CN1694121A - hard card - Google Patents

Abstract

A card includes a printed circuit board interposed between two card shields having edges, the tabs on one shield edge mating with the notches on the other shield edge. The protective cover of the card provides a high degree of rigidity. Thus providing suitable rigidity. Also included is an I/O connector whose ground does not require a separate ground point and is shielded along its length. The tongue includes an arcuate member that projects to engage the other edge of the shield adjacent the notch. The hard card of the invention also comprises a printed circuit board, and a frame strip is inserted between two protective covers of the printed circuit board. Also includes a protective cover for eliminating the noise of gasoline drum, in which a groove is formed and surrounds the deep-drawn concave area along the circumferential direction.

Description

Hard card

The cross-reference of relevant application

The application is that pendent application serial no is 08/628,480, the applying date is the part continuation application of application on April 5th, 1996.

Background of invention

Invention field

The present invention relates to hard card, especially related to the outer protection cover of this card.

The summary of previous progress

Hard card has obtained widespread use, especially for capacity that increases personal computer and function.PCMCIA (personal computer memory card international association) (PCMCIA) has been set up the standard of this card, and they are categorized into I type, II type and III type card.

Previous hard card adopts the protective cover that locks and/or be glued on the middle boxes, and with Laser Welding (LBW) or ultra-sonic welded protective cover is connected together.Hard card than modern age has adopted protective cover, and they directly interfix and without middle boxes.But, be difficult to make this structure to keep enough rigidity, bear bending, bending and the twisting resistance that in common use, can act on the card.Therefore, need a kind of hard card that can avoid above-mentioned difficulties.

Adopt foil to make to resemble the sizable product external packaging of size the pcmcia memory card assembly, its intrinsic characteristic is to send the noise of " gasoline can ", usually is called " click clatter crack " sound.Therefore the continuation requirement is still adopted thin material to the deep-draw nip of two and half protective covers of hard card, also can eliminate this noise simultaneously.

Summary of the invention

Hard card of the present invention comprises a printed-wiring board (PWB), and printed-wiring board (PWB) is inserted between the hard card protective cover of two band edges.Protect the tongue piece on the flaring to protect the notch on flaring to cooperate for one with another.Suitable rigidity is provided thus.Comprise an I/O connector in addition, it need not independent earth point comes ground connection and is protected along its length.

The hard card of another embodiment of the present invention comprises a printed-wiring board (PWB), and printed-wiring board (PWB) is inserted between the card protection cover of two band edges.Protect the tongue piece on the flaring to protect the notch on flaring to cooperate for one with another.Suitable rigidity is provided thus.A moulding is inserted between the protective cover.Comprise an I/O connector in addition, it need not independent earth point comes ground connection and is protected along its length.The protective cover that also comprises an elimination " gasoline can " noise in the present invention wherein has the recessed district of a circumferential slot around deep draw.

The accompanying drawing summary

Further describe the present invention with reference to the following drawings, wherein:

Fig. 1 is the decomposition diagram of hard card of the present invention;

Fig. 2 is the skeleton view of hard card shown in Figure 1;

Fig. 3 is the zoomed-in view of circle III inner region among Fig. 1;

Fig. 4 a-4f is the synoptic diagram of variety of way, and wherein, within the scope of the present invention, tongue piece and notch in the hard card shown in Figure 1 match;

Fig. 5 a and 5b are decomposition diagrams, have represented the I/O connector that adopts in the hard card shown in Figure 1 and mutually attached general earthing member thereof respectively, and the I/O connector that has cooperated with general earthing member;

Fig. 6 a and 6b are respectively the decomposition views of another kind of I/O connector, and the I/O connector view that has cooperated with general earthing member;

Fig. 7 is the decomposition diagram of another kind of protected I/O socket;

Fig. 8 is the skeleton view of another kind of guard member, can be used for I/O socket shown in Figure 7;

Fig. 9 is the decomposition diagram of another preferred embodiment of hard card of the present invention;

Figure 10 is the skeleton view of facing upward of Fig. 9 hard card;

Figure 11 is the skeleton view of bowing that is used for the protective cover of Fig. 9 hard card;

Figure 12 is the detailed view of circle XII inner region among Figure 11;

Figure 13 is the detailed view of circle XIII inner region among Figure 11;

Figure 14 is the I/O connector detailed view that is used for hard card connector shown in Figure 9;

Figure 15 is by cooperating the cut-open view of locking plate;

Figure 16 is the cut-open view by XVII-XVII among Figure 15; And

Figure 17 is the cut-open view by XVIII-XVIII among Figure 15;

Figure 18 is the protective cover plan view from above that is used for another preferred embodiment of hard card of the present invention;

