CN101103168B - Security device for constraining an article having an elongate element - Google Patents

Abstract

Systems and apparatus for a security device for an article having a constrained elongate member are disclosed.

Description

Be used to retrain the safety device of article with elongated member

The exercise question that the application has required on December 7th, 2004 to submit to is that the U.S. Provisional Patent Application sequence number No.60/633813 of " Improved EAS Security Tags " and the exercise question of submission on May 23rd, 2005 are the priority of the U.S. Provisional Patent Application sequence number No.60/683657 of " Improved EAS Security Tags ".

Technical field

Specified this international application of the U.S. relevant with the following application of having specified the U.S.:

(1)“Magnetically?Actuable?Locking?Mechanism?And?Associated?Security?Device”；

(2)“Optical?Disc?Security?Device?Having?A?Magnetically?Actuable?Locking?Mechnism”；

(3) " Security Device Having A Cable "; With

(4)“Security?Device?For?A?Bottle”。

These related applications submit to jointly with it and it here is cited as a reference in full.

Background technology

The design of safety label system is used for preventing from controlled area, article being taken out without permission.For example, typical electronic article surveillance (EAS) system can comprise surveillance and one or more safety label.Surveillance can form monitor area in the turnover position of controlled area.Can safety label be encapsulated in and be fixed on for example hard goods goods for example in the safety device on sports equipment, glasses, jewelry, the bottle etc. of institute's monitored item.If the article of being kept watch on get into monitor area, then trigger alarm and take out with the indication unauthorized.

This safety device can be fixed on many different article.This safety device allows to take out article through authorizing ideally, makes simultaneously and takes out difficulty relatively without permission.Therefore, improvement technology that usually need be in safety device especially need be used for safety device is fixed on the system on the article.

Summary of the invention

The invention provides following technical scheme:

A kind of safety device that is used to have the article of slender member, this device comprises:

The magnetic actuation retaining mechanism, said magnetic actuation retaining mechanism comprises magnetic actuation breech lock, flexible member and breech lock co-operating member;

Safety label; And

Shell, it comprises:

Be used for fixing said slender member the tunnel, be fixed on safety label and magnetic actuation retaining mechanism on the said shell;

Bottom enclosure, wherein said safety label and said magnetic actuation retaining mechanism are arranged in the said bottom enclosure;

Be arranged on the handle assembly on the said bottom enclosure, said handle assembly and bottom enclosure define said tunnel;

It is characterized in that: said handle assembly comprises slide rail, and said slide rail slides said handle assembly and links to each other with said bottom enclosure, and said slide rail comprises the breech lock co-operating member.

The present invention also provides a kind of safety device system that is used for slender member, and it comprises: above-mentioned safety device; And being used for eliminator with said safety device release, said eliminator comprises magnet.

Description of drawings

In the summary part of this manual, specifically note and explicitly call for and protected the theme that is taken as embodiment.But, can come to understand best through reading accompanying drawing simultaneously to the two these embodiment of structure and method of operating with reference to following detail specifications, wherein:

Fig. 1 demonstrates according to the safety device of an embodiment and the ingredient of system;

Figure 1A demonstrates the phantom drawing according to the eliminator of an embodiment;

Figure 1B demonstrates the vertical view according to the eliminator of an embodiment;

Fig. 1 C demonstrates the front view according to the eliminator of an embodiment;

Fig. 1 D demonstrates the lateral view according to the eliminator of an embodiment;

Fig. 1 E demonstrates the phantom drawing of a part that is configured for disposable safety device;

Fig. 1 F demonstrates the vertical view of a part that is configured for disposable safety device;

Fig. 1 G demonstrates the phantom drawing of the part of the safety device that is configured for resetting;

Fig. 1 H demonstrates the phantom drawing of a part that is configured for disposable safety device;

Fig. 1 I demonstrates the vertical view of a part that is configured for disposable safety device;

Fig. 1 J demonstrates the front view of a part that is configured for disposable safety device;

Fig. 2 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Fig. 3 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Fig. 4 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Fig. 5 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Fig. 6 demonstrates the vertical view according to the CEM safety device of an embodiment;

Fig. 7 demonstrates the front view according to the CEM safety device of an embodiment;

Fig. 8 demonstrates the lateral view according to the CEM safety device of an embodiment;

Fig. 9 demonstrates the decomposition view according to the CEM safety device of an embodiment;

Figure 10 demonstrates the phantom drawing according to retaining mechanism part, bottom enclosure and the top enclosure of the CEM safety device of an embodiment;

Figure 11 demonstrates the phantom drawing according to retaining mechanism, top enclosure, bottom enclosure and the handle assembly of the CEM safety device of an embodiment;

Figure 12 demonstrates the vertical view according to retaining mechanism, top enclosure, bottom enclosure and the handle assembly of the CEM safety device of an embodiment;

Figure 13 demonstrates the lateral view according to retaining mechanism, top enclosure, bottom enclosure and the handle assembly of the CEM safety device of an embodiment;

Figure 14 demonstrates the phantom drawing according to the lower component of the handle assembly of the CEM safety device of an embodiment;

Figure 15 demonstrates the phantom drawing according to the top assembly of the handle assembly of the CEM safety device of an embodiment;

Figure 16 demonstrates the decomposition view according to the CEM safety device of an embodiment;

Figure 17 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 18 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 19 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 20 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 21 demonstrates the vertical view according to the CEM safety device of an embodiment;

Figure 22 demonstrates the front view according to the CEM safety device of an embodiment;

Figure 23 demonstrates the lateral view according to the CEM safety device of an embodiment;

Figure 24 demonstrates the decomposition view according to the CEM safety device of an embodiment;

Figure 25 demonstrates the phantom drawing according to retaining mechanism part, bottom enclosure and the safety label of the CEM safety device of an embodiment;

Figure 26 demonstrates the phantom drawing of retaining mechanism part, bottom enclosure and safety label lid according to the CEM safety device of an embodiment;

Figure 27 demonstrates the phantom drawing according to the handle assembly of an embodiment;

Figure 28 demonstrates the phantom drawing according to the retaining mechanism of the CEM safety device of an embodiment, bottom enclosure, safety label lid and handle assembly;

Figure 29 demonstrates the vertical view according to the retaining mechanism of the CEM safety device of an embodiment, bottom enclosure, safety label lid and handle assembly;

Figure 30 demonstrates the lateral view according to the retaining mechanism of the CEM safety device of an embodiment, bottom enclosure, safety label lid and handle assembly;

Figure 31 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 32 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 33 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 34 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 35 demonstrates the phantom drawing according to the CEM safety device of an embodiment;

Figure 36 demonstrates the vertical view according to the CEM safety device of an embodiment;

Figure 37 demonstrates the front view according to the CEM safety device of an embodiment;

Figure 38 demonstrates the lateral view according to the CEM safety device of an embodiment;

Figure 39 demonstrates the vertical view according to the CEM safety device of an embodiment;

Figure 40 demonstrates the front view according to the CEM safety device of an embodiment;

Figure 41 demonstrates the lateral view according to the CEM safety device of an embodiment; And

Figure 42 demonstrates the decomposition view according to the CEM safety device of an embodiment.

The specific embodiment

Embodiment can relate to and the equipment, the system and method that match of a pair of glasses for example of the article with safety label.

For example, an embodiment can comprise the safety device that is made up of retaining mechanism, safety label and shell.Retaining mechanism can comprise the breech lock of magnetic actuation, with the magnetic actuation breech lock towards the flexible member of locked position bias voltage and the breech lock co-operating member that in locked position, cooperates with at least a portion of magnetic actuation breech lock.As used herein the same, " locked position " can refer to such position of magnetic actuation breech lock, and it partially or completely is positioned at the hole of breech lock co-operating member in this position, engages, is attached thereto or otherwise cooperate with it.Shell can be for being configured to retaining mechanism, safety label, breech lock co-operating member and article section or holding fully, surround or otherwise be fixed on the shell.Fixedly the time, the magnetic actuation of retaining mechanism is latched in and can cooperates with the breech lock co-operating member in the locked position with the pinning shell, and therefore will be fixed on the article with the safety label that shell is fixed together.When pinning shell, safety device can prevent that the attempt that shell and article are separated from perhaps providing obstruction to this attempt.Another embodiment can comprise the security system that is made up of this safety device and eliminator, and it can be for comprising the device of magnet.Can adopt this eliminator to force the magnetic actuation breech lock to leave locked position with the shell release through mode with magnetic.

It is worthy of note that any reference in being directed against the explanation of " embodiment " or " embodiment " refers to and is included in the special characteristic described in this embodiment, structure or characteristic at least one embodiment.The phrase " in one embodiment " that appears in the various piece in this manual needn't all refer to identical embodiment.。

Can provide many details here the complete understanding to these embodiment is provided.But it being understood that in the situation that does not have these details, those of ordinary skills also can implement these embodiment.In other situation, also do not specify known method, program and parts so that can not make that these embodiment are unclear.It is understandable that concrete structure that is disclosed and function detail can be representational here, and needn't limit the scope of these embodiment.

Now in detail with reference to these accompanying drawings, wherein identical part represented by identical reference number, in Fig. 1, demonstrates the front view that can be included in according to the building block in the security system 1 of an embodiment and the safety device 2.In this embodiment, security system 1 comprises safety device 2 and eliminator 40.Safety device 2 can comprise retaining mechanism 10, safety label 20 and shell 30.

Retaining mechanism 10 can be the retaining mechanism of magnetic actuation, and can comprise magnetic actuation breech lock 12, flexible member 16 and breech lock co-operating member 18.

