Security sleeve for recorded media storage containers

BACKGROUND OF THE INVENTION

1. Technical Field

The present invention generally relates to security storage containers and, more particularly, to a security device used to hold and display recorded media storage containers. Specifically, the present invention relates to a sleeve that allows a storage container such as a DVD case to be slid into the storage container and then securely retained until the security container is destroyed.

2. Background Information

Numerous items of recorded media are displayed in storage containers for sale to consumers at retail establishments. Consumers demand access to the items of recorded media so that they may review the packaging information while deciding whether or not to purchase the item of recorded media. Retail establishments desire to provide customers access to the items of recorded media while preventing shoplifting. Retail establishments thus place an electronic article security tag (EAS tag) inside or attached to each item of recorded media. The retail establishment then places each tagged item of recorded media inside a security device that prevents the shoplifter from removing the EAS tag from the item of recorded media.

Various types of security devices are known in the art. Some types are reusable and may be opened with special keys by the sales clerk. Other types of security containers known in the art are only used once. The sales clerk either destroys the container when removing the item of recorded media or sells the security device to the consumer along with the item of recorded media after deactivating the EAS tag.

The security container art desires a security container for holding storage containers for items of recorded media that can be easily loaded and locked by automated equipment. The security storage container must allow the consumer to clearly view the front, sides, and rear of the storage container. The security storage container must also prevent easy access to the storage container in order to frustrate shoplifters. The art also desires the security storage containers to be inexpensive to purchase especially when the security storage containers are sold to the consumer. The retail establishments also desire that the security storage containers not consume valuable shelf space.

SUMMARY OF THE INVENTION

In view of the foregoing, the present invention provides a security storage container that may be used to hold a storage container for an item of recorded media in a manner that allows all sides of the storage container to be viewed by the consumer.

The present invention also provides a security storage container that may be easily loaded by automated equipment.

The present invention also provides a security storage container having relatively thin walls such that the container does not increase the required shelf space for the storage container.

The present invention also provides a security storage container that successfully frustrates potential shoplifters by preventing easy access to the recorded media storage container.

BRIEF DESCRIPTION OF THE DRAWINGS

The preferred embodiments of the invention, illustrative of the best mode in which applicant contemplated applying the principles of the invention, are set forth in the following description and are shown in the drawings and are particularly and distinctly pointed out and set forth in the appended claims.

FIG. 1

is a perspective view of the first embodiment of the security storage package of the present invention with a DVD storage container being inserted into the security storage container.

FIG. 1A

is a perspective view of an alternative embodiment of the first embodiment of the security storage package of the present invention.

FIG. 2

is a top view of the device of

FIG. 1

with the DVD storage container loaded into the security storage container.

FIG. 3

is an end view of

FIG. 2

showing the open bottom of the device.

FIG. 4

is a perspective view of the second embodiment of the security storage container of the present invention being loaded with a DVD storage container.

FIG. 5

is a sectional view of the second embodiment of the security storage container with the DVD storage container of

FIG. 4

in the loaded position.

FIG. 6

is a perspective view of an alternative version of the end cap of the second embodiment of the present invention.

FIG. 7

is a perspective view of a third embodiment of the security storage container of the present invention with a DVD storage container loaded into the security container.

FIG. 8

is a sectional view of the bottom opening and end flap of the security storage container of

FIG. 7

with the end flap in the open position.

FIG. 9

is a view similar to

FIG. 8

showing the end flap in a closed position.

FIG. 10

is a perspective view of the security storage container of

FIG. 7

showing the different radii on the corners of the device.

FIG. 11

is a front elevational view of FIG.

10

.

FIG. 12

is a sectional view taken along line A—A of FIG.

11

.

FIG. 13

is a sectional view taken along line B—B of FIG.

11

.

FIG. 14

is a side elevational view of FIG.

11

.

FIG. 15

is a perspective view of half of the end flap being closed.

FIG. 16

is a perspective view similar to

FIG. 15

showing an alternative version of the third embodiment of the present invention.

FIG. 17

is a view showing how the third embodiment of the present invention may be manufactured.

FIG. 18

is a front elevational view of a fourth embodiment of the present invention.

FIG. 19

is a sectional view taken along line

19

—

19

of FIG.

18

.

FIG. 20

is a view taken along line

20

—

20

of FIG.

19

.

FIG. 21

is an enlarged view, partially in section, of the locking member in the unlocked position.

FIG. 22

is a view similar to

FIG. 21

showing the locking member in the locked position.

FIG. 23

is a view similar to

FIG. 21

showing a fifth embodiment of the invention.

FIG. 24

is a view of the fifth embodiment in the locked position.

FIG. 25

is a view similar to

FIG. 21

showing the sixth embodiment of the invention in the unlocked position.

FIG. 26

is a view of the sixth embodiment in the locked position.

FIG. 27

is a view similar to

FIG. 21

showing the seventh embodiment of the invention.

FIG. 28

is a view of the seventh embodiment in the locked position.

FIG. 29

is a view similar to

FIG. 21

showing the eighth embodiment of the invention.

FIG. 30

is a view of the eighth embodiment in the locked position.

FIG. 31

is a sectional side view of the eighth embodiment taken along line

31

—

31

of FIG.

30

.

FIG. 32

is a view similar to

FIG. 21

showing the ninth embodiment of the invention.

FIG. 33

is a view of the ninth embodiment in the locked position.

FIG. 34

is a front sectional view of the tenth embodiment of the invention with one side locked and one side unlocked.