Figure 19 is the side view of protective cover shown in Figure 180;

Figure 20 is the end-view of protective cover shown in Figure 180;

Figure 21 is the whole hard card end-view that has adopted protective cover shown in Figure 180;

Figure 22 is the protective cover plan view from above that is used for another preferred embodiment of hard card of the present invention;

Figure 23 is the side view of protective cover shown in Figure 22;

Figure 24 is the end-view of protective cover shown in Figure 22;

Figure 25 is the protective cover plan view from above that is used for another preferred embodiment of hard card of the present invention;

Figure 26 is the side view of protective cover shown in Figure 22;

Figure 27 is the end-view of protective cover shown in Figure 22;

Figure 28 is the part skeleton view of protective cover shown in Figure 180;

Figure 29 is the zoomed-in view of circle XXIX inner region among Figure 28;

Figure 30 is the blank that is used to make protective cover shown in Figure 180;

Figure 31 is the zoomed-in view of circle XXXI inner region among Figure 30;

It is another preferred embodiment view of tongue piece and notch in addition that Figure 32 a and 32b divide;

Figure 33 is incomplete detailed perspective view, has represented to be used for the moulding of hard card of the present invention;

Figure 34 is the skeleton view of whole moulding shown in Fig. 1;

Figure 35-the 38th, the side view of hard card each several part and plan view;

Figure 39-the 42nd illustrates various skeleton views and synoptic diagram that moulding assembles in protective cover;

Figure 43-the 46th illustrates the various plan views and the end-view of hard card each several part;

Figure 47-the 51st illustrates the skeleton view of hard card each several part;

Figure 52 is moulding side view and the vertical view that is bearing on the slotting key back side of password;

Figure 53 is the synoptic diagram of explanation hard card twisting test;

Figure 54 is the protective cover top plan view that is used for another preferred embodiment of hard card of the present invention;

Figure 55 is the cut-open view by 55-55 among Figure 54;

Figure 56 is the detailed view in the circle 56 among Figure 54;

Figure 57 is the cut-open view by 57-57 among Figure 56;

Figure 58 is the detailed view in Figure 55 centre circle 58;

Figure 59 a-59c is the synoptic diagram of protective cover preferable production process shown in explanation Figure 54;

Figure 60 a-60c is the synoptic diagram of the another kind of preferable production process of protective cover shown in explanation Figure 54;

Figure 61 is another synoptic diagram of Figure 60 a-60c apparatus shown;

Figure 62 a-62c is the detailed view of circle 61 inner regions among Figure 59 b;

Figure 63 a, 63b and 63c are the detailed section view that is used to contrast, and are respectively the calendering district cut-open view of prior art protective cover, the reality of protective cover of the present invention and theoretical deep-draw indentation district cut-open view;

Figure 64 a and 64b are photo figure, have represented the detailed section view in the deep-draw indentation district of protective cover of the present invention;

Figure 64 c and 64d are photo figure, have represented the detailed section view of the whole petiolarea of protective cover of the present invention;

Figure 65 a and 65b are photo figure, have represented the detailed section view in the deep-draw indentation district of prior art protective cover;

Figure 65 c and 65d are photo figure, have represented the detailed section view of the whole petiolarea of prior art protective cover;

Preferred embodiment describes in detail

With reference to Fig. 1-3, printed-wiring board (PWB) (PCB) assembly at one end has a metallized I/O socket 1, and MTB (the MICRO TRIBEAM of position, one 68 hole is arranged at the plate other end ^TM) socket 2.Connector 2 has the slotting key 3 and 4 of two passwords that makes integral body with the plastic casing side, and the vertical seamed edge 5 on this shell above and below.Each password at connector 2 is inserted on the above and below of key end, also is provided with two notches 6.The I/O socket will be in following detailed description.

Upper and lower hard card protective cover 7 and 8 is identical metal (as stainless steel) thin slice stamping parts.On most of length of protective cover, in a side many vertical tongue pieces 9 of intermittently being separated by are set preferably, and are provided with corresponding notch 10 with same interrupted position at opposite side.In addition, be provided with two fixedly tongue pieces 11 in the front side of protective cover 13, and have extension area 12 at each protective cover rear side, it is vertically bent to the protective cover front of the plug opening of I/O connector 1 aligns.This vertical curve makes the hard card profile become attractive in appearance, and when the PCB assembly is correctly located vertically, has prevented so-called hard card " smile " phenomenon.

When two and half protective covers 7 of hard card and 8 location, PCB assembly both sides and mutually near the time, tongue piece 9 and fixedly tongue piece 11 cooperate with the locational notch 10 and 6 in opposite respectively, obtain final hard card assembly 14 as shown in Figure 2.