Magnetic actuation breech lock 12 can comprise: bottom 13, and it can comprise bottom end 13A and side 13B and 13C; Latch portion 14, it can comprise latch portion end 14A; And middle body 15.

Magnetic actuation breech lock 12 can have the surface that is essentially rectangle, thereby bottom 13 has the width identical with middle body with latch portion 14.Therefore, the width of bottom 13 or the distance between side 13B and 13C can be identical with the respective widths of latch portion 14 and middle body 15.In other embodiments, the width of bottom 13, latch portion 14 and middle body 15 can be different.Magnetic actuation breech lock 12 can have elongated uniform cross-sectional area.

But magnetic actuation breech lock 12 can constitute as requested, and can comprise one or more parts, and can be about arbitrfary point, straight line or plane symmetry or asymmetric.For example; In each embodiment; Magnetic actuation breech lock 12 can constitute have " T ", " I ", crooked or other shape face; And have rectangle, circle, thick, hollow or hole and/or non-homogeneous cross section, perhaps as shown in the same and/or said the same to magnetic actuation breech lock 112,512 with 712 as here.In another embodiment; The latch portion end 14A of magnetic actuation breech lock 12 can comprise one or more teeth, rib, groove, jag, tip, bend, hole or other shape; For example here reference magnetic actuated latch 112,512 and 712 embodiment described those, bottom end 13A can be smooth or other shape simultaneously.In addition, bottom end 13A can be for continuous or discrete.Magnetic actuation breech lock 12 can so constitute, and makes its at least a portion, and for example latch portion 14, can engage, hold, is inserted into or otherwise cooperate with described breech lock co-operating member 18 here.

In one embodiment, safety device 2 comprises a plurality of magnetic actuation breech locks 12, and they can each all be arranged in the identical or different part of safety device 2 with breech lock co-operating member 18 with another flexible member 16.For example, in one embodiment, a plurality of magnetic actuation breech lock 12 each can with another partial cooperation of safety device 2 to pin that part, the for example fixedly part of article or the fixedly part of safety label 20.

Magnetic actuation breech lock 12 can comprise magnetic material, and for example the alloy of iron, nickel or cobalt or iron, nickel or cobalt perhaps can be formed by them.In one embodiment, magnetic actuation breech lock 12 comprises one or more magnetic materials, and can comprise one or more nonmagnetic substances.

Flexible member 16 moulding on request for example forms like described cube here, ellipse, coil shape or other shape arbitrarily, and can comprise one or more parts, perhaps can combine with magnetic actuation breech lock 12 or form as one with it.In one embodiment, flexible member 16 can be shaped to cantilever, for example the sheet spring.Flexible member 16 can comprise flexible material; For example lightweight, porous, semi-rigid, elasticity, fill air and/or sponge material or can form by them, these materials can provide resistance and can when removing pressure, partially or completely recover its not shape by compression when pressurized.For example, in each embodiment, flexible member 16 can comprise foam rubber, polymeric foam, ceramic foam or other foam; Rubber; And/or another kind of material or multiple material or form by them.Flexible member 16 can also or constitute alternatively resistance is provided when pressurized.For example, in each embodiment, flexible member 16 can constitute coil, sheet spring or other cantilever or other spring or other similar component, and it is made up of metal, polymer, pottery and/or another kind of material or multiple material.Flexible member 16 can have multiple arbitrarily material.

Breech lock co-operating member 18 can constitute on request, for example has one or more holes or empty nest, rib, tooth, projection or other shape.Breech lock co-operating member 18 can comprise one or more parts, and can open in 30 minutes with shell or integrally formed, and is for example said here the same.Breech lock co-operating member 18 can constitute joint, hold, is inserted at least a portion of magnetic actuation breech lock 12, perhaps otherwise cooperates with it.For example; In magnetic actuation breech lock 12 embodiment for slender member with square surface shape; Breech lock co-operating member 18 can constitute is free nest, in this sky nest, can latch portion 14 or its part of magnetic actuation breech lock 12 be inserted in the locked position, as here said.Have among the embodiment of tooth at its 14A place, latch portion end at magnetic actuation breech lock 12, breech lock co-operating member 18 can constitute and be used for the rib of in locked position soldered tooth.

But safety label 20 can be any checkout gear or system, for example any safety label or label.For example, in each embodiment, safety label 20 can detect in antitheft or other label any for eas tag (for example radio frequency (RF) label, audio magnetic label and/or its combination), radio frequency identification (RFID) label, intelligent label or other.Safety label 20 can for example sound magnetic detector, electromagnetic detector, rf detector or other detector detect through corresponding detecting system or device according to the type of safety label or label.

Shell 30; The same shown in part in the embodiment in figure 1; Can be any or other structure; This structure division or all hold and/or surround, encapsulate, fixing retaining mechanism 10 and safety label 20 or interlocking or otherwise fixing with it, and when retaining mechanism 10 is in the locked position and pins shell thus, fixing article.Therefore shell 30 can be cooperated with retaining mechanism 10, so that article are fixed or are locked on the shell 30, and therefore is fixed on safety device 2.Shell 30 can constitute on request, and can come moulding according to retaining mechanism 10, safety label 20 and its article that are used to protect that design, and is for example said the same with 730 embodiment with reference to shell 330,530 here.Shell 30 can comprise breech lock co-operating member 18, and it can form as one with shell 30.Shell 30 can constitute and 18 pairings of breech lock co-operating member alternatively.Shell 30 can be made up of polymer and/or another kind of material or multiple material.

Building block included in safety device 2 can so constitute, and makes safety device 2 can belong on the article, and is for example described the same with reference to following safety device embodiment.Safety label 2 can be reused maybe can be used for disposable use.

Figure 1A-1D demonstrates the phantom drawing at the eliminator shown in Fig. 1 40, vertical view, front view and the lateral view according to an embodiment.Eliminator 40 can be for comprising and accommodate the device of magnet 42.This magnet 42 can be the magnet of any type, for example permanent magnet or electromagnet.For security system 1, safety device 2 can adopt eliminator 40 that safety device 3 is broken away from from article.Eliminator 40 can suitably be arranged near the magnetic actuation breech lock 12 of safety device 2 so that force magnetic actuation breech lock 12 to leave locked position with the mode of magnetic, so allows the shell 30 of safety device 2 to break away from from the article that it is locked above that.

In each embodiment, eliminator 40 can comprise different magnet 42.For example, the magnet 42 of eliminator 40 can be selected according to making 12 motions of magnetic actuation breech lock leave the required magnetic force of position latching, therefore with safety device 2 releases.This magnetic force need be bigger than the power that overcomes with this reverse movement.Frictional force and other power that these opposite forces for example can comprise the restraint forces that when receiving magnetic actuation breech lock 12 compression, provided by flexible member 16, produced by the magnetic actuation breech lock 12 that is during movement contacting shell 30 and/or another element.In another embodiment, eliminator 40 is being used under the situation on the various safety devices with different structure, can select enough by force needs kicker magnet to come the magnet 42 of the safety device of release with release.

In one embodiment, safety device 2 can be configured for disposable use.For example, in an embodiment shown in Fig. 1 E-F, the magnetic actuation breech lock 12 of safety device 2 can be arranged in the passage 3 in locked position, to match with breech lock co-operating member 18.One or more springs or other cantilever for example cantilever 4 and 5 are arranged in the passage 3 with spring-loading structure.

For example, cantilever 4 can have the unloading position shown in Fig. 1 E.Therefore cantilever 4 can be bent to its side 4A near conduit wall 3A and receive spring-loading position.Can magnetic actuation breech lock 12 be arranged in the passage 3 at locked position place then, thereby prevent cantilever 4 motions and keep its elastic load near its opposite side 4B.Cantilever 5 can be provided with similarly.Through eliminator 40 12 motions of magnetic actuation breech lock are left under the situation of locked position then, cantilever 4 and 5 no longer receives the constraint of magnetic actuation breech lock 12, and can resilience perhaps otherwise turn back to its unloading position.Can stop that bottom 13 motions of magnetic actuation breech lock 12 cross under their situation thereby in these positions, extend in the passage 3 them at cantilever 4 and 5, magnetic actuation breech lock 12 can not turn back to locked position.Therefore, appended safety device no longer can be locked arbitrarily.

In another embodiment, just comprise in cantilever 4 and 5 one.In each other embodiment, in other part of passage 3 or shell, can adopt other flexible member for example disc spring or other spring, rubber and foam, use twice to prevent appended safety device.

In another embodiment shown in Fig. 1 G-1J; Retaining mechanism part and housing parts can so constitute; Thereby after locked position was left in the each motion of magnetic actuation breech lock 12, need magnetic actuation breech lock 12 be reset was reset in the locked position enabling.For example, magnetic actuation breech lock 12 can be arranged in the passage 6 under the situation of its bottom 13A near recess 7.Recess 7 can so constitute, thereby magnetic actuation breech lock 12 bias voltages are being left under the situation of locked position, and at least one part in the magnetic actuation breech lock 12 falls into or otherwise be pressed into recess 7.This recess can be limited by wall 8, and this wall can limit the motion that magnetic actuation breech lock 12 returns locked position.In this embodiment, the safety device that wherein is provided with magnetic actuation breech lock 12 can come " replacement " so that use through the magnet that employing makes 12 motions of magnetic actuation breech lock leave recess.