FIG. 35

is a front sectional view of the eleventh embodiment of the invention with one side locked and one side unlocked.

FIG. 36

is a bottom plan view of the twelfth embodiment of the invention with one side locked and one side unlocked.

FIG. 37

is a front sectional view of the thirteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 38

is a front sectional view of the fourteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 39

is a front sectional view of the fifteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 40

is a front sectional view of the sixteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 41

is a front elevational view of the seventeenth embodiment of the invention in the unlocked position.

FIG. 42

is a bottom plan view of FIG.

41

.

FIG. 43

is a front elevational view of the seventeenth embodiment in the locked position.

FIG. 44

is a sectional view taken along line

44

—

44

of FIG.

43

.

FIG. 45

is a front sectional view of the eighteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 46

is a front elevational view of the nineteenth embodiment of the invention with one side locked and one side unlocked.

FIG. 47

is a bottom plan view of the twentieth embodiment of the invention in the unlocked position.

FIG. 48

is a sectional view taken along line

48

—

48

of FIG.

47

.

FIG. 49

is a sectional view similar to

FIG. 48

showing the locked position.

FIG. 50

is a side sectional view of the twenty-first embodiment of the invention in the unlocked position.

FIG. 51

is a side elevational view of the twenty-first embodiment in the locked position.

FIG. 52

is a sectional view taken along line

52

—

52

of FIG.

51

.

FIG. 53

is a side sectional view of the twenty-second embodiment of the invention in the unlocked position.

FIG. 54

is a side elevational view of the twenty-second embodiment in the locked position.

FIG. 55

is a sectional view taken along line

55

—

55

of FIG.

54

.

FIG. 56

is a bottom plan view of the twenty-third embodiment of the invention.

FIG. 57

is a sectional view taken along line

57

—

57

of FIG.

56

.

FIG. 58

is a front sectional view of the twenty-fourth embodiment with one side locked and one side unlocked.

FIG. 59

is a front sectional view of the twenty-fifth embodiment of the invention with one side locked and one side unlocked.

FIG. 60

is a front sectional view of the twenty-sixth embodiment of the invention with one side locked and one side unlocked.

FIG. 61

is a front view showing a shock absorbing structure.

FIG. 62

is a section view of the shock absorbing structure.

Similar numbers refer to similar parts throughout the specification.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The first embodiment of the security storage container of the present invention is generally indicated by the numeral

10

in

FIGS. 1-3

. Security storage container

10

is generally in the form of a five-sided box including a front wall

12

, a rear wall

14

, a top wall

16

, and a pair of sidewalls

18

. Security storage container

10

generally includes an open bottom as indicated by the numeral

20

. Security storage container functions by including a plurality of protrusions

22

disposed adjacent open bottom

20

that allow a storage container

24

to be inserted into the storage compartment of security container

10

but not removed. Storage container

24

may only be removed from the storage compartment of security container

10

by cutting one or more of the walls or by otherwise destroying security storage container

10

.

Security storage container

10

is preferably fabricated from a tough, resilient, substantially transparent plastic material that is difficult to break, cut, or tear. The thickness may vary depending on the application. For instance, a thickness between 0.01 and 0.03 inches is common but other thicknesses are also contemplated such as 0.06 inches. The material may be molded or vacuumed formed as is known in the art. The material has been used in packaging applications in the prior art. The art generally recognizes that this material is relatively strong and may be provided in thicknesses that are relatively difficult to cut even with a sharp blade. The thickness of the material may be varied depending on the level of security and the application for security container

10

. For example, the material may be a thermoplastic such as a polypropylene or a polyethylene, injection molded plastics, vacuum formed plastics, vinyls, etc.

Security storage container

10

may be formed by providing a pair of identical halves that are each formed with connection flanges

26

extending along three sides of container

10

. The halves are fit together to form a storage compartment and flanges

26

are permanently connected together to form container

10

. Flanges

26

may be connected together by any of a variety of connection methods known in the art such as adhesives, welding, press fits, etc. In the preferred embodiment, flanges

26

are welded by welding.

In another embodiment of the invention, flanges

26

are not used and walls

18

are fit directly together in an end-to-end relationship. The walls of security storage container

10

may also be integrally fabricated in a one piece mold or forming process.

Protrusions

22

extend inwardly from the outer surface of security storage container

10

as shown in FIG.

3

. Each protrusion

22

is designed to be flexible and accommodating in the insertion direction as indicated by the arrow labeled with numeral

28

. Each protrusion

22

is configured to prevent removal of storage container

24

by not being flexible or yielding in the removal direction as indicated by the arrow labeled with the numeral

30

. To achieve this function, each protrusion

22

may have a relatively flat surface facing the storage compartment with a relatively angled surface facing open bottom

20

of security storage container

10

. Protrusions

22

generally include an upper and lower protrusion disposed at the lower edge of each sidewall

18

and an upper and lower protrusion disposed at the lower middle portion of front wall

12

and rear wall

14

. Other arrangements of protrusions

22

are also contemplated by the present invention. As shown in

FIG. 3

, protrusions

22

block a substantial portion of the opening to the storage compartment and provide a substantial blocking wall to storage container

24

once storage container

24

is inserted into security container

10

as depicted in FIG.

2

.

An alternative version of the first embodiment is depicted in FIG.