If have only a tongue piece 9 to cooperate usually,, keep the constant power of hard card modular construction (referring to Fig. 2) former state very low although the hard card assembly in use is subjected to the crooked of machinery and stretches with the notch 10 of a correct location.Owing to the equally spaced tongue piece and the notch that have adopted quite a lot of quantity along the length component direction in both sides, the available enough rigidity of assembly.In general, because the manufacturing tolerance of stamping parts may exist, also exist the aligning-misalignment phenomenon of tram usually really between tongue piece and notch.Thus, at two protective covers of hard card each other, and and the notch 6 of MTB connector 2 plastic casings between, can have frictional fit.Suitably selection fits in the size and dimension of the tongue piece/notch of physical construction together, can improve these single friction force.For example, consider the section A of tongue piece 9 among Fig. 4 a,, then between tongue piece and notch, can produce frictional fit if tongue piece is twisted (Fig. 4 e) than notch long (Fig. 4 d), tongue piece or tongue piece is bent (Fig. 4 c).In addition, at Fig. 4 b and Fig. 4 g, and among Fig. 4 c and Fig. 4 h, provide flap lock has been fixed on several modes in the notch, wherein, locking plate 9a that part forms is positioned at the center of tongue piece or at an end of tongue piece, it fixes on flap lock in the notch when cooperating fully by cutting off.The purpose of locking device is to bear mechanical force and keep the assembly former state constant.Another purpose is for the hard card assembly provides the metal that is essentially flat side, allows that the earth point of the equipment slot (not shown) that need cooperate with pcmcia card contacts.

In Fig. 5 a and 5b, represented I/O connector, wherein can find out, remove, embed two metallic elastic spares to allow from behind (PCB one side) at the plastics at upper and lower plastic wall 20 two ends, elastic component has leg 21 and 22, and leg has outstanding locking plate 23 and 24 and end limit 25 and 26 inwardly.In the end under the confined state, locking plate 23 contacts with the protective cover pin connector 18 of the I/O plug that has assembled with 24, holds limit 25 and 26 to be pressed on upper and lower protective cover 7 and 8 simultaneously, has realized that thus total ground connection of system connects.At the connector two ends, in original design, these two metallic elastic spares are connected on the ground track of PCB with rivet.

With reference to Fig. 6 a-6b, it has represented another kind of embodiment, and wherein, a metalwork is embedded on the upper and lower plastic wall of I/O socket.The advantage of this device, only being not only needs with a part, and metal coating covers on the whole length of connector and extend, thereby has guaranteed do not have pressure drop between two earth points at connector two ends.In this design, Tu Chu locking plate 23 and 24 finally contacts with the protective cover 18 of the I/O plug that is mated facing to center plastics socket 13 inwardly.Outstanding outwardly locking plate 27 at the I/O connector opposite side contact with 8 with upper and lower protective cover 7, and while limit 25 and 26 position also face toward the limit of hard card protective cover.

With reference to Fig. 7-8, represented another improved form of I/O socket protective cover, it has substituted the earth point 7 in the original design.Here upper and lower protective cover partly is expressed as two independent half covers, each have mutually facing to locking plate keep the symmetric sections of opening 12.This alternate design not only provides has the sheet metal that locking plate keeps opening, and except SMT binding post desired zone, on I/O socket rear end 28, also provides the metallic walls on all the other width of hard card.This characteristic is more obvious in Fig. 4, and it has represented the side view of the I/O socket seen later from PCB.Rear end 28 (Fig. 8) in this design then in this side of hard card, provides the EMI/ESD shielding measure between PCB electronic circuit and the I/O connector if be locked on the similar wall of following protective cover district extension.

With reference to Fig. 9-16, the PCB assembly at one end has a metallized I/O socket 101, and the MTB socket 102 of position, one 68 hole is arranged at the other end of plate.MTB connector 102 has the slotting key 103 and 104 of two passwords that makes integral body with the plastic casing side, and the vertical seamed edge 105 on this shell above and below.Each password at MTB connector 102 is inserted on the above and below of key end, also is provided with two notches 106 on the I/O connector end.The I/O socket will be in following detailed description.

Upper and lower hard card protective cover 107 and 108 is identical sheet metals, as the stainless steel thin slice.On most of length of protective cover, be provided with many vertical tongue pieces 109 by spells in a side, and be provided with corresponding notch 110 with same position at opposite side.In addition, be provided with two fixedly tongue pieces 111 on the front side 113 of protective cover, and have extension area 112 at the protective cover rear side, under last hard card component states, it is vertically bent to the protective cover front of the plug opening of I/O connector 101 aligns.This vertical curve makes and the hard card good looking appearance is correctly located by PCB assembly vertically.