In another embodiment, for example can comprise retaining mechanism 310, safety label and shell 330 with reference to the safety device 302 of the described slender member that is tied of Fig. 2-16 (CEM).As used herein, " slender member is tied " or " CEM " are the structure that comprises elongated member, when this elongated member is extending through the tunnel like described erecting device here, suffer restraints and can not from the tunnel, take out." tunnel " can be any hole, pipeline, duct or other hole, and extends fully through structure and be elongated form in certain embodiments.Being tied slender member can be by the extended part constraint of the arbitrary end from the slender member that is tied of article; And its shape of these parts, size, angle etc. are so set, thereby they can stop or otherwise prevent to attempt the slender member that is tied taken out from the tunnel perhaps and for it resistance are provided.

For example, article with the slender member that is tied can be a pair of glasses, and its slender member that is tied can be one near-end in its leg of spectacles.Leg of spectacles can be the part of a pair of glasses, and it comprises near-end shank and far-end shank.The near-end shank can extend to the far-end shank from spectacle frame, and the far-end shank can further tilt from the near-end shank and extend (for example through crooked) and can constitute near the ear that is coupled to the wearer.Extend through at the near-end shank under the situation in tunnel, the far-end shank can prevent through its angle with respect to the near-end shank or hinder and attempt far-end shank pulling is passed through tunnel and from the tunnel of safety device, glasses taken out thus.

In another embodiment, there is not the slender member (for example any in some necklace or the bangle) of end (for example annular) can be the slender member that is tied, because it does not have the end from the tunnel, to skid off or pulls out.

The slender member safety device that is tied can be enclosed in the slender member that is tied in its tunnel, and thus safety device is locked on the tunnel.

Fig. 2-5 demonstrates each phantom drawing according to the CEM safety device 302 of an embodiment, and can refer to the place of wherein having described its respective element.CEM safety device 302 in this embodiment comprises shell 330, and shell 330 can comprise various piece for example described below, for example bottom enclosure 350, top enclosure 370, retaining mechanism lid 380 and handle assembly 390.Each part can comprise one or more materials such as plastics and metal, and these parts can comprise identical or different material or its combination.

Fig. 6-8 demonstrates vertical view, front view and the lateral view according to the CEM safety device 302 of an embodiment respectively.As shown in this embodiment, shell 330 and therefore CEM safety device 302 can have outer surface of cupular part 332, outer surface of cupular part 332 at least part for rectangle but have bandy side 334, like what from the vertical view of Fig. 2, seen.Outer surface of cupular part 332 can comprise one or more bossing described below, handle 432 and 434.Shell 330 can have elongated thickness, and this thickness is maximum near handle 432 and 434.In one embodiment, shell 330 has such external dimensions, thereby outer surface of cupular part 332 has general lateral size S3 and the S4 that is respectively 42mm and 28.36mm, and shell 330 can have roughly thickness T 1 and the T2 that is respectively 13.14mm and 5.36mm.But, in each embodiment, shell 330 with and its specification of each ingredient and size can set as requested, for example described with reference to the shell 30 of Fig. 1 embodiment.Shell 330 as described here can be configured to fixedly shank or other CEM of safety label and a pair of glasses, and so for example described below can CEM safety device 302 being locked on the CEM.

Fig. 9 demonstrates the decomposition view of CEM safety device 302, demonstrates according to an embodiment and can be included in element together with it.This accompanying drawing can represent to have described the place of its respective element.

Figure 10-13 demonstrates phantom drawing, phantom drawing, vertical view and the lateral view according to the retaining mechanism 310 of the CEM safety device 302 of an embodiment or its part, bottom enclosure 350 and top enclosure 370 respectively.

With reference to Figure 10-13, retaining mechanism 310 can comprise magnetic actuation breech lock 312 or its part, flexible member 316 and breech lock co-operating member 318.Magnetic actuation breech lock 312 can comprise magnetic material, and can comprise like magnetic actuation breech lock 12 described one or more materials with reference to Fig. 1.Magnetic actuation breech lock 312 can comprise: bottom 313, and it can comprise bottom end 313A and bottom sides 313B and 313C; Latch portion 314, it can comprise latch portion end 314A; And middle body 315.

Magnetic actuation breech lock 312 can form " T " shape.Therefore, bottom sides 313B and 313C can be parallel, and each at least can be straight basically, and the width of bottom 313, i.e. distance between bottom sides 313B and 313C can be wideer than other width of magnetic actuation breech lock 312.Bottom end 313A can be smooth, and can with bottom sides 313B and 313C perpendicular.Magnetic actuation breech lock 312 can constitute and has very thin thickness.But magnetic actuation breech lock 312 can constitute according to alternate manner in other embodiments, for example here with reference to said the same at the magnetic actuation breech lock shown in Fig. 1.

Flexible member 316 can be constituted or formed by flexible material, and can comprise as here with reference at 16 described a kind of material or the multiple materials of the flexible member shown in Fig. 1.In one embodiment, flexible member 316 can constitute and has cubic shaped basically, thereby its side 316A is wideer than its side 316B, perhaps can have another kind of shape.In each other embodiment, it is described that flexible member 316 can be configured to disc spring or other spring or the similar component of the magnetic actuation breech lock 12 of Fig. 1 for example, and comprise one or more materials.

Breech lock co-operating member 318 can with as below described shell 330 or its part form as one, and can be included in the recess in the handle assembly 390, perhaps can be separate part or a plurality of separate part.

The bottom enclosure 350 of shell 330 can so constitute, thereby the magnetic actuation breech lock of retaining mechanism 310 312 can adjacently be arranged on wherein with flexible member 316.Therefore, the bottom end 313A of magnetic actuation breech lock 312 can be arranged near the flexible member 316 or adjacency with it.Adopt this structure, can be on one or more directions with the limit movement of magnetic actuation breech lock 312 and flexible member 316.

For example, bottom enclosure 350 can comprise passage end wall 365, conduit wall 366 and 368 and the passage 364 that limited and defined by passage end wall 365 conduit wall 366 and 368. Conduit wall 366 and 368 can comprise substantially parallel part each other; And can be set to respectively at bottom sides 313B and 313C place and at central latch portion 315 and 314 place, side near magnetic actuation breech lock 312 or contact with it; Thus with the limit movement of magnetic actuation breech lock 312 for along the moving of passage 364, this can be the motion on the substantial linear direction.

In each other embodiment, magnetic actuation breech lock 312 can along the rotation, rotation/linear direction combination or arbitrarily other one or more directions move.In these various other embodiment, one or more in passage 364, flexible member 316 and the breech lock co-operating member 318 can formation or moulding or are otherwise constituted along this direction or these directions guiding magnetic actuation breech lock 312.Magnetic actuation breech lock 512 described below and 712 also can move along this direction or these directions in each embodiment.

Flexible member 316 can be provided with near conduit wall 365; Thereby forcing magnetic actuation breech lock 312 to leave position latching and be pressed against under the situation on the flexible member 316, flexible member 316 can be in the power of magnetic actuation breech lock 312 and the drag effect lower compression of passage end wall 365.Flexible member 316 provides resistance can for this compression, thus this motion of opposing magnetic actuation breech lock 312.

As stated; In each embodiment; Magnetic actuation breech lock 312 can constitute and has another kind of shape, in this situation passage 364 and therefore conduit wall 366 and 368 can constitute and hold this magnetic actuation breech lock 312 and can limit magnetic actuation breech lock 312 moving along one or more directions.In in these embodiment each, flexible member 316 can constitute and be assemblied in the passage 364.

The bottom enclosure 350 of shell 330 can in addition or be chosen wantonly to constitute and hold top enclosure 370, retaining mechanism lid 380, handle assembly 390 and CEM.In one embodiment, bottom enclosure 350 can comprise top enclosure receiving unit 351, retaining mechanism lid receiving unit 352, handle assembly receiving unit 353 and CEM tunnel wall 362.

Top enclosure receiving unit 351 can comprise the top enclosure receiver wall 351A of the analogous shape recess that can hold top enclosure 370.The structure that top enclosure receiving unit 351 can be chosen wantonly according to top enclosure 370 constitutes, and perhaps otherwise constitutes to receive top enclosure 370.

Retaining mechanism lid receiving unit 352 can comprise the retaining mechanism lid receiver wall 352A of the analogous shape recess that can receive retaining mechanism lid 380.The structure that retaining mechanism lid receiving unit 352 can be chosen wantonly according to retaining mechanism lid 380 constitutes, and perhaps otherwise constitutes to receive retaining mechanism lid 380.

Handle assembly receiving unit 353 can comprise passage 354 and 356, and as described below the same, the slide rail 400 of handle assembly 390 and 410 can extend through these passages respectively. Passage 354 and 356 can comprise the empty nest that is limited conduit wall 357 and 358 respectively.Conduit wall 357 and 358 can at least partly be " U " shape, and can comprise inclined- plane 357A and 358A and roof 357B and 358B respectively.

CEM tunnel wall 362 can or otherwise constitute proximal part or another CEM that receives leg of spectacles for " U ".As described below, cover 396 is provided with near CEM tunnel wall 362 and is positioned under the situation above the CEM in the tunnel of handle assembly 390, can limit CEM tunnel 360 thus.Therefore besieged and therefore CEM can prevent therefore to be fixed on its taking-up on the CEM safety device 302, only if CEM tunnel cover 396 is taken out.

Top enclosure 370 can constitute have at least part for the shape of rectangle and/or with the similar shape of the shape of a part of shell 330.Top enclosure 370 can comprise flange 372, and it can and can make top enclosure 370 be connected with handle assembly 390 for " L " shape, and is for example described below.Top enclosure 370 can have very thin thickness.But in each embodiment, top enclosure 370 can otherwise or additionally constitute, and for example during connecting, receives the connecting wall 351A of bottom enclosure 350.Top enclosure 370 can also or optional be fixed on the bottom enclosure 350 through welding, welding, gluing, snap (for example bottom enclosure 350 and top enclosure 370 formations being had convexity and the empty nest that matches), interference fit and/or through other fixing means.

