be received therein. This is required by the 
operation of the device. 
Locking pin 106 is force fitted or otherwise secured through rod 40, 
generally perpendicular to the elongated axis of rod 40. When assembled 
and inserted into the cylindrical roller 20, the locking mechanism is 
disposed between compression spring 66 and end cap 52. As shown in FIG. 
12A, compression spring 66 urges the locking portion 102 against the 
locking pin 106. As the locking portion 102 is secured from rotary motion 
with respect to the cylinderical roller 20 and the pin is force fitted or 
otherwise secured to the rod 40, when the locking pin 106 is received in 
either groove 120, 122, relative rotation between the cylinderical roller 
20 and the rod 40 is prevented. With reference to FIG. 8, it can be seen 
that the locking action of locking portion 108A is analogous to that of 
locking portion 108. The locking pin 106 is locked from rotary motion by 
abuttment with peg 124 or 126. Any number of pegs or stops can be used 
although only one is required. The advantage of a number of pegs 124, 126 
or a number of grooves 120, 122, is that rotary motion of the rod 40 is 
stopped in a shorter period of time or in a smaller number of degrees of 
relative rotation between the rod 40 and roller 20. 
When the locking mechanism is inserted into the cylindrical roller 20, the 
unlocking portion 104 is in abuttment with the end of socket 56 which 
forms a part of the end cap 52 (compare with FIG. 3). As shown in FIG. 
12B, when the end cap 52 is pressed inwardly the locking portion 102 is 
displaced from engagement with locking pin 106. Locking pin 106 is 
received in the large diameter bore 128 of the unlocking portion 104 and 
is free to spin therein. 
Operation of the Device 
Although the roller 20 may be secured between two walls or along any wall 
of the rear compartment 14 over which the cover device, according to the 
present invention, is to be extended, it is preferable to secure the 
roller 20 to either the hatch 18 or the back of the rear seat 16; most 
preferably, as shown in the drawings, to the back of the rear seat 16. The 
free end of the sheet member 22 is secured to the opposite side of the 
rear compartment 14; for the most preferred embodiment, to the hatch 18. 
The length of the sheet member 22 should be sufficient to allow it to be 
extended far enough so that the hatch 18 can be completely opened as shown 
in FIG. 1B. 
To secure the roller 20 to the roller of the rear seat it is important that 
the slotted sockets be spaced apart from each other a distance less than 
the length of the roller 20 with its end caps 52, 54 fully outwardly 
extended. In this manner, the compression spring 66 will press the end 
caps 52, 54 against the sockets to reduce rattling and adjust for 
variations in socket placement. The slots in the sockets receive the flat 
sided projection 94 thereby preventing rotation of rod 40. As the torsion 
spring 68 is secured or connected between the rod 40 and the roller 20, 
rotation of the roller 20 will cause the torsion spring 68 to either 
tighten or loosen. In normal storage, the sheet member 22 is rolled about 
the roller 20 in such a direction that by extending the sheet member 22 
the roller is caused to rotate in a direction which tightens the torsion 
spring 68 to generate a counter-rotational force by the torsion spring. 
This maintains the flexible sheet member 20 in a taut condition when 
extended and causes it to automatically rewind on the roller should its 
free end be released. The free end of flexible sheet member 20 is extended 
across the compartment and secured to brackets 36, 38 or the like. 
For use as a thermal barrier on a van type vehicle, the most convenient 
method of mounting is with the roller 20 mounted on the ceiling and 
brackets 36, 38 mounted on the floor. The sheet member 22 can then be 
extended downwardly and attached to the floor to act as a thermal barrier. 
It has been found that, on occasion, when the compartment cover 10 has been 
disposed over a compartment, the end caps 52, 54 sometimes are 
accidentally displaced from their respective slotted sockets. This can 
occur as a result of an accidental bumping against the end of the cover by 
someone removing an item from the compartment. This may also possible 
occur when the end cap is jiggled from its slotted socket by excessive 
vibration or by items stored in the compartment bouncing against the end 
cap. In any case, the result is that the end cap can become free to spin 
causing loss of torsional potential stored in the torsion spring 66. The 
locking mechanism 100, when provided in the cover, will prevent the loss 
of torsional potential from torsion spring, by automatically locking the 
cylinderical roller 20 to the rod 40. As shown in FIG. 12A, when the 
compression spring 66 is fully extended, that is when the end cap is at 
its outward travel position, the locking pin 104 is received in a groove 
120, 122 in the locking portion 102. Alternatively, it abutts a peg 124, 
126 when an alternative locking portion 102A is used. 
When the compartment cover is mounted the end caps are pressed slightly 
inwardly to be received, under tension, in their respective slotted 
sockets. As shown in FIG. 12B, this results in an unlocking of the locking 
pin 106 from the locking portion 102. The compartment cover will now 
operate freely. Should an end cap accidentially be released and thereby be 
forced outwardly by compression spring 66, the locking pin will once again 
be forced into engagement with locking portion 102 to prevent loss of 
torsional potential from the torsion spring 68. As is readily realized, 
providing several pin stops will reduce the amount of loss. 
The above is intended as illustrative of preferred embodiments of the 
present invention, as other modifications and variations would be obvious 
to persons of ordinary skill in the art. The scope of the invention should 
therefore be limited only as is defined in the claims below.