1

A. In this embodiment, security storage container

10

is integrally fabricated in a single piece and lacks the flanges discussed above. Container

10

shown in

FIG. 1A

also includes a modified protrusion

22

structure that extends entirely around opening

20

. Each corner includes ribbed protrusions

22

in addition to an inset protrusion

22

that extends entirely around opening

20

. This protrusion structure has been found to securely hold storage containers having sharp corners as well as rounded corners. Protrusion

22

includes continuous lips

22

A that are spaced apart and extend entirely around opening

20

. In other embodiments, lips

22

A may be discontinuous.

The second embodiment of the security storage container of the present invention is indicated generally by the numeral

50

in

FIGS. 4 and 5

. Security storage container

50

includes many of the same elements as security storage container

10

described above and the same numbers are used to refer to these elements. Security storage container

50

functions similar to security storage container

10

and may be fabricated from the same types of material as security storage container

10

.

Some types of storage containers

24

have relatively rounded edges that will not allow protrusions

22

of first embodiment of security storage container

10

strongly secure storage container

24

inside of the storage compartment. Security storage container

50

provides an end cap

52

that includes corners

54

designed to cooperate with protrusions

56

to provide a secure holding arrangement. Protrusions

56

include a plurality of ribs

58

that extend into the storage compartment of security storage container

50

. Protrusions

56

may be disposed at two corners as depicted in

FIG. 4

, all four corners, or in the arrangement depicted in

FIG. 1

for protrusions

22

. Protrusions

56

are configured to cooperate with corners

54

of end cap

52

to lock end cap

52

and thus storage container

24

inside of the storage compartment of security storage container

50

when end cap

52

is placed over storage container

24

and pressed up into security storage container

50

as shown in FIG.

5

. End cap

52

thus allows security storage container

50

to be used with storage containers

24

having a configuration that prevents it from securely working with protrusions

22

.

End cap

54

may be five-sided as depicted in

FIG. 4

or three-sided as depicted in FIG.

6

and indicated with the numeral

52

A.

The third embodiment of the security storage container of the present invention is indicated generally by the numeral

100

in

FIGS. 7-17

. Security storage container

100

includes many of the same elements as security storage container

10

and the same numbers are used to refer to those elements. Security storage container

100

includes an end flap

102

that is connected to rear wall

14

with a first hinge

104

. First hinge

104

is preferably a living hinge including a pair of angled walls

106

and a spine

108

. Hinge

104

may also have a rounded or folded cross section as is known in the art. End flap

102

is used to close open bottom

20

after storage container

24

is inserted into the storage compartment of security container

100

. End flap

102

may be permanently locked in the closed position by appropriate welds or other connectors known in the art. In the embodiment of the invention depicted in the drawings, a pair of buttons

110

are provided on front wall

12

and end flap

102

. Each button includes a male member

112

and a female member

114

that each have tapered sidewalls as shown in FIG.

9

. The individual members of each button

110

snap together to connect the elements of button

110

. Button

110

may be flattened to form a secure connection that may not be taken apart by flattening members

112

and

114

beyond the point where the material forming security container

100

will spring back. This causes male element

112

to be trapped within female element

114

thus locking end flap

102

over open bottom

20

of security container

100

.

End flap

102

includes a first wall

120

, a second wall

122

, and a third wall

124

. First wall

120

is connected to back wall

114

by first hinge

104

. Second wall

122

is connected to first wall

120

by a second hinge

126

that has substantially the same structure of first hinge

104

. Third wall

124

is connected to second wall

122

by a third hinge

128

that may also have the same structure as first hinge

104

.

Female elements

114

are formed in third wall

124

such that they may be aligned with male elements

112

when end flap

102

is folded into the end of security container

100

. The unfolded position is depicted in

FIG. 8

while the folded position is depicted in FIG.

9

. In the folded position, second wall

122

closes open bottom

20

of security container

10

. While first wall

120

lies adjacent rear wall

14

and third wall

124

lies adjacent front wall

12

. Second wall

122

is preferably sized to substantially close the entire opening of security container

10

. Walls

120

and

124

have a width that allows them to move to the folded position while not interfering with the radius corners of security storage container

10

.

Security storage container

100

may optionally include a pair of seal buttons

130

(

FIG. 7

) that function to provide an additional layer of security to security container

100

. Security container

100

may additionally include protrusions

56

as described above.

Security storage container

100

includes four curved longitudinal corners

132

. Each longitudinal corner includes a first section

134

, a second section

136

, and a third section

138

. First and third sections

134

and

138

have a smaller radius of curvature than second section

136

. Storage container

24

thus is provided with more clearance at sections

134

and

138

while frictionally engaging section

136

. The frictional force between section

136

and storage container

24

prevents storage container

24

from rattling within security storage container

100

and prevents a potential shoplifter from easily pushing storage container

10

back against end flap

102

.

In an alternative embodiment of the invention (see FIG.

16

), male and female elements

112

and

114

are reversed such that male elements

112

are carried by end flap

102

while female elements

114

are carried by front wall

12

.

In another alternative embodiment of the invention, buttons

110

are not used and a curved latch

140

(see

FIG. 16

) may be used to capture third wall

124

of end flap

102

to secure it in place. The connection may be permanently formed by appropriate welding, crimping, or gluing.

FIG. 17

depicts a method of manufacturing security storage container

100

wherein end flap

102

is formed as part of a closed container

150

. Closed container

150

is cut along lines

152

and

154

to form security storage container

100

having end flap

102

. The remainder

156

of container

150

that is not used is discarded and recycled. Forming security storage container

100

in this manner achieves one of the objectives of the present invention.