Back with reference to Fig. 9; Retaining mechanism lid 380 can constitute have at least part for rectangle but have the shape of bandy side 334, and can comprise as here with reference to the type shape part of the external surface 332 of the described shell 330 of the embodiment of Fig. 6.Retaining mechanism lid 380 can comprise flange as described below 382, and this flange can and can be connected with handle assembly 390 for " L " shape.Flange 382 can have the flange 372 similar shapes with top enclosure 370.

Retaining mechanism lid 380 can have very thin thickness.But in each embodiment, retaining mechanism lid 380 can constitute the magnetic actuation breech lock 312 that is fixed on the bottom enclosure 350 and is positioned at retaining mechanism 310 with above the flexible member 316 according to alternate manner.Retaining mechanism lid 380 can be fixed on the bottom enclosure 350 through welding, welding, gluing, snap (for example bottom enclosure 350 and retaining mechanism lid 380 formations being had convexity and the empty nest that matches), interference fit and/or through other fixing means.In the embodiment of Fig. 2-5, also demonstrate this retaining mechanism lid 380, this also can be with reference to this manual.

Figure 14-15 demonstrates respectively for example at the lower component 390A of the handle assembly 390 shown in Figure 10-13 and the embodiment of top assembly 390B.Handle assembly 390 in this embodiment can surround safety label or otherwise that safety label is fixed thereon.

With reference to Figure 14, lower component 390A can be the slender member of hollow or other form, and comprises that cavity 392, the size of this cavity can be set at or otherwise constitute and comprise safety label or its part.For example, in one embodiment, cavity 392 comprises one or more linear amorphous (linear amorphous) resonator 394.In one embodiment, cavity can comprise three linear amorphous resonators 394.

Lower component 390A can comprise the recessed bottom surface that is limited on CEM tunnel cover 396.CEM tunnel cover 396 can constitute near the CEM tunnel wall 362 that is assemblied in bottom enclosure 350, limits CEM tunnel 360 with CEM tunnel wall 362 thus.CEM tunnel cover 396 can constitute " U " shape, but has inclination mated surface 396A and 396B.Adopt this structure, handle assembly 390 can so be arranged on the bottom enclosure 350, thereby CEM tunnel cover 396 can be positioned near roof 357B and the 358B, and has inclination mated surface 396A and the 396B near inclined-plane 357A and 358A.But in each other embodiment, CEM tunnel cover 396 can constitute with bottom enclosure 350 and has different phase distribution structures.

Lower component 390A can comprise slide rail 400 and 410, they can comprise respectively roof 402 with 412 with adjacent recess 404 and 414 of being connected.Adopt this structure, under the situation of assembling CEM safety device 302, top enclosure 370 can connect with slide rail 400 or 410 with retaining mechanism lid 380.The flange 372 of top enclosure 370 can extend on roof 412 and get in the connection recess 414 of slide rail 410; And the flange 382 of retaining mechanism lid 380 can extend on roof 402 and get in the connection recess 404 of slide rail 400, for example at Fig. 2-5 with the same shown in 8 the embodiment.In each other embodiment, top enclosure 370, retaining mechanism lid 380 can constitute with handle assembly 390 and has different phase distribution structures, and is for example shown in figure 17 below with reference to CEM safety device 502 described straight and overlapping walls.Adopt this structure of being assembled out, top enclosure 370 can prevent or hinder handle assembly 390 along moving with respect to shell 330 except the direction along the conduit wall 354 and 356 of bottom enclosure 350 with retaining mechanism lid 380.

In other embodiments, handle assembly 390 can be connected with bottom enclosure 350 in every way.For example, in one embodiment, handle assembly 390 can be hinged in the elongate sides place and the bottom enclosure 350 of handle assembly 390.Another side can be included in wherein depression or the slit that extends, thereby handle assembly 390 is being arranged on 350 last times of bottom enclosure, and depression or slit can be aimed in locked position, to receive magnetic actuation breech lock 312.When receiving, magnetic actuation breech lock 312 can prevent or hinder handle assembly and be rotated away from shell.If 312 motions of magnetic actuation breech lock are left locked position and therefore left the depression or the slit of handle assembly 390, then therefore handle assembly can allow any CEM that will be arranged on wherein to take out around its hinge through to expose CEM tunnel 360.

In one embodiment, handle assembly 390 can or otherwise be configured on the safety device 302 to be connected with safety device 302 with hinged combination through sliding with bottom enclosure 350 formations.For example, in one embodiment, handle assembly 390 can slide along bottom enclosure 350 parts and form the structure of hinge up to it in connection with acting in conjunction with it.Handle assembly 390 then can be around hinge through, exposing CEM tunnel 360, and therefore exposes any CEM that is located at wherein.

Slide rail 400 and 410 can comprise breech lock co-operating member 318 and 319 respectively, and they can constitute in a comparable manner.Breech lock co-operating member 318 can comprise breech lock co-operating member wall 318A and the recess 318B or other sky nest that are limited breech lock co-operating member wall 318A.Breech lock co-operating member 319 can have and the similar structure of the part of slide rail 410, and has latch component wall 319A and recess 319B.

Breech lock co-operating member 318 and 319 can so be provided with, thereby under the situation of assembling CEM safety device 302, in the breech lock co-operating member 318 and 319 one aims at the magnetic actuation breech lock 312 of retaining mechanism 310.In one embodiment, CEM safety device 302 is symmetrical, thereby it can be arranged on the bottom enclosure 350, and is described as here, and has the breech lock co-operating member 318 or 319 facing to magnetic actuation breech lock 312.

Therefore, the flexible member 316 of retaining mechanism 310 can advance magnetic actuation breech lock 312 bias voltages among breech lock co-operating member recess 318B or the 319B, for example shown in Figure 11-12.This structure can prevent or hinder handle assembly 390 and move along the passage 354 and 356 of bottom enclosure 350.Therefore, magnetic actuation breech lock 312 can be cooperated to prevent or to hinder handle assembly 390 (and being included in safety label wherein arbitrarily) motion and leave the remainder of CEM safety device 302 and disengaging with it with aforesaid top enclosure 370 and retaining mechanism lid 380.

Slide rail 400 can comprise sloping edge 406A and 40B, and slide rail 410 can comprise sloping edge 416A and 416B.These sloping edges can help slide rail 400 and 410 and slide respectively and enter/go out passage 354 and 356.

With reference to Figure 15, the top assembly 390B of handle assembly 390 can comprise end face 430.End face 430 can at least partly be put down, and can comprise one or more handles 432 and 434, and they can be so that along the passage 354 and the 356 promotion/pull handle assemblies 390 of bottom enclosure 350.In one embodiment, for example comprise under the situation of aforesaid one or more linear amorphous resonators 394 that top assembly 390B can comprise and can magnetization bias piece 440 be arranged on slit 442 wherein at safety label.

Lower component 390A and top assembly 390B can be fixed together through welding or alternate manner, thereby can comprise that in one embodiment one or more linear amorphous resonators are packed and be fixed in the handle assembly 390 with the safety label of magnetization bias piece 440.

Figure 16 demonstrates the decomposition view according to the handle assembly 390 of an embodiment, and this handle assembly comprises the safety label that is made up of linear amorphous resonator 394 and magnetization bias piece 440.In this embodiment, handle assembly 390 comprises the linear amorphous resonator of lower component 390A, two 394, magnetization bias piece 440 and top assembly 390B.

In one embodiment, CEM safety device system comprises CEM safety device 302 and eliminator, for example here with reference to the described eliminator 40 of Fig. 1.Thereby flexible member 316 is arranged under the situation between eliminator 40 and the magnetic actuation breech lock 312 be arranged on the magnetic actuation breech lock 312 of safety device 302 at eliminator 40 near, and eliminator 40 can magnetically force magnetic actuation breech lock 312 to leave locked position and be pressed against on the flexible member 316.If magnetic force is greater than the compressive force of flexible member 316 and stop other power of this motion of magnetic actuation breech lock 312 arbitrarily, then magnetic actuation breech lock 312 can move and leave locked position.In this case, handle assembly 390 slides along passage 354 and 356 and can not hindered, and therefore can slide off CEM safety device 302, thereby exposes CEM tunnel 360.Under situation about CEM being arranged on wherein, can freely from CEM safety device 302, CEM be taken out.

Because any part of CEM safety device 302 in this embodiment can not broken with its release, so CEM safety device 302 can be reused.In another embodiment, CEM safety device 302 has adopted and has been used for magnetic actuation breech lock 312 or the safety label that disposable use maybe can be reset.

In this embodiment, CEM safety device 302 can keep eas tag and magnetic mechanism and can be used for glasses.In one embodiment; CEM safety device 302 can carry the EAS parts, and can be used for hindering or prevent to take out without permission and having the glasses safety device and by the part encapsulation or otherwise be fixed under the situation of the glasses on this safety device and leave the market subsequently.In one embodiment, this safety device can comprise bottom enclosure, top enclosure, bolt lock mechanism lid and EAS handle assembly or EAS assembly handle, and they can be cooperated so that the glasses safety device is locked on the leg of spectacles.The EAS handle assembly can comprise one or more linear amorphous resonators, linear amorphous resonator housing, magnetization bias piece and magnetization bias piece support handle.In one embodiment, the EAS handle assembly can comprise three linear amorphous resonators.