When two and half protective covers 107 of hard card and 108 location and when sealing the PCB assembly mutually; tongue piece 109 cooperates with notch 110 on the limit; fixedly tongue piece 111 is by notch 100, with relative notch 144 cooperations in position on the last protective cover on opposite, thereby obtains final hard card assembly.

Along interrupted tongue piece and the notch that is provided with of length component direction, be enough to guarantee desirable assembly rigidity in both sides.As mentioned above, since the manufacturing tolerance of stamping parts, the common misalignment phenomenon that between tongue piece and notch, has the tram.Thereby because side tongue piece 109 enters side notch 110; and before two fixedly tongue piece 111 enter preceding notch 144 on the opposite protective cover of connector 102 plastic casings by two notches 106, this device causes two mutual initial friction of hard card protective cover to cooperate at least.Suitably select to cooperate the size and dimension of the tongue piece/notch that forms physical construction together, can improve this other friction force.

With reference to Fig. 9-10 and 14, represented the another kind of improved form of I/O socket protective cover especially, it has substituted the earth point 107 in the original design.Here upper and lower protective cover partly is expressed as two half covers that separate, each have mutually facing to locking plate keep the symmetric sections of opening 112.This design not only provides has the sheet metal that locking plate keeps opening, and except SMT binding post desired zone, on I/O socket rear end 128, also provides the metallic walls on all the other width of hard card.

Figure 11 and 12 has represented the modification of fastening tongue piece, and wherein, tongue piece 109 comprises a vertical circular arc district 130, and it has rigidity both sides 131 and the chamfering 132 that faces toward, and stretches out an elastic collet 133 therefrom down and outwardly.With reference to Figure 13, in edge 134, form notch 110 especially.The two ends of notch 110 have limit 135 and 136, and they tilt to a little 138 inwardly.Especially with reference to Figure 15-17, tongue piece 133 is engaged in the notch 110 under the edge 134.

Two hard card protective covers of this embodiment are preferably made by the 0.2mm stainless steel, and have the securing member that many mechanical fastener formulas cooperate.After two protective covers assembled mutually, these securing members made hard card to resisting crooked and reversing the beyond thought firm degree that obtains.Because a plurality of contact points are arranged, these securing members also produce good electrical connection to the ground connection between two hard card protective covers, and because do not adopt middle load-bearing surface, make hard card do best shielding to EMI.These securing members have comprised many tongue pieces 109 that cooperate with notch 110.(Figure 15 and 16 a part) as we can see from the figure, each tongue piece 109 and locking plate 133 tilt inwardly from vertical plane, and for example, the angle [alpha] (Figure 15) that tilts is so that cooperate with notch 110 better.Each tongue piece 109 comprise one with locking plate 133 all-in-one-piece elastic regions 132, locking plate 133 is hooked in the edge 134 under each notch 110 zone.This locking plate 133 keeps two protective covers of hard card not open after assembling.When cooperating, tongue piece 109 will bear elastic bending and twisting resistance from locking plate 133 tops up to the rigidity both sides.

Each tongue piece 109 also comprises the both sides 131 of rigidity, and they are engaged in the two ends of notch 110 and have some gap.Many rigidity both sides 131 and notch two ends lump together, and make that the mechanical connection between two protective covers has high shear resistance, the high rigidity that it has formed the opposing bending and has reversed.Two protective covers that also it may be noted that hard card are identical and hermaphroditic, that is to say, each protective cover comprises public and female securing member simultaneously.

Particularly shown in Figure 12-14, when cooperating, chamfering 132 will at first contact with 136 with front 135, thereby they arrive guide tab 109 in the endpoint location that surpasses point 138, and guarantees that locking plate 133 hooks under edge 134.Point 138 plays the effect of lock, keeps tongue piece to be positioned in the notch, and " the click clatter " heard sound of an indicating correct locking is provided.The relative size that can design chamfering 132 and edge 135 and 136 absorbs (punching press) manufacturing tolerance.

Locking mechanism is designed to like this: a primary clearance is vertically arranged, and second spring function of marginal end portion 137 has been eliminated this gap between locking plate and edge 134.Because these ends have the bending angle less than 90 °, make that they at first contact when two protective covers of assembling hard card, before locking plate 133 will be engaged, they were forced together slightly then.After this locking mechanism no longer includes the gap.

Preferably, the accumulative total total length of elastic tongue piece is at least 10% of protective cover length, is more preferably to be 50% of protective cover length.