The fourth embodiment of the security sleeve of the present invention is indicated generally by the numeral

200

in

FIGS. 18-22

. Security sleeve

200

generally includes a frame

202

and a pair of locking members

204

. Locking members

204

are each movable between unlocked and locked positions to lock an item of recorded media

206

within frame

202

until frame

202

is at least partially destroyed. Item of recorded media

206

typically includes a housing or a storage container. Essentially any type of recorded media may be used with sleeve

200

. For instance, item

206

may be a tape, a disc, or a game cartridge. In other applications, sleeve

200

may be used with other items of merchandise such as boxed items or books.

Frame

202

is in the form of a five-sided box having an insertion opening at its open side so that item

206

may be slid into the storage chamber inside frame

202

. Frame

202

is sized to slidingly receive item

206

. Item

206

may be frictionally received in frame

202

or may be loosely received in frame

202

. In the drawings, item

206

is disposed loosely within frame

202

but it is understood that the outer surfaces of item

206

may frictionally engage the inner surfaces of frame

202

.

Frame

202

may include a plurality of openings

207

that allow the consumer to directly view the graphics and text on item

206

without looking through frame

202

. Frame

202

has one dimension that is greater than the corresponding dimension of item

206

. The example depicted in

FIGS. 18-22

, the longitudinal length of frame

202

is longer than the longitudinal length of item of recorded media

206

. The dimension discrepancy provides room for locking members

204

to lock against a wall of item

206

.

In the fourth embodiment, locking members

204

are positioned near the end of frame

202

where item

206

is loaded. Each locking member

204

is hingedly connected to frame

202

with a hinge

208

. Hinge

208

may be a living hinge that is integrally formed with frame

202

. Hinge

208

may also be a separately-formed hinge that is attached to frame

202

after it is formed. Hinge

208

allows locking member

204

to pivot between the unlocked position shown in FIG.

21

and the locked position shown in FIG.

22

.

In the fourth embodiment of the invention, locking members

204

each include an arm

210

and a protrusion

212

. Arm

210

is connected to frame

202

by hinge

208

. Protrusion

212

includes at least one locking finger

214

that locks member

204

in the locked position by engaging frame

202

. Locking finger

214

is angled from the inner end of protrusion

212

outwardly towards the plane of arm

210

but downwardly away from arm

210

and hinge

208

. Finger

214

is flexible enough to be moved inwardly toward protrusion

212

when locking member

204

is being inserted into frame

202

. Locking member

204

further includes a second locking finger

216

disposed on the upper side of protrusion

212

.

Frame

202

defines an opening

220

adjacent each locking member

204

. Each opening

220

is positioned below the lower edge

222

of item

206

when item

206

is fully inserted into frame

202

. Opening

220

is sized to receive protrusion

212

when at least one locking finger

214

is depressed. Frame

202

includes first

224

and second

226

locking ledges disposed above and below opening

220

.

Frame

202

also defines a channel

230

between each hinge

208

and each opening

220

. Channel

230

is sized to receive arm

210

when locking member

204

is in the locked position so that the outer surface of arm

210

is flush with the outer surface of frame

202

as shown in FIG.

22

.

Security sleeve

200

functions by receiving item of recorded media

206

through the opening until item of recorded media

206

is fully inserted into frame

202

. Item of recorded media

206

is preferably stored in some type of storage container as is known in the art. Lower edge

222

of the storage container of item of recorded media

206

is positioned adjacent openings

220

when item

206

is fully inserted. Both locking members

204

are then moved from the unlocked position to the locked position. When moving from the unlocked to locked position, locking finger

214

is depressed by engaging frame

202

and snaps through opening

220

. Protrusion

212

is preferably configured so that locking finger

214

must be pushed through opening

220

with force. In the embodiment depicted in the drawings, finger

214

flexes frame

202

when being pushed through opening

220

. Once protrusion

212

is in the locked position, locking finger

214

springs outwardly to engage ledge

224

to prevent locking member

204

from returning to the unlocked position. Locking finger

214

is configured to prevent a shoplifter from reaching inside frame

202

and pushing upwardly on locking finger

214

and withdrawing locking member

204

from opening

220

. If a shoplifter pushes upwardly on locking finger

214

and protrusion

212

, second locking finger

216

engages ledge

226

to prevent locking member

204

from being withdrawn from opening

220

. When locking members

204

are in the locked position, item

206

cannot be removed from frame

202

and the user must cut or otherwise destroy a portion of frame

202

before removing item

206

. For example, the user may cut frame

202

along cut line

231

on both sides of frame

202

. Once cut in these areas, frame

202

may be forced open and item

206

may be removed.

Severing hinge

208

does not allow locking member

204

to be withdrawn from opening

220

. Locking member

204

is configured such that it cannot be pushed through opening

220

if hinge

208

is severed. The lower surfaces of opening

220

and protrusion

212

are angled to wedge protrusion

212

in opening

220

if hinge

208

is severed and protrusion

212

is pushed inwardly.

The fifth embodiment of the security sleeve is depicted in

FIGS. 23 and 24

and is indicated generally by the numeral

250

. Security sleeve

250

includes many of the same elements as security sleeve

200

and the same numbers are used to refer to these elements. Sleeve

250

differs from sleeve

200

because protrusion

212

includes only first locking finger

214

and does not have a second locking finger on its upper edge. The removal of the second locking finger allows protrusion

212

to be inserted into frame

202

easier because protrusion

212

presents less resistence.