In one embodiment, CEM safety device 302 can so constitute, thereby retaining mechanism 310 can comprise magnetic mechanism, and safety label can comprise eas tag or EAS parts.Safety label can comprise one or more linear amorphous resonators 394 and magnetization bias piece 440, and this bias piece can comprise the magnetization bias piece.In one embodiment, safety label can comprise three linear amorphous resonators.Shell 330 can comprise these parts, and they comprise bottom enclosure, top enclosure, bolt lock mechanism lid and EAS handle assembly, and they can be corresponding with bottom enclosure 350, top enclosure 370, retaining mechanism lid 380 and handle assembly 390 respectively.Handle assembly 390 can comprise lower component 390A and top assembly, and this lower component can comprise linear amorphous resonator housing, and this top assembly can comprise magnetization bias piece support handle.Handle assembly 390 can comprise linear amorphous resonator 394 and magnetization bias piece 440, and they can be corresponding with the EAS handle assembly that comprises three linear amorphous resonators and magnetization bias piece.

In another embodiment, for example can comprise retaining mechanism 510, safety label 520 and shell 530 with reference to the described CEM safety device 502 of the embodiment of Figure 17-30.For example said the same with reference to CEM safety device 302 in the above, CEM safety device 502 can be locked in or otherwise be fixed on the near-end shank or other CEM of leg of spectacles.

Figure 17-20 demonstrates each phantom drawing according to the CEM safety device 502 of an embodiment, and can refer to the place of having described its respective element.CEM safety device 502 comprises shell 530 in this embodiment, and this shell can comprise various piece, and for example bottom enclosure 550, safety label lid 570, retaining mechanism lid 580 and handle assembly 590 are for example described below.Each part can comprise one or more materials, and is for example described with reference to CEM safety device 302 here.

Figure 21-23 demonstrates vertical view, front view and the lateral view according to the CEM safety device 502 of an embodiment respectively.As the same shown in this embodiment, see from the vertical view of Figure 21, shell 530 and therefore CEM safety device 502 can have outer surface of cupular part 532, the part at least of this outer surface of cupular part is for rectangle and have bandy side 534.Outer surface of cupular part 532 can comprise one or more jut described below and handle 632 and 634.Shell 530 can have very thin thickness, and this thickness is maximum near handle 632 and 634.In one embodiment, shell 530 has such external dimensions, thereby outer surface of cupular part 532 its lateral dimension S5 and S6 are approximately 48.85mm and 33.17mm respectively, and shell 530 its thickness T 3-T5 are approximately 4.27mm, 4.21mm and 7.41mm respectively.But in each embodiment, its specification of shell 530 and ingredient thereof and size can be set as requested, as said with reference to the shell of Fig. 1 embodiment 30.Shell 530 can constitute as here said so that safety label 520 is fixed together with CEM, and therefore CEM safety device 502 is locked on the CEM, and is as described below the same.

Figure 24 demonstrates the decomposition view according to the CEM safety device 502 of an embodiment, demonstrates the element that is included in it together.This accompanying drawing can relate to the place of describing its respective element.

Figure 25 demonstrates the phantom drawing according to retaining mechanism 510 parts, safety label 520 and the bottom enclosure 550 of the CEM safety device of an embodiment.Retaining mechanism 510 can comprise magnetic actuation breech lock 512 and flexible member 516.

Magnetic actuation breech lock 512 can comprise magnetic material, and can comprise one or more materials of describing with reference to the magnetic actuation breech lock 12 of Fig. 1.Magnetic actuation breech lock 512 can comprise: bottom 513, and it can comprise bottom end 513A and bottom sides 513B and 513C; Latch portion 514, it can comprise latch portion end 514A; And middle body 515.

Magnetic actuation breech lock 512 can form capitalization " I " shape.Therefore; Bottom sides 513B and 513C can be parallel; And each can be straight at least basically, and the width of bottom 513, i.e. distance between bottom sides 513B and 513C; Basically the width with latch portion 514 is identical, but wideer than the width of the middle body of magnetic actuation breech lock 512.Bottom end 513A can be for flat, and can with bottom sides 513B and 513C perpendicular.Magnetic actuation breech lock 512 can constitute very thin thickness.But magnetic actuation breech lock 512 can constitute according to alternate manner in each embodiment, for example here with reference to said the same at the magnetic actuation breech lock shown in Fig. 1 12.In addition, in one embodiment, flexible member 516 can or form as one with 512 combinations of magnetic actuation breech lock.In one embodiment, flexible member 516 can form cantilever, for example the sheet spring.

Flexible member 516 can be constituted or formed by flexible material, and can comprise as here with reference at 16 described a kind of material or the multiple materials of the flexible member shown in Fig. 1.In one embodiment, flexible member 516 can constitute cubic shaped basically, thereby its side 516A is wideer than its side 516B, perhaps can have another kind of shape.In each other embodiment, flexible member 516 can so constitute disc spring or other spring or similar component, and comprises its one or more materials, and is for example top described with reference to the magnetic actuation breech lock 12 of Fig. 1.

One or more breech lock co-operating members 518 and 519 can form as one with shell 530 or its part, and can comprise the recess in handle assembly 590 for example described below, perhaps can be a separate part or a plurality of separate part.

The bottom enclosure 550 of shell 530 can so constitute, thereby the magnetic actuation breech lock of retaining mechanism 510 512 can adjacently be arranged on wherein with flexible member 516.Therefore, the bottom end 513A of magnetic actuation breech lock 512 can be arranged near the flexible member 516 or adjacency with it.Under the situation of this structure, can be on one or more directions with the limit movement of magnetic actuation breech lock 512 and flexible member 516.

For example, bottom enclosure 550 can comprise passage end wall 565, conduit wall 566 and 568 and the passage 564 that limited conduit wall 566 and 568, and can be defined by passage end wall 565. Conduit wall 566 and 568 can comprise the part that is parallel to each other basically; And can be at bottom sides 513B and 513C place and in central authorities and latch portion 515 with near magnetic actuation breech lock 512 is located to be arranged in 514 side or contact with it; Thus with the limit movement of magnetic actuation breech lock 512 for along the moving of passage 564, this motion can be moving along the substantial linear direction.Flexible member 516 can so be arranged near the passage end wall 565; Thereby forcing magnetic actuation breech lock 512 to leave locked position and be pressed against under the situation on the flexible member 516, flexible member 516 can be pushed by the power of magnetic actuation breech lock 512 and the resistance of passage end wall 565.Flexible member 516 provides resistance can for this compression, thereby hinders this motion of magnetic actuation breech lock 512.

As stated; In each of each embodiment; Magnetic actuation breech lock 512 can constitute another kind of shape; In this situation passage 564 and therefore conduit wall 566 and 568 can constitute and hold this magnetic actuation breech lock 512, and can be on one or more directions with the limit movement of magnetic actuation breech lock 512.In each of these embodiment, flexible member 516 can constitute and be assemblied in the passage 564.

The bottom enclosure 550 of shell 530 can be in addition or is randomly constituted and hold safety label lid 570, retaining mechanism lid 580 and handle assembly 590 and CEM.In one embodiment, bottom enclosure 550 can comprise safety label lid receiving unit 551, retaining mechanism lid receiving unit 552, handle assembly receiving unit 553 and CEM tunnel wall 562.

Safety label lid receiving unit 551 can comprise top enclosure receiver wall 551A, and this receiver wall can hold the similar recess of shape of top enclosure 570.Lid receiving unit 551 can constitute according to the structure of top enclosure 570 alternatively, perhaps otherwise constitutes to receive top enclosure 570.Safety label 520 can be arranged on the safety label lid receiving unit 551, and above that bonding.

Retaining mechanism lid receiving unit 552 can comprise retaining mechanism lid receiver wall 552A, and this lid receiver wall can hold the similar recess of shape of retaining mechanism lid 580.Retaining mechanism lid receiving unit 552 can cover 580 structure according to retaining mechanism and constitute alternatively, perhaps otherwise constitutes and receives retaining mechanism lid 580.

As described below the same, handle assembly receiving unit 553 can comprise protuberance 554 and 556, and the slide rail 600 of handle assembly 590 can be on protuberance 554 and 556 and with respect to its slip.

CEM tunnel wall 562 can or otherwise constitute for " U " shape and receive CEM.Under near situation about being arranged on the CEM tunnel wall 562 on the bottom enclosure 550, as described below the same, CEM tunnel 560 can be defined, and can surround CEM at the slide rail 600 of handle assembly 590.Therefore in this case, can CEM be pinned avoiding and be removed, as here said.CEM tunnel 560 can have than the littler cross sectional area of cross sectional area in the CEM tunnel 360 described in the embodiment in the above.

Figure 26 demonstrates the phantom drawing of retaining mechanism 510 parts, bottom enclosure 520 and safety label lid 570 according to the CEM safety device 502 of an embodiment.Safety label lid 570 can constitute part at least for the shape of rectangle and/or can with the similar shape of shape of the part of shell 530.Safety label lid 570 can comprise flange 572, and it can and can be connected with the safety label lid 570 with handle assembly 590 for " L " shape, and is for example described below.Safety label lid 570 can have very thin thickness, yet in each embodiment, safety label lid 570 can be according to alternate manner or constituted in addition, for example during connecting to receive the connecting wall 551A of bottom enclosure 550.Through welding, welding, gluing, snap (for example bottom enclosure 550 and top enclosure 570 constitute the situation of match projection and empty nest), interference fit and/or through other fixing means, top enclosure 570 can also or be chosen wantonly and is fixed on the bottom enclosure 550.