With reference to Fig. 9, also can see at each end of connector 102 notch 106 being arranged especially, it allows tongue piece 111 by connector, cooperates with notch 144 in the hard card protective cover on opposite.Therefore, there be of the contact of a complete metal, thereby do not need to cooperate with plastic casing in the connector 102 to metal.Especially, do not utilize connector 101 and 102, then final hard card box to be still rigidity if only two hard card protective covers 107 and 108 are matched.

On second kind of pattern of above-mentioned PCMCIA hard card, twisting test, bending test and nail simulation test have been carried out.These tests are illustrated respectively among subordinate list I, II and the III.

With reference to Figure 18-21, represented an embodiment who does not adopt the I/O socket.This embodiment is general identical with the embodiment shown in Fig. 7-17 in others.That is to say that it has identical tongue piece 245, tongue piece cooperates with identical notch 254, and it also has the space that is used for MTB connector (not shown).With reference to Figure 20-21, can notice that especially the connection tongue piece and the notch of rear end all are arranged on the both sides, and have adjacent plate 241 and 242 at the center.With reference to Figure 22-24, represented another embodiment similar to the aforementioned embodiment, but it has adopted single position, 15 hole I/O socket 343.Tongue piece 309 and notch 310 are all same as described above.In this embodiment, connect tongue piece and notch 345 and 354 and be provided with outwardly respectively, on the I/O connector next door of hard card front end, and in a side of MTB connector, tongue piece 311 cooperatively interacts with notch 344.

With reference to Figure 25-27, represented to adopt another embodiment of two I/O connectors 446 and 447.This embodiment is identical with the various embodiments described above basically in others.Can notice that in the rear end of this hard card, tongue piece and notch 448 are between two I/O connectors and the rear side of hard card.

Can see that with reference to Figure 28-29 the all-metal angle of the various embodiments described above comprises a folded metal wall with 549 summary expressions.Can notice that with reference to Figure 30-31 this bent angle can be made by a compact material, blank has a central convex region 450 and convex region, side 451 and 452, and their sectionals fold up and inwardly, to produce desirable rounding effect.Because EMI/ESD shielding or similar all-metal shielding are not adopted plastics or be exposed in the air, those skilled in the art are appreciated that the superiority of this all-metal angle structure.This specific character is also favourable attractive in appearance, because it does not have sharp edge.

In above-mentioned hard card, also can introduce following modification.

A) except the hard card protective cover of metal, introduce a moulding and support inner electronic circuit; And

B) provide and the hard card protective cover connected and be fixed to device on the PCB.

In this embodiment that replenishes, before two end connectors (I/O and MTB connector) being fixed, provide a device to come they are suitably aimed at PCB with the solder flux reflux technique.Preferably do not need connector mounting hole gap closely, just can reach this aligning.Remove this requirement for two or a connector (for example MTB side), the PCMCIA box still can satisfy.

Change in order to introduce these, carried out the modification of design, but do not changed the fundamental characteristics of going forward to state metal locking plate snap fit in the metal coating shroud rim; Do not change the basic configuration of I/O connector yet.

1) moulding

Embodiment comprises plastic framing strip of introducing, and it is contained on the side of hard card protective cover, as shown in figure 33.Because the moulding that vertically is provided with in the hard card protective cover is crucial problem, therefore following discuss and accompanying drawing all relates to this combination situations.In upper and lower protective cover, can utilize same moulding.Figure 34 has represented two different views (except second view changeed 360 ° with respect to first view) of this moulding 601, it has several vertical double wedges 602 and two vertical glands 603 that longitudinally separate towards the moulding middle part, simultaneously along the distributing recessed district 604 of several tapers of moulding length direction.Each double wedge has a vertical plane 605 and a dip plane 607; The vertical plane of all double wedges forms a whole vertical plane 605 that extends along moulding 601 length directions.Have two glands 603 and 603 of Chamfer Edge 606 ' outstanding outwardly from vertical plane 605.This projection along the periphery 608 and 608 of semicircle ', they are all from vertical plane 605 is advanced by leaps and bounds the space adjacent with the PCB limit.For these two glands 603 and 603 ', because their sizes have difference slightly, they also have difference slightly towards the projection of PCB, and facing to the limit 610 of hard card protective cover.For dip plane 607 also is like this, and this can clearlyer find out that from Figure 33 wherein, 607 face toward the vertical segmental arc 611,613 that stretches out from protective cover 613 has several chucking locking plates 612 that distribute along protection flaring 610 length directions.