The sixth embodiment of the security sleeve of the invention is indicated generally by the numeral

260

in

FIGS. 25 and 26

. Security sleeve

260

includes many of the same elements as security sleeve

200

and the same numbers are used to refer to these elements. In this embodiment, protrusion

212

includes a first locking finger

262

that extends upwardly and rearwardly from the inner end of protrusion

212

. Locking finger

262

is flexible so that it may be depressed when locking member

264

is pushed through opening

220

. Protrusion

212

includes a second locking finger

266

extending downwardly from protrusion

212

. In this embodiment, second locking finger

266

is smaller and less flexible than finger

262

. Locking fingers

262

and

266

engage ledges

224

and

226

when locking member

264

is in the locked position to prevent locking member

264

from being moved back to the unlocked position.

FIGS. 61 and 62

depict an alternative embodiment of frame

202

that may be applied to any of the relevant embodiments disclosed in this application. Frame

202

shown in

FIGS. 61 and 62

includes at least one shock absorbing notch

267

that allows the lower corners of frame

202

to crumple if a shoplifter slaps frame

202

against a hard surface in an attempt to break the corner of frame

202

or locking member

264

. Each notch

267

may extend around to the front and back of frame

202

as depicted in FIG.

61

. Each notch may extend substantially through the sidewalls of frame

202

as depicted in

FIG. 62

but shallower notches may also be used.

The seventh embodiment of the invention is depicted in

FIGS. 27 and 28

and is indicated generally by the numeral

270

. Security sleeve

270

includes many of the same elements as sleeve

200

and the same numbers are used to refer to these elements. The locking members

272

of security sleeve

270

include first and second

274

and

276

resilient locking fingers that each flex when locking member

272

is pushed through opening

220

.

Locking fingers

274

and

276

are independent of one another and extend from arm

210

at spaced apart locations. The protrusion of locking member

272

thus includes both locking fingers

274

and

276

.

The eighth embodiment of the security sleeve is indicated generally by the numeral

280

in

FIGS. 29-31

. In this embodiment, locking members

282

include four locking fingers

284

that are each disposed substantially perpendicular to one another. Each finger

284

is configured to fit through opening

220

when locking member

282

is moved from the unlocked position to the locked position. In an alternative configuration of this embodiment, three locking fingers

284

extend from protrusion

212

. The angle between fingers

284

may be varied without departing from the concepts of the invention.

The ninth embodiment of the invention is indicated generally by the numeral

290

in

FIGS. 32 and 33

. In this embodiment, each locking member

292

includes first and second locking fingers

294

and

296

that each extend rearwardly and outwardly from the end of protrusion

212

. Locking fingers

294

and

296

are designed to flex as locking member

292

is inserted through opening

220

. Locking finger

294

engages ledge

224

and locking finger

296

engages ledge

226

when locking member

292

is in the locked position.

Turning now to

FIG. 34

, the tenth embodiment of the security sleeve of the invention is indicated by the numeral

300

. Security sleeve

300

includes many of the same elements as sleeve

200

and the same numbers are used to refer to these elements. The locking members

302

of security sleeve

300

include first

304

and second

306

resilient locking fingers that each flex when locking member

302

is pushed through opening

220

. In this embodiment, fingers

304

and

306

are connected together at their inner ends and are connected to arm

210

at their outer ends. An opening

308

is defined by arms

304

and

306

. Opening

308

allows arms

304

and

306

to flex towards each other when protrusion

212

of locking member

302

is forced through opening

220

.

The eleventh embodiment of the invention is depicted in FIG.

35

and is indicated generally by the numeral

310

. Security sleeve

310

includes many of the same elements as sleeve

200

and the same numbers are used to refer to these elements. The locking members

312

of security sleeve

310

include first

314

and second

316

resilient locking fingers that each flex when locking member

312

is pushed through opening

320

. In this embodiment, first locking finger

314

is connected to arm

210

at its outer end. The inner end of first locking finger

314

is connected to the inner end of second locking finger

316

. The outer end of second locking finger

316

is cantilevered. Second locking finger

316

includes a ledge

318

that latches against ledge

224

when locking member

312

is in the locked position.

The twelfth embodiment of the invention is depicted in FIG.

36

and is indicated generally by the numeral

350

. Security sleeve

350

generally includes a frame

352

similar to frame

202

described above. Security sleeve

350

further includes a pair of locking members

354

. Each locking member

354

is movable between an unlocked position (the left side of

FIG. 36

) and a locked position (the right side of

FIG. 36

) to lock an item of recorded media

206

within frame

352

until frame

352

is at least partially destroyed.

Frame

352

is configured to surround five sides of item

206

. Frame

352

includes an insertion opening so that item

206

may be slid into the storage chamber defined by frame

352

. Each locking member

354

is positioned near the end of frame

352

where item

206

is inserted into the storage chamber of frame

352

. Each locking member

354

is hingedly connected to frame

352

with a hinge

358

. Hinge

358

may be a living hinge that is integrally formed with frame

352

or may be a separately-formed hinge that is attached to frame

352

after it is formed. Hinge

358

allows locking member

354

to pivot between the unlocked position and the locked position.

Each locking member

354

includes an arm

360

and a protrusion

362

. Each locking member

354

further includes a locking finger

364

configured to engage frame

352

in a one way snap connection to prevent protrusion

362

from being moved to the unlocked position after protrusion

362

has reached the unlocked position.