Back with reference to Figure 24; Retaining mechanism lid 580 can constitute have at least part for rectangle but have the shape of outwardly-bent side 534; And the shape similar portions that can comprise the external surface 532 of shell 530 is for example said the same with reference to the embodiment of Figure 21 here.Retaining mechanism lid 580 can comprise flange 582, and this flange can and can be connected with handle assembly 590 for " L " shape, and is as described below the same.Flange 582 can have the flange 572 similar shapes with safety label lid 570.

Retaining mechanism lid 580 can have very thin thickness.But in each embodiment, retaining mechanism lid 580 can constitute the magnetic actuation breech lock 512 that is fixed on the bottom enclosure 550 and is positioned at retaining mechanism 510 with above the flexible member 516 according to alternate manner.Retaining mechanism lid 580 can through welding, welding, gluing, snap (for example bottom enclosure 550 and retaining mechanism cover 580 be configured match projection and empty nest situation), interference fit and/or be fixed on the bottom enclosure 550 through other fixing means.For example in the embodiment of Figure 17-20, also demonstrate retaining mechanism lid 580, this also can describe with reference to this manual.

Figure 27 demonstrates the handle assembly 590 according to an embodiment.Handle assembly 590 can be slender member, and it comprises top part 592 and slide rail 600.In one embodiment, handle assembly 590 is symmetrical.Top part 592 can be stretched out and can comprise end face 594 from slide rail 600.End face 594 can comprise handle 632 and 634.Be arranged under the situation on the bottom enclosure 550 at handle assembly 590, handle 632 and 634 can help making handle assembly 590 on protuberance 554 and 556, to slide.

In other embodiments, handle assembly 590 can be connected with bottom enclosure 550 through slip, hinged and/or slide hinged combination.

Slide rail 600 can be wideer than top part 592, and can comprise bottom surface and smooth bottom 602.Bottom 602 can be arranged on the protuberance 554 and 556 of bottom enclosure 550, thereby it limits CEM tunnel 560 with CEM tunnel wall 562 thus near near the CEM tunnel wall 562.

Slide rail 600 can comprise roof 604 and 606 and respectively adjacent recess 614 and 616 of being connected.Adopt this structure, under the situation of assembling CEM safety device 502, safety label lid 570 can be connected with handle assembly 590 with retaining mechanism lid 580.The flange 572 of safety label lid 570 can extend on roof 606; And get in the connection recess 616 of handle assembly 590, and the flange 582 of retaining mechanism lid 580 can extend on roof 604 and get in the connection recess 614 of handle assembly 590.For example in the embodiment of Figure 17-20 and 23, demonstrate this structure.In each other embodiment, safety label lid 570, retaining mechanism lid 580 can constitute with handle assembly 590 has different phase distribution structures, for example has here with reference to CEM safety device 302 and 702 described " L " shape flange.Adopt this structure that assembles, safety label lid 570 and retaining mechanism lid 580 can prevent or hinder handle assembly 590 and on the direction outside the substantial linear direction of the protuberance 554 of bottom enclosure 550 and 556, move with respect to shell 530.

Slide rail 600 can comprise breech lock co-operating member 518 and 519, and they can constitute in a comparable manner.Breech lock co-operating member 618 can comprise breech lock co-operating member wall 618A and recess 618B or other sky nest of being limited breech lock co-operating member 618A.Breech lock co-operating member 619 can have similar structure, and it has breech lock co-operating member wall 619A and recess 619B.

Breech lock co-operating member 618 and 619 can so be provided with, thereby under the assembled situation of CEM safety device 602, in the breech lock co-operating member 618 and 619 one aims at the magnetic actuation breech lock 512 of retaining mechanism 510.In one embodiment, CEM safety device 502 is symmetrical, thereby it can be arranged on the bottom enclosure 550 as here said, and breech lock co-operating member 618 or 619 is facing to magnetic actuation breech lock 512.Therefore, the flexible member 516 of retaining mechanism 510 can advance magnetic actuation breech lock 512 bias voltages for example in breech lock co-operating member recess 518B shown in Figure 28-29 or 519B.This structure can prevent or hinder handle assembly 590 along the protuberance 554 of bottom enclosure 550 and 556 move.Therefore, magnetic actuation breech lock 512 can be cooperated to prevent or to hinder handle assembly 590 with respect to the motion of the remainder of CEM safety device 502 and therefrom dismounting thus with aforesaid safety label lid 570 and retaining mechanism 580.Also have, extend through at CEM under the situation in CEM tunnel 560, can CEM erecting device 502 be locked on the CEM.

Slide rail 600 can comprise sloping edge 600A-600D.These sloping edges 600A-600D can help the remainder that slide rail 600 advances/go out shell 530.

Figure 28-30 demonstrates phantom drawing, vertical view and the lateral view according to the retaining mechanism 510 of the CEM safety device 502 of an embodiment, bottom enclosure 550, safety label lid 570 and handle assembly 590 respectively.In this embodiment, magnetic actuation breech lock 512 is shown as and extends into breech lock co-operating member 518.

In one embodiment, CEM safety device system comprises CEM safety device 502 and eliminator, for example here with reference to the described eliminator 40 of Fig. 1.Thereby flexible member 516 is arranged under the situation between eliminator 40 and the magnetic actuation breech lock 512 be arranged on the magnetic actuation breech lock 512 of safety device 502 at eliminator 40 near, and eliminator 40 can force magnetic actuation breech lock 512 to leave position latching according to the mode of magnetic and be pressed against on the flexible member 516.If magnetic force is greater than the compressive force of flexible member 516 and other hinders the power of such motion of magnetic actuation breech lock 512 arbitrarily, then magnetic actuation breech lock 512 can move and leave locked position.In this case, can not hinder handle assembly 590 to slide, and therefore slide off CEM safety device 502, thereby CEM tunnel 560 is exposed along protuberance 554 and 556.Be arranged under the situation wherein at CEM, CEM can freely take out from CEM safety device 502.

Because any part of CEM safety device 502 in this embodiment can not be broken so that its release, so this CEM safety device 502 can be reused.In another embodiment, this CEM safety device 502 has adopted and has been used for safety label 520 or the magnetic actuation breech lock 512 that disposable use maybe can be reset.

In one embodiment, CEM safety device 502 can be called as glasses safety device assembly, and can reuse, can reset or be used for disposable use.CEM safety device 502 can keep eas tag and magnetic mechanism, and is used for glasses.CEM safety device 502 has the EAS parts in one embodiment, and can be used for hindering or prevent to take out without permission and leave the market with can or otherwise being fixed under the situation of any glasses on this safety device by the part encapsulation having the glasses safety device subsequently.In one embodiment, this safety device can comprise bottom enclosure, eas tag lid, bolt lock mechanism lid and EAS handle assembly, and they can be cooperated so that the glasses safety device is locked on the leg of spectacles.The EAS handle assembly can comprise one or more linear amorphous resonators, linear amorphous resonator housing, magnetization bias piece and magnetization bias piece support handle.In one embodiment, the EAS handle assembly can comprise three linear amorphous resonators.

In one embodiment, CEM safety device 502 can so constitute, thereby retaining mechanism 510 can comprise magnetic mechanism, and safety label 520 can comprise eas tag or EAS parts.Safety label 520 can comprise the linear amorphous resonator 394 and magnetization bias piece 440 with one or more linear amorphous resonators, and this bias piece can comprise the magnetization bias piece.In one embodiment, safety label 520 can comprise three linear amorphous resonators 394.Shell 530 can comprise these parts; They comprise bottom enclosure, eas tag lid, bolt lock mechanism lid and track handle (track handle), and these parts can be corresponding with bottom enclosure 550, safety label lid 570, retaining mechanism lid 580 and handle assembly 590 respectively.

In another embodiment, for example can comprise retaining mechanism 710, safety label 720 and shell 730 with reference to the described CEM safety device 702 of the embodiment of Figure 31-45.This CEM safety device 702 can be locked in or otherwise be fixed on the CEM.

Figure 31-35 demonstrates each phantom drawing according to the CEM safety device 702 of an embodiment, and can refer to the place of having described its respective element.CEM safety device 702 comprises shell 730 in this embodiment, and this shell can comprise various piece, and for example bottom enclosure 750, safety label lid 770, retaining mechanism lid 780 and handle assembly 790 are for example described below.Each part can comprise one or more materials, for example plastics and metal, and these parts can comprise identical or different material or its combination.

Figure 36-38 demonstrates vertical view, front view and the lateral view according to the CEM safety device 702 of an embodiment respectively.Figure 39-41 also demonstrates these views of this embodiment respectively.With reference to Figure 36-41; Shell 730 and therefore CEM safety device 702 can have its shape at least part be the outer surface of cupular part 732 of lowercase " l " shape; But have recessed edge and heave part, the same as from Figure 35 and 38 vertical view, seeing.Outer surface of cupular part 732 can comprise ledge, and it can be handle 832 described below.

See that from the front view of Figure 37 and 40 shell 730 can have one or more curved edges, and the profile of outer surface of cupular part 732 can be wideer than the width of its opposite face.See that from Figure 38 and 41 shell 730 can comprise very thin thickness, this thickness is maximum near handle 832.Shell 730 can have bottom outer surface 734, and this external surface part at least is smooth, but has recessed or otherwise outstanding part 735.

In one embodiment; Shell 730 has such external dimensions; Thereby outer surface of cupular part 332 its lateral dimension S7-S9 are approximately 8.04mm, 15.41mm and 10.55mm respectively, and shell 730 its thickness T 6-T9 are approximately 8.58mm, 11.4mm, 4.52mm and 4.35mm respectively.