In order to understand the assembled condition of this moulding 601 on 613 1 limits of protective cover, underline relative (technology) location of MTB connector 614 earlier, it adopts the scheme of sheet frame 618, relies on step 620 and tongue piece 619 to realize.Its corresponding skeleton view is shown in Figure 47 and 48.In these figure, connector rear end 604 positions after password is inserted key have been determined to be right after.Can set the position of I/O connector 615 now with hole 623, as shown in figure 44, still utilize plate frame structure as locating device.In case the user is arranged on all other electronic components on the PCB, just can adopt a reflux operation to form complete electronic package, as the PCMCIA hard card.This assembly obviously comprises two end connectors.At last, near tie point 621, cut off, each electronic package is separated with sheet frame.Should be noted that, estimate that this design also can adapt to two I/O connectors or not have the situation of I/O connector fully.

The user can be placed on this assembly on preprepared moulding 201 and protective cover 613 subassemblies.(there is not I/O connector among the figure) as shown in figure 49, gland 603 and 603 ' can fix this assembly, such as previously discussed.To MTB connector one side, and hypothesis PCB and connector hood be transparent, then can obtain Figure 38 from I/O.Can derive various skeleton view from Figure 39.

Figure 40 has represented when " oppositely " use hard card assembly, the characteristic that another of this design is useful.Owing to exist password to insert key, this hard card inserts in the peripherals along a direction only.Because oppositely use (misusing), the MTB connector can pass to PCB 616 to big longitudinal force by welded post.If the user continues to insert,, then may make the pad on the PCB produce mechanical breaking, thereby damage hard card from the moving hard card of I/O one thruster.As Figure 40 clearly, the rear end 624 of MTB connector leans against the front of moulding 601 in this design.Because the latter is fixed in the hard card box, therefore before power was passed to pad, this power can easily be born by the limit of PCB.Present standard for the PCMCIA hard card is 60 newton.

Another advantage of the design is that it can bear and reverses and twist, and is illustrated as Figure 41.It will be appreciated that: in this mechanical load pattern, the upper and lower protective cover that constitutes the PCMCIA assembly trends towards moving in opposite direction mutually.Because be from I/O connector one end effect distortion, consequently between the protective cover of MTB connector one side relatively move the most remarkable.Therefore, the connection between two protective covers of MTB connector one end has been subjected to sizable power (shearing), and it is easy to make the pad fracture.Owing to there is double wedge 602; it becomes the profile type of a double wedge overall width in the moulding 601 in the figure; double wedge enters from the protective cover both sides that face toward, and be arranged in the suitable recessed district of protection flaring 610, thereby has stoped vertically moving relatively between two protective covers.And in the both sides of PCMCIA hard card (along its length), this prevention Distribution of Institutions is on several position.Many other designs all are easy to lose efficacy under this loading mode.So this is the design's a big advantage.Therefore, except electronic circuit in the box is had special safeguard protection (PCB aligning/location and fixing), adorned the soundness that moulding also can further improve assembly.

With reference to Figure 54-59, it has represented to be used for to eliminate the protective cover of the hard card embodiment of " gasoline can " noise.Shown in protective cover summarize with 707 and represent.Be appreciated that this protective cover is used in other the similar protective cover described in previous each embodiment.As also formerly mentioning among the embodiment, this protective cover has many tongue pieces 609 and notch 610, allows that two protective covers cooperate together.Also similar to previous embodiment, protective cover has cornerwise closed angle 711.Protective cover comprises a deep-draw indentation district 712.This deep-draw indentation district has a bottom surface 714, and there is a circumferential ramps 716 bottom surface, and it extends to the circumferential flange 718 of outside towards having a down dip from the bottom surface.Adjacent to deep-draw indentation district, a circumferential slot 720 is arranged on circumferential flange.

With reference to Figure 59 a-61, represented to make the first step of protective cover.This manufacturing equipment comprises a upper cover plate 722,822, and upper cover plate is superimposed upon on the punched-plate 724,824, and punched-plate itself is superimposed upon on the movable last forming board 726,826.Movable last forming board is superimposed upon in the movable following push pedal 728,828, and movable push pedal down is positioned at outside the fixing following forming board 730,830 with one heart.The blank 732,832 of protective cover is inserted in movable going up between forming board and movable push pedal down and the following forming board.Next step of punching course be shown in Figure 60 b, wherein, upper cover plate 722,822, punched-plate 724,824, forming board 726,826 and movable push pedal 728,828 are down all moved down with respect to fixing forming board 730,830 down in the activity.This motion makes blank be configured as above-mentioned protective cover shape, has deep-draw indentation district 712,812 and circumferential slot 720,820.Final step in this method illustrates in Figure 59 c-60c; wherein; upper cover plate 722,822, punched-plate 724,824 and the movable forming board 726,826 of going up are all with respect to push pedal under the activity 728,828, and fixing forming board 730,830 down and the protective cover blank 832 that processes move up.Can find out that with reference to Figure 61 distance " X " is less than the height in deep-draw indentation district.