In the embodiment of the invention depicted in

FIG. 36

, arms

360

pivot about an axis that is substantially parallel to the insertion direction of item

206

. Each arm

360

is substantially equal to the thickness of frame

352

. Each protrusion

362

includes a curved wall

366

that allows protrusion

362

to be pivoted inwardly about the pivot defined by hinge

358

. The general radius of wall

366

is substantially equal to the distance between hinge

358

and the wall opposite hinge

358

so that protrusion

362

substantially fills the insertion opening of frame

352

when protrusion

362

is in the locked position. Each locking member

354

thus pivots in a plane substantially perpendicular to the insertion direction of item

206

. Once item

206

is fully inserted into frame

352

, each locking member

354

is pivoted inwardly until locking fingers

364

engage frame

352

to prevent locking members

354

from pivoting outwardly. Protrusions

362

may include locking fingers

364

on their upper and lower surfaces. Once locking members

354

are in the locked position, item

206

cannot be removed from frame

352

without at least partially destroying frame

352

.

The thirteenth embodiment of the invention is depicted in FIG.

37

and is indicated generally by the numeral

370

. Security sleeve

370

includes a frame

372

that is substantially similar to the other frames described above with respect to the other embodiments of the invention. Frame

372

is configured to slidingly receive item

206

until the bottom wall

222

of item

206

is positioned adjacent the openings

374

of frame

372

.

Security sleeve

370

includes a pair of locking members

376

that may be individually moved between the unlocked position (the left side of

FIG. 37

) and the locked position (the right side of FIG.

37

). Each locking member

376

includes an arm

378

that is hinged to frame

372

at its upper arm and its lower end by appropriate hinges

380

. Each arm

378

is longer than the space between hinges

380

such that arm

378

will bow outwardly when in the unlocked position and bow inwardly when in the locked position. Arm

378

is flexible enough to be forced through the smaller opening when the user moves arm

378

from the unlocked position to the locked position. Each arm

378

includes a locking finger

382

that extends inwardly and will catch on item

206

to prevent item

206

from being slid out past locking members

376

once locking members

376

are locked.

Hinges

380

are formed to prevent locking members

376

from being moved from the locked position back to the unlocked position. Once locked, security sleeve

370

must be at least partially destroyed before item

206

may be removed.

The fourteenth embodiment of the security sleeve is indicated generally by the numeral

390

in FIG.

38

. Security sleeve

390

is similar to security sleeve

370

and the same numbers are used to refer to similar elements. Security sleeve

390

includes a pair of locking members

392

that are each movable between the unlocked position and the locked position. Each locking member

392

includes a pair of arms

394

and

396

that are connected together and to frame

372

with a plurality of hinges

398

. The combined length of arms

394

and

396

is longer than the length of opening

374

such that arms

392

and

394

must be forced through opening

374

when locking member

392

is moved from the unlocked position to the locked position. Hinges

398

are configured to prevent locking member

392

from being snapped back from the locked position to the unlocked position. In the configuration depicted in

FIG. 38

, arm

394

is substantially perpendicular to the insertion direction of item

206

when locking member

392

is in the locked position.

The fifteenth embodiment of the security sleeve is indicated generally by the numeral

400

in FIG.

39

. Security sleeve

400

is similar to security sleeve

390

and similar numbers are referred to similar elements. Security sleeve

400

includes locking members

402

that are each moved between the unlocked position and the locked position to lock security sleeve

400

. Each locking member

402

includes a first arm

404

and a second arm

406

. Arms

404

and

406

are hinged to each other and to frame

372

by a plurality of appropriate hinges

408

. One of arms

404

and

406

includes a locking finger

410

configured to engage or be disposed adjacent bottom wall

222

of item

206

when locking member

402

is in the locked position. Hinges

408

are configured to prevent arms

404

and

406

from being moved from the locked position to the unlocked position.

In each of the above-described three embodiments, the hinges are configured to prevent the locking members from being forced outwardly through the openings in the frames. The configuration of the hinge includes the angles of the arms and frame immediately adjacent the hinges. These angles also allow the arms to abut against each other to provide a strong retaining force for item

206

.

The sixteenth embodiment of the invention is indicated generally by the numeral

420

in FIG.

40

. Security sleeve

420

includes a frame

422

that is similar to the other frames described above. As such, frame

422

defines a pair of openings

424

adjacent the insertion opening and adjacent the lower end

222

of item

206

when item

206

is fully inserted within frame

422

.

Security sleeve

420

includes a pair of locking members

426

that are each hingedly attached to frame

422

by an appropriate hinge

428

. Each locking member

426

includes an inwardly and upwardly extending locking finger

430

designed to engage item

206

when locking member

426

is in the locked position.

In this embodiment of the invention, the lower end

432

of the arm

434

of each locking member

426

is sized to engage the ledge

436

formed by frame

422

below opening

424

to prevent locking member

426

from being moved from the locked position to the unlocked position.

In this embodiment, item

206

is intended to be inserted into frame

422

immediately after frame

422

is removed from the mold that is used to form frame

422

. While frame

422

is relatively warm and flexible, item

206

is inserted into frame

422

and locking members

426

are forced through openings

424

. Frame

422

then cools and prevents locking members

426

from being removed back through openings

424

. This method of locking the security sleeve may be used with any of the embodiments described above or below. This method allows a secure locked arrangement to be created because the length of arm

434

is significantly longer than the length of opening

424

.

The seventeenth embodiment of the security sleeve is indicated generally by the numeral

440

in

FIGS. 41-44

. Security sleeve

440

includes a frame

442

similar to the frames described with respect to the other embodiments of the invention. Frame

442

is configured to receive item

206

in the same manner described above.