But in each embodiment, its specification of shell 730 and ingredient thereof and size can be set as requested, and for example the shell 30 with reference to Fig. 1 embodiment is said the same.As here said, shell 730 can constitute safety label 720 fixed thereon with CEM, and therefore as described belowly equally CEM safety device 702 is locked on the CEM.

Figure 42 demonstrates the decomposition view of CEM safety device 702, demonstrates can be included in the element in retaining mechanism 710, safety label 720 and the shell 730 according to an embodiment.

Retaining mechanism 710 can comprise magnetic actuation breech lock 712, flexible member 716 and breech lock co-operating member 718.Magnetic actuation breech lock 712 can comprise magnetic material, and can comprise like magnetic actuation breech lock 12 described one or more materials with reference to Fig. 1.Magnetic actuation breech lock 712 can comprise: bottom 713, and it can comprise bottom end 713A and bottom sides 713B and 713C; Latch portion 714, it can comprise latch portion end 714A; And middle body 715.

Magnetic actuation breech lock 712 can form " T " shape.Therefore, bottom sides 713B and 713C can be parallel, and each can be straight at least basically, and the width of bottom 713, i.e. distance between bottom sides 713B and 713C can be wideer than other width of magnetic actuation breech lock 712.Bottom end 713A can be for smooth, and can with bottom sides 713B and 713C perpendicular.Magnetic actuation breech lock 712 can constitute very thin thickness.But magnetic actuation breech lock 712 can constitute according to alternate manner in each embodiment, for example here with reference to said the same at the magnetic actuation breech lock shown in Fig. 1 12.

Flexible member 716 can be formed or constituted by flexible material, and can comprise as here with reference at 16 described a kind of material or the multiple materials of the flexible member shown in Fig. 1.In one embodiment, flexible member 716 can constitute and has cubic shaped basically, thereby its side 716A is wideer than its side 716B, perhaps can have another kind of shape.In each other embodiment, flexible member 716 can be as constituting with reference to the magnetic actuation breech lock 12 described disc springs of Fig. 1 or other spring or similar component in the above, and comprise one or more materials.In addition, in one embodiment, flexible member 716 can or form as one with 712 combinations of magnetic actuation breech lock.In one embodiment, flexible member 716 can form cantilever, for example the sheet spring.

Breech lock co-operating member 718 can with as below described shell 730 or its part form as one, and can be included in the recess in the handle assembly 790, perhaps can be a separate part or a plurality of separate part.

The bottom enclosure 750 of shell 730 can so constitute, thereby the magnetic actuation breech lock of retaining mechanism 710 712 can adjacently be arranged on wherein with flexible member 716.Therefore, the bottom end 713A of magnetic actuation breech lock 712 can be arranged near the flexible member 716 or adjacency with it.Adopt this structure, can be on one or more directions with the limit movement of magnetic actuation breech lock 712 and flexible member 716.

For example, bottom enclosure 750 can comprise passage end wall 765, conduit wall 766 and 768 and the passage 764 that limited and defined by passage end wall 765 conduit wall 766 and 768. Conduit wall 766 and 768 can comprise substantially parallel part each other; And can be set to respectively at bottom sides 713B and 713C place and at central latch portion 715 and 714 place, side near magnetic actuation breech lock 712 or contact with it; Thus with the limit movement of magnetic actuation breech lock 712 for along the moving of passage 764, this can be the motion on the substantial linear direction.Flexible member 716 can be provided with near conduit wall 765; Thereby forcing magnetic actuation breech lock 712 to leave position latching and be pressed against under the situation on the flexible member 716, flexible member 716 can be in the power of magnetic actuation breech lock 712 and the drag effect lower compression of passage end wall 765.Flexible member 716 provides resistance can for this compression, thus this motion of opposing magnetic actuation breech lock 712.

As stated; In each embodiment; Magnetic actuation breech lock 712 can constitute and has another kind of shape, in this situation passage 764 and therefore conduit wall 766 and 768 can constitute and hold this magnetic actuation breech lock 712 and can limit magnetic actuation breech lock 712 moving along one or more directions.In in these embodiment each, flexible member 716 can constitute and be assemblied in the passage 764.

The bottom enclosure 750 of shell 730 can be in addition or is configured to receive safety label lid 770, retaining mechanism lid 780, handle assembly 790 and CEM alternatively.In one embodiment, bottom enclosure 750 can comprise safety label receiving unit 751, retaining mechanism lid receiving unit 752, handle assembly receiving unit 753 and CEM tunnel wall 762.

Safety label lid receiving unit 751 can comprise top enclosure receiver wall 751A, and this receiver wall can receive the similar recess of shape of top enclosure 770.Lid receiving unit 751 can constitute according to the structure of top enclosure 770 alternatively, perhaps otherwise constitutes to receive top enclosure 770.

Retaining mechanism lid receiving unit 752 can comprise retaining mechanism lid receiver wall 752A, and this receiver wall can receive the similar recess of shape of retaining mechanism lid 780.Retaining mechanism lid receiving unit 752 can cover 780 structure according to retaining mechanism and constitute alternatively, perhaps otherwise constitutes and receives retaining mechanism lid 780.

Be described below, security tags assembly receiving unit 753 can comprise passage 754 and 756, and the slide rail 700 of handle assembly 790 and 710 can extend through these passages respectively. Passage 754 and 756 can comprise the empty nest that is limited conduit wall 757 and 758 respectively.Conduit wall 757 and 758 can at least partly be " U " shape, and can comprise inclined- plane 757A and 758A and roof 757B and 758B respectively.

CEM tunnel wall 762 can or otherwise constitute to receive CEM for " U " shape.Under near the CEM tunnel cover 796 with handle assembly 790 as described below is arranged on CEM tunnel wall 762 the situation, can limit CEM tunnel 760, and therefore can prevent that CEM is removed, only if CEM tunnel cover 796 is removed.

Safety label lid 770 can constitute part at least for rectangle and have expansion shape and/or with the similar shape of shape of the part of shell 730.Top enclosure 770 can comprise flange 772, and it can be " L " shape, for example at Figure 38,41 with the same shown in 42, and be described below and equally can be used for making safety label lid 770 to be connected with handle assembly 790.Top enclosure 770 can have very thin thickness.But in each embodiment, top enclosure 770 can adopt alternate manner or constitute in addition, for example is used for during connecting, receiving the connecting wall 751A of bottom enclosure 750.Through welding, welding, gluing, snap (for example bottom enclosure 550 and top enclosure 570 constitute the situation of match projection and empty nest), interference fit and/or through other fixing means, top enclosure 770 can also or be fixed on the bottom enclosure 750 alternatively.

Retaining mechanism lid 780 can constitute have at least part for rectangle but have the shape of expansion, and can comprise the shape similar portions of the external surface 732 of shell 730.Retaining mechanism lid 780 can comprise flange 782, and this flange can and can be used for for " L " shape being connected with handle assembly 790, and is as described below the same.Flange 782 can have the flange 772 similar shapes with safety label lid 770.

Retaining mechanism lid 780 can have very thin thickness.But in each embodiment, retaining mechanism lid 780 can constitute the magnetic actuation breech lock 712 that is fixed on the bottom enclosure 750 and is positioned at retaining mechanism 710 with above the flexible member 716 according to alternate manner.Retaining mechanism lid 780 can through welding, welding, gluing, snap (for example bottom enclosure 550 and retaining mechanism cover 780 constitute match projection and empty nest situation), interference fit and/or be fixed on the bottom enclosure 750 through other fixing means.

Handle assembly 790 can be compact member, and it has top part 792 and bottom part 798.In one embodiment, handle assembly 790 is symmetrical.Top part 792 can be stretched out from the bottom and can be comprised end face 794.End face 794 can comprise handle 832.Be arranged under the situation on the bottom enclosure 750 at handle assembly 790, handle 832 can help making handle assembly 790 to slide along passage 754 and 756.

In other embodiments, handle assembly 790 can be connected with bottom enclosure 750 through slip, hinged and/or slide hinged combination.

Handle assembly 790 can comprise the recessed bottom surface that is limited on CEM tunnel cover 796, this recessed bottom surface can be configured to be assemblied in above the CEM tunnel wall 762 of bottom enclosure 750 and near, limit CEM tunnel 760 with CEM tunnel wall 762 thus.CEM tunnel cover 796 can constitute " U " shape, but has inclination mated surface 796A and 796B.Adopt this structure, handle assembly 790 can so be arranged on the bottom enclosure 750, thereby CEM tunnel cover 796 can be positioned near roof 757B and the 758B, and inclination mated surface 796A and 796B are positioned near inclined-plane 757A and the 758A.But in each other embodiment, CEM tunnel cover 796 can constitute different phase distribution structures with bottom enclosure 750.

Handle assembly 790 can comprise slide rail 800 and 810, and they can comprise roof 802 and 812 and adjacent recess 804 and 814 of being connected respectively.Adopt this structure, under the situation of assembling CEM safety device 702, safety label lid 770 can be connected with slide rail 800 or 810 with retaining mechanism lid 780.The flange 772 of top enclosure 770 can extend on roof 812 and get in the connection recess 814 of slide rail 810; And the flange 782 of retaining mechanism lid 780 can extend and get into the connection recess 804 of slide rail 800 on roof 802, for example Figure 38 the same with shown in 41 the embodiment.In each other embodiment, safety label lid 770, retaining mechanism lid 780 can constitute different fit structures with handle assembly 790, for example above with reference to CEM safety device 502 described straight and overlapping walls.This structure that employing assembles, top enclosure 770 can prevent or hinder handle assembly 790 along moving with respect to shell 730 except the direction along the conduit wall 754 and 756 of bottom enclosure 750 with retaining mechanism lid 780.