For example

Hard card thickness in position, 68 hole connector one side is 3.3mm on short length; Then on main hard card length, be increased to 5mm (having the bogging down area of not representing among the figure), return 3.3mm in I/O connector one side to allow the thickness of hard card tackifier.Master data for Fig. 2 is: size is distinguished in the deep-draw indentation that makes 0.75mm with the thick stainless steel material of 0.2mm, has the protective cover flatness of regulation.In addition, the importance that hard card is attractive in appearance has determined should not have on the outside surface grease or cut, standard compliant flatness and has not had " gasoline can " phenomenon.In the deep draw process of these protective covers, it is very important understanding the given constraint of above-mentioned restrictive condition.This is to want main topic of discussion among the present invention.For deep draw since local compound bending operation, the crack that causes because of neck of material and because of this operation causes material thickness is local to be changed, produced other problem.Except the dimensional characteristic of final products, need avoid cut and spot.Mechanical requirement in conjunction with mutual " snap fit " locking character by the two halves protective cover proposes need give one's full attention to the quality objective that can reach from start to finish in the manufacturing of PCMCIA hard card.The material thickness that present protective cover has is 0.15mm, and the degree of depth of deep-draw nip " D " is 0.85 ± 0.05mm (being that scope is 0.1mm).But, be difficult to keep for the flatness of this thin material, and find to produce local stress and " gasoline can " phenomenon through regular meeting.Final size " D " can be hanged down 0.63mm (the reduction scope is 0.85+0.05-0.63=0.27mm), forms the product of a band ripple, uses inapplicable per family to majority.For fear of this problem, at first material thickness is increased to 0.2mm, new size " D " is 0.75 ± 0.03mm, in addition, is being almost on the wide surface of 70cm length * 44cm, the flatness standard of 0.2mm scope is allowed.For the deep draw process, preferably there is low pulling strengrth (Rm).In our situation, wish that adopting Rm is (1/4) H stainless steel of 600MPA.In order to reach desirable " snap fit " connection performance and being speckless, wish to adopt (1/2) H material (Rm=850～900MPA, Rp 0.2=320～330MPA).Therefore, exist conflicting material requirements, still need and make a kind of new product.The forming process of required new product will be described below.Allegedly satisfied requirement attractive in appearance and elimination " gasoline can " defective.Owing to selected quite tough and tensile stainless steel protection cover material, and because size and flatness requirement have related to quite high drawing power.Because corresponding reacting force, mould or even press can be subjected to extending " interlock " effect.In the zone of transition of deep draw, material is extended and local " attenuation ", and the danger of " necking down " fracture may take place in this zone.Significant residual stress can promote " gasoline can " phenomenon.

To hypotenuse, it is very big that the material in the deep-draw nip extends from the horizontal plane district.Preferably need to come " replenishing " material from extending other directly relevant material sections with this deep draw.On around the protective cover plane face flange zone outside the deep-draw nip, make a groove by the deep draw mould, can reach this point.Material stress in pcmcia card protective cover flange has caused so-called " gasoline can " or " click clatter crack " noise.For this reason, protective cover becomes can be two-way-and stable, also caused uneven protective cover and assembly.The groove of having done comprises crooked angular region along continuous rectangle perimeter.Along the periphery of deep draw protective cover, the local attenuation of this material on seamed edge (along direction) perpendicular to seamed edge length since flange and deep draw separate from, can eliminate the stress in flange.The present invention isolates distorted area and non-deformation zone, has formed flat unstressed deep draw protective cover, does not have " gasoline can " phenomenon.Mould is designed to form earlier when it has just cooperated with the protective cover material groove; Mould motion then just begins desirable deep draw order.

For the special-purpose situation of stainless steel material thickness requirement 0.2mm and deep draw size 0.75mm,, derive and determined several desirable conditions of work according to producing and quality requirements:

A) the seamed edge seamed edge of a continuous length preferably, on the width that is material thickness 150%, local thickness reduces by 25% (referring to Fig. 3 and 4).

B) position of seamed edge preferably is positioned at the next door of protective cover mold, facing to the deep draw direction.

C) YIELD STRENGTH is preferably lower than 40% with the ratio of pulling strengrth.

D) mould need be limited in its vertical movement direction, and the degree of depth of move distance and deep draw is corresponding.

E) whether basis has the requirement of tackifier, need modify mould.

With reference to Figure 63 a, represented the IBM protective cover deep-draw nip of prior art, with length and Angular Dimension.With reference to Figure 63 b, represented deep-draw nip, with length and Angular Dimension by the protective cover of the present invention of above-mentioned example manufacturing.For relatively, also represented the theory form of protective cover deep-draw nip of the present invention.