Security sleeve

440

includes a pair of locking members

444

that are each movable between the unlocked position depicted in

FIGS. 41 and 42

and the locked position depicted in

FIGS. 43 and 44

. Each locking member

444

includes an arm

446

that is hinged to frame

442

by a hinge

448

. In this embodiment, hinge

448

is disposed at the bottom of frame

442

and allows arm

446

to pivot up into the insertion opening of frame

442

.

Each locking member

444

further includes a protuberance

450

that fits within the insertion opening of frame

442

. Each protuberance

450

includes at least one lock finger

452

that engages an opening

454

defined by frame

442

. Lock fingers

452

are configured to engage frame

442

in a one way snap connection that prevents locking members

444

from being moved out of the locked position.

The eighteenth embodiment of the invention is indicated generally by the numeral

460

in FIG.

45

. Security sleeve

460

is similar to security sleeve

440

except that locking members

444

lock with frame

442

in a different manner than in sleeve

440

. In sleeve

460

, each arm

446

includes a male locking member

462

that snap fits into a female opening

464

formed in frame

442

. In another embodiment, male and female locking members

462

and

464

are reversed.

The nineteenth embodiment of the security sleeve is indicated generally by the numeral

470

in FIG.

46

. Security sleeve

470

is similar to the seventeenth and eighteenth embodiments of the invention described above. In the nineteenth embodiment, frame

442

defines four openings

472

in the front and back walls of frame

442

adjacent bottom wall

222

of item

206

. Each locking member

474

includes a pair of locking fingers

476

that snap fit into openings

472

when locking members

474

are moved to the locked position.

The twentieth embodiment of the security sleeve of the present invention is indicated generally by the numeral

490

in

FIGS. 47-49

. Security sleeve

490

generally includes a frame

492

configured to surround item

206

as described above. The insertion opening of frame

492

is locked in this embodiment of the invention with a cap

494

that performs the function of the locking members. Cap

494

is connected to one wall of frame

492

with an appropriate hinge

496

. Cap

494

is movable between the unlocked position depicted in

FIGS. 47 and 48

and the locked position depicted in FIG.

49

. When cap

494

reaches the locked position of

FIG. 49

, at least one locking finger

498

engages an opening

500

defined by frame

492

. Locking finger

498

is received in opening

500

in a one-way snap fit connection that prevents cap

494

from being moved back to the unlocked position. Opening

500

may be disposed in the wall of frame

492

opposite hinge

496

or a plurality of openings

500

may be disposed about frame

492

with a plurality of fingers

498

engaging openings

500

. In the embodiment of the invention depicted in

FIGS. 47-49

, openings

500

are disposed at the corners of frame

492

and fingers

498

are disposed at the corresponding corners of cap

494

.

Cap

494

includes a plurality of inwardly disposed locking fingers

502

. Locking fingers

502

extend into the insertion opening of frame

492

and prevent item

206

from being removed from frame

492

after cap

494

is in the locked position as depicted in FIG.

49

. Locking fingers

502

are preferably angled inwardly and upwardly towards item

206

from the lower end of cap

494

. Fingers

502

are sufficiently rigid to prevent a potential shoplifter from prying fingers

502

outwardly or breaking them off. In the embodiment of the invention depicted in the drawings, each locking finger

502

extends substantially the entire length of its corresponding cap

494

sidewall. The edges of each finger

502

are angled so that fingers

502

fit together without interfering with one another.

The twenty-first embodiment of the security sleeve of the present invention is indicated generally by the numeral

510

in

FIGS. 50-52

. Security sleeve

510

includes a frame

512

similar to the frames described above with respect to the other embodiments of the invention. Frame

512

defines openings

514

positioned below the fully inserted position of bottom wall

222

of item

206

. Openings

514

may be stepped as depicted in the drawings in some embodiments of the invention.

Security sleeve

510

includes at least one locking member

516

that includes a male locking member

518

and a female locking member

520

that fit together in the locked position (

FIG. 52

) to lock item

206

in frame

512

. Each locking member

518

and

520

is connected to frame

512

by an appropriate hinge

522

so that each member

518

and

520

may pivot between an unlocked position (

FIG. 50

) and a locked position (FIG.

52

).

Male locking member

518

includes at least one locking finger

524

configured to be lockingly received in a one way snap fit connection with an opening

526

defined by female locking member

520

. In this embodiment, female locking member

520

includes a longitudinal opening

528

that receives locking finger

524

.

The twenty-second embodiment of the security sleeve is depicted in

FIGS. 53-55

and is indicated generally by the numeral

540

. Security sleeve

540

is similar to security sleeve

510

except that locking member

542

having a male locking member

544

and a female locking member

546

is not hingedly connected to frame

548

. Locking member

542

passes through openings

550

defined by frame

548

. In the locked position depicted in

FIG. 55

, locking member

542

prevents item

206

from being removed from frame

548

. A shoplifter cannot remove locking member

542

because male locking member

544

includes a locking finger

552

that is received in a one way snap fit connection in an opening

554

defined by female locking member

546

. Security sleeve

540

may use a single or a plurality of locking members

542

disposed across the insertion opening of frame

548

.

The twenty-third embodiment of the security sleeve is indicated generally by the numeral

560

in

FIGS. 56 and 57

. Security sleeve

560

includes a frame

562

similar to the other frames described in this application. Frame

562

includes an insertion opening

564

wherein item

206

may be inserted into frame

562

in a manner that prevents item

206

from being removed without destroying a portion of frame

562

. In this embodiment, the locking members are at least one locking finger

566

that is integrally formed in frame

562

. Locking finger

566

includes an angled insertion wall

568

and a ledge wall

570

that prevents item

206

from being moved out of frame

562

. Each locking finger

566

is configured to allow item

206

to be forced through fingers

566

based on the resiliency and flexibility of the material that forms frame

562

. Each ledge

570

is configured to prevent item

206

from being removed without destroying a portion of frame

562

.