Slide rail 800 and 810 comprises breech lock co-operating member 718 and 719 respectively, and they can have similar structures.Breech lock co-operating member 718 can comprise other sky nest that breech lock co-operating member wall 718A and 718B are perhaps limited breech lock co-operating member wall 718A.Breech lock co-operating member 719 can have the similar structures as the part of slide rail 810, and has breech lock co-operating member wall 719A and recess 719B.

Breech lock co-operating member 718 and 719 can so be provided with, thereby under the situation of assembling CEM safety device 702, in the breech lock co-operating member 718 and 719 one aims at the magnetic actuation breech lock 712 of retaining mechanism 710.In one embodiment, CEM safety device 702 is symmetrical, thereby it can be arranged on the bottom enclosure 750, and as here said, and breech lock co-operating member 718 or 719 is facing to magnetic actuation breech lock 712.

Therefore, the flexible member 716 of retaining mechanism 710 can advance breech lock co-operating member recess 718B or 719B (not shown) with magnetic actuation breech lock 712 bias voltages.This structure can prevent or hinder handle assembly 790 along the passage 754 of bottom enclosure 750 and 756 move.Therefore, magnetic actuation breech lock 712 can be cooperated to prevent or to hinder handle assembly 790 (and being included in any safety label 720 wherein) with respect to the remainder motion of CEM safety device 702 and therefore break away from aforesaid safety label lid 770 and retaining mechanism lid 780.Also have, extend through at CEM under the situation in CEM tunnel 760, CEM safety device 702 can be with the CEM lock above that.

Slide rail 800 can comprise sloping edge 806A and 806B, and slide rail 810 can comprise sloping edge 816A and 816B.These sloping edges can help slide rail 800 and 810 and enter/go out passage 754 and 756 respectively.

In one embodiment, CEM safety device system comprises CEM safety device 702 and eliminator, for example here with reference to the described eliminator 40 of Fig. 1.Thereby flexible member 716 is arranged under the situation between eliminator 40 and the magnetic actuation breech lock 712 be arranged on the magnetic actuation breech lock 712 of safety device 702 at eliminator 40 near, and eliminator 40 can magnetic forces magnetic actuation breech lock 712 to leave locked position and is pressed against on the flexible member 716.If magnetic force is greater than flexible member 716 compressive forcees and stop other power of this motion of magnetic actuation breech lock 712 arbitrarily, then magnetic actuation breech lock 712 can move and leave locked position.In this case, handle assembly 790 slides along passage 754 and 756 and can not hindered, and therefore can slide off CEM safety device 702, thereby exposes CEM tunnel 760.Under situation about CEM being arranged on wherein, can freely from CEM safety device 702, CEM be taken out.

Because any part of CEM safety device 702 in this embodiment can not broken with its release, so CEM safety device 702 can be reused.In another embodiment, CEM safety device 702 has adopted and has been used for safety label 720 or the magnetic actuation breech lock 712 that disposable use maybe can be reset.

In one embodiment, CEM safety device 702 can be called as CEM safety device assembly, and can reuse, can reset or be used for disposable use.CEM safety device 702 can keep eas tag and magnetic mechanism, and is used for glasses.CEM safety device 702 has the EAS parts in one embodiment, and can be used for hindering or prevent to take out without permission and subsequently have the glasses safety device with can be by the situation of part encapsulation or any glasses otherwise fixed thereon under leave the market.In one embodiment, this safety device can comprise bottom enclosure, top enclosure, bolt lock mechanism lid and EAS handle assembly, and they can be cooperated so that the CEM safety device is locked on the leg of spectacles.The EAS handle assembly can comprise one or more linear amorphous resonators, linear amorphous resonator housing, magnetization bias piece and magnetization bias piece support handle.In one embodiment, the EAS handle assembly can comprise three linear amorphous resonators.

In one embodiment, CEM safety device 702 can so constitute, thereby retaining mechanism 710 can comprise magnetic mechanism, and safety label 720 can comprise eas tag or EAS parts.Safety label 720 can comprise the linear amorphous resonator 794 and magnetization bias piece 840 with one or more linear amorphous resonators, and this bias piece can comprise the magnetization bias piece.In one embodiment, safety label 720 can comprise three linear amorphous resonators 394.Shell 730 can comprise these parts, and they comprise bottom enclosure, eas tag lid, bolt lock mechanism lid and track handle, and these parts can be corresponding with bottom enclosure 750, safety label lid 770, retaining mechanism lid 780 and handle assembly 790 respectively.

Though some characteristic of these embodiment has been described as here said, and those of ordinary skills are easy to expect many modification, replacement, variation and equivalent.Therefore it being understood that accompanying claims is used for covering all these modification and the variation in the scope that falls within these embodiment.

Claims (20)

1. be used to have slender member safety device (2,302,502,702) of article of (CEM), this device comprises:

Magnetic actuation retaining mechanism (10,310,510,710), said magnetic actuation retaining mechanism (10,310,510,710) comprise magnetic actuation breech lock (12,312,512,712), flexible member (16,316,516,716) and breech lock co-operating member (18,318,518,718);

Safety label (20,520,720); And

Shell (30,330,530,730), it comprises:

Be used for fixing said slender member tunnel (360,560,760), be fixed on safety label (20,520,720) and magnetic actuation retaining mechanism (10,310,510,710) on the said shell (30,330,530,730);

Bottom enclosure (350,550,750), wherein said safety label (20,520,720) and said magnetic actuation retaining mechanism (310,510,710) are arranged in the said bottom enclosure (350,550,750);

Be arranged on the handle assembly (390,590,790) on the said bottom enclosure (350,550,750), said handle assembly (390,590,790) and bottom enclosure (350,550,750) define said tunnel (360,560,760);

It is characterized in that: said handle assembly (390,590,790) comprises slide rail (800,810), said slide rail (800; 810) slide said handle assembly (390,590,790) and said bottom enclosure (350,550,750) continuous; Said slide rail (800,810) comprises breech lock co-operating member (18,19,318,319; 518,519,718,719).

2. safety device according to claim 1, wherein said slide rail (800,810) are arranged on the said handle assembly (390,590,790) symmetrically.

3. safety device as claimed in claim 1, wherein said flexible member (16,316,516,716) and magnetic actuation breech lock (12,312,512,712) are combined into single parts.

4. safety device as claimed in claim 1, wherein said shell (30,330,530,730) also comprises passage (364,564,764); Said magnetic actuation breech lock (12,312,512,712) and flexible member (16,316,516,716) are at least partially disposed in the said passage (364,564,764).

5. safety device as claimed in claim 1, wherein said breech lock co-operating member (18,19,318,319,518,519,718,719) forms as one with said shell (30,330,530,730).

6. safety device as claimed in claim 1, wherein said breech lock co-operating member (18,19,318,319,518,718,719) comprises recess.

7. safety device as claimed in claim 6, wherein said flexible member (16,316,516; 716) be arranged near the said magnetic actuation breech lock (12,312,512,712); And with said magnetic actuation breech lock (12,312,512,712) towards wherein said magnetic actuation breech lock (12; 312,512,712) at least a portion extends into the locked position bias voltage in the said recess.

8. safety device as claimed in claim 1, wherein said magnetic actuation breech lock (12,312,512,712) are set between said flexible member (16,316,516,716) and the said breech lock co-operating member (18,19,318,319,518,519,718,719).

9. safety device as claimed in claim 7, wherein said magnetic actuation breech lock (12,312,512,712) can move under magneticaction and leave said locked position.

10. safety device as claimed in claim 9, wherein said magnetic actuation breech lock (12,312,512,712) can move along the substantial linear direction.

11. safety device as claimed in claim 9, wherein said magnetic actuation breech lock (12,312,512,712) can move along direction of rotation basically.

12. safety device as claimed in claim 9, wherein said magnetic actuation breech lock (12,312,512,712) can move along the combinations of directions of rotation and linear direction.

13. safety device as claimed in claim 1, wherein said handle assembly (390,590,790) surrounds said safety label (20,520,720).

14. safety device as claimed in claim 1, wherein said handle assembly (390,590,790) are hinged with said bottom enclosure (350,550,750) slidably.

15. safety device as claimed in claim 13, wherein said safety label (20,520,720) comprising: one or more linear amorphous resonators and a magnetization bias piece.

16. safety device as claimed in claim 1, wherein said bottom enclosure (350,550,750) comprises at least one passage (354,356,754,756); At least one said slide rail (800,810) can move along at least one passage (354,356,754,756) when said safety device (2,302,502,702) release.

17. safety device as claimed in claim 1, wherein said bottom enclosure (350,550,750) comprises at least one protuberance (554,556); At least one said slide rail (800,810) can move along said at least one protuberance (554,556) when said safety device (2,302,502,702) release.

18. safety device as claimed in claim 12, wherein said safety label (20,520,720) is arranged on bottom enclosure (350; 550,750) in, said safety device (2,302; 502,702) also comprise and be arranged on above the safety label (20,520,720) and be positioned at said bottom enclosure (350; 550,750) the safety label lid (370,570,770) on.

19. safety device as claimed in claim 12, wherein said shell comprise that also being fixed on said bottom enclosure (350,550,750) goes up and be positioned at said magnetic actuation breech lock (12; 312,512,712) and flexible member (16,316; 516,716) the retaining mechanism lid (380,580,780) above.

20. a safety device system that is used for slender member (CEM), it comprises: safety device according to claim 1; And

Be used for eliminator with said safety device release, said eliminator comprises magnet.

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