The twenty-fourth embodiment of the security sleeve is indicated generally by the numeral

580

in FIG.

58

. Security sleeve

580

includes a frame

582

similar to the other frames described in the specification. Frame

582

defines a pair of openings

584

adjacent the insertion opening

586

of frame

582

.

Security sleeve

580

includes at least one locking mechanism

588

that is configured to be received in opening

584

in a one way snap connection to allow locking member

588

to be inserted into frame

582

while preventing locking member

588

from being removed from frame

582

. Locking member

588

thus includes at least one locking finger

590

that is angled to allow locking member

588

to be inserted through opening

584

while engaging the ledge

592

formed by frame

582

immediately adjacent opening

584

. Each locking member

588

is configured to block enough of insertion opening

586

to prevent item

206

from being removed from frame

582

without destroying a portion of frame

582

.

The twenty-fifth embodiment of the security sleeve is indicated generally by the numeral

600

in FIG.

59

. Security sleeve

600

includes a frame

602

similar to the other frames described in the specification. Frame

602

defines an insertion opening

604

where item

206

may be inserted into frame

602

. At least one portion of frame

602

adjacent insertion opening

604

includes a first portion

606

of a locking member

608

. In the embodiment depicted in

FIG. 59

, first portion

606

is in the form of a plurality of male locking fingers configured to be received in a one way snap fit connection in a second locking member portion

610

that includes a female opening

612

having corresponding locking fingers. Second locking member portion

610

includes a protrusion

614

that extends out into insertion opening

604

to prevent item

206

from being removed from frame

602

. Locking member

608

may be formed on the ends of frame

602

as depicted in

FIG. 59

or on the sidewalls intermediate at the ends.

The twenty-sixth embodiment of the security sleeve is indicated generally by the numeral

620

in FIG.

60

. Security sleeve

620

includes a frame

622

similar to the other frames described from this application. Frame

622

defines an insertion opening

624

where item

206

may be inserted into frame

622

.

Security sleeve

620

includes at least one locking member

626

that may be moved from an unlocked position (the left side of

FIG. 60

) to a locked position (the right side of FIG.

60

). Each locking member

626

includes a first arm

628

and a second arm

630

. Each arm

628

and

630

is connected to frame

622

by an appropriate hinge

632

. Arm

628

includes a female lock opening while arm

630

includes a male lock finger. Lock member

626

is moved from the unlocked position to the locked position by pivoting arm

628

down and inwardly towards an opening

634

defined by frame

622

. Arm

630

is then pivoted upwardly and outwardly until the male locking finger of arm

630

engages the female lock opening of arm

628

to lock arms

628

and

630

together in the locked position as depicted on the right side of FIG.

60

. Each arm

630

includes a protrusion

636

that prevents item

206

from being removed from frame

622

.

In each of the embodiments of the invention described above, the frames included a single insertion opening where item

206

was inserted into the frame. The inventors also contemplate a sleeve having a pair of openings with lock members disposed at each opening so that item

206

may be inserted into either opening. A lock member that is used with the openings may be the same or different depending on the application for the invention. The lock members of these embodiments may be combined together to cooperate to hold item

206

within the frame. Further, different numbers of lock members may be used without departing from the concepts of the invention. In most cases, pairs of lock members are used on the end walls. The inventors contemplate that a single lock member may be used to provide a secure frame with the single lock member being disposed on any of the walls of the frame. The inventors further contemplate that three, four, five, six, or more lock members may be used to lock item

206

within the frame.

Accordingly, the improved security sleeve for recorded media storage containers apparatus is simplified, provides an effective, safe, inexpensive, and efficient device which achieves all the enumerated objectives, provides for eliminating difficulties encountered with prior devices, and solves problems and obtains new results in the art.

In the foregoing description, certain terms have been used for brevity, clearness, and understanding; but no unnecessary limitations are to be implied therefrom beyond the requirement of the prior art, because such terms are used for descriptive purposes and are intended to be broadly construed.

Moreover, the description and illustration of the invention is by way of example, and the scope of the invention is not limited to the exact details shown or described.

Having now described the features, discoveries, and principles of the invention, the manner in which the security sleeve for recorded media storage containers is constructed and used, the characteristics of the construction, and the advantageous new and useful results obtained; the new and useful structures, devices, elements, arrangements, parts, and combinations are set forth in the appended claims.

Number	Name	Date	Kind
4381836	Rivkin et al.	May 1983	A
4718547	MacTavish	Jan 1988	A
4782977	Watanabe et al.	Nov 1988	A
4881645	Smiler et al.	Nov 1989	A
5147034	Broadhead et al.	Sep 1992	A
5454932	Tardif et al.	Oct 1995	A
5882052	Whitehead	Mar 1999	A

	Number	Date	Country
	60/196828	Apr 2000	US
	60/239336	Oct 2000	US

	Number	Date	Country
Parent	09/833366	Apr 2001	US
Child	10/357003		US

Security sleeve for recorded media storage containers

Information

Patent Number

Date Filed

Date Issued

Inventors

Original Assignees

Examiners

Agents

CPC

US Classifications

Field of Search

US

International Classifications

Abstract

Description

Claims

CROSS REFERENCE TO RELATED APPLICATIONS

US Referenced Citations (7)

Provisional Applications (2)

Continuations (1)