With reference to Figure 64 a and 64b, it has represented the cross sectional photograph figure according to the protective cover deep-draw nip of the present invention of above-mentioned example manufacturing.With reference to Figure 64 c and 64d, represented cross sectional photograph figure according to the whole protecting cover petiolarea of the present invention of above-mentioned example manufacturing.With reference to Figure 65 a and 65b, represented the cross sectional photograph figure of the protective cover deep-draw nip of IBM prior art.With reference to Figure 65 c and 65d, represented the cross sectional photograph figure of the whole protecting cover petiolarea of IBM prior art.

Be appreciated that above-mentioned hard card protective cover provides following advantage:

A kind of practical approach is provided, has isolated because the stress that the distortion of deep draw deformable material district produces;

The method that reaches this point is: before the material deep draw begins, set out a continuous seamed edge with prescribed depth and width by the deep draw mould in the flange district;

The final deep draw protective cover of regulation stainless steel material does not have stress in the flange district, avoided " gasoline can " phenomenon;

According to the degree of depth of deep draw, need the corresponding vertical mold motion of restriction (distance);

The yield strength of the preferred material of hard card protective cover to pulling strengrth than less than 40%, with PCMCIA require consistent.

It is also understood that the hard card protective cover that is provided has best intensity and rigidity to crooked with reversing.

Although the preferred embodiment in conjunction with various accompanying drawings has been described the present invention, should be understood that, can adopt other similar embodiment, perhaps described embodiment be made various modifications and replenish, finish said function of the present invention and can not depart from the scope of the invention.Therefore, should not limit the invention among any indivedual embodiment, and would rather explain the present invention according to the range and the scope of claims explanation.

PCMCIA pattern 2

1. twisting test

1/4 hard stainless steel, thickness 0.2mm

Test condition:

The hard card assembly comprises two protective covers and two connectors, does not have PCB

Action torque is 1.236Nm

At every turn in one direction to hard card action torque (rather than 5 times)

About 10 seconds of action torque (rather than 5 minutes) on hard card

Even exceed 10 ° maximum angular, all act on peak torque

Before bending test (according to the PCMCIA standard) and fingernail test, finish this test

Table I

Sample	Moment of torsion (Nm)	Corner (°)	Note
				??1	??1.236	??11.3	Clockwise
??1	??1.236	??12.6	Inhour
				??2	??1.236	??10.9	Clockwise
??2	??1.236	??11.7	Inhour
On average	??1.236	??11.63	Outward appearance does not have damage

Conclusion:

1. when hard-over, there is not failure phenomenon

2. the PCB in hard card or other element can play the effect of isolating pad, will increase rigidity significantly

PCMCIA pattern 2

2. bending test

1/4 hard stainless steel, thickness 0.2mm

Test condition:

The hard card assembly comprises two protective covers and two connectors, does not have PCB

Acting force is 19.6N

Test is according to the PCMCIA standard

Clamping device is the equipment according to SK33279

Hard card is held very firmly

After twisting test He before the fingernail test, finish this test

Testing machine is provided with: y axle: F=500N, speed 1: 1, range 5mV/om (1om=2.5N)

X axle: L=5, speed 1: 1, range 5mV/om (1om=1mm)

Table II

Sample	Power (N)	Displacement (mm)	Note
				??1	??20.7	??3.6	The clamping of I/O side, upwards
??1	??20.2	??3.3	The clamping of I/O side, downwards
				??1	??20.2	??2.3	68 spring hole scoket side clampings, upwards
??1	??20.5	??4.0	68 spring hole scoket side clampings, downwards
				??2	??20.2	??3.4	The clamping of I/O side, upwards
??2	??20.1	??3.4	The clamping of I/O side, downwards
				??2	??20.6	??3.1	68 spring hole scoket side clampings, upwards
??2	??20.4	??2.9	68 spring hole scoket side clampings, downwards
Average I/O	??20.30	??3.43
				Average 68 holes	??20.43	??3.08

Conclusion:

1. with respect to prior art, the hard card assembly of pattern 2 is very firm

2. take the physical dimension optimized and more firm clamping, the displacement indifference between I/O side and position, 68 hole socket side

PCMCIA pattern 2

3. nail simulation test

1/4 hard stainless steel, thickness 0.2mm

Come the approral test assembly by the number people, they are concerned about the resistivity with hand (comprise and use nail) the hard card assembly that splits

Test condition:

The hard card assembly comprises two protective covers and two connectors, does not have PCB

From both sides up to 14mm clamping hard card assembly

Test pin is according to the SK35578 pattern of revision 1,

Grease on hard card assembly and test pin is to avoid stick-slip phenomenon

Relevant reverse with bending test after finish this test

Testing machine is provided with: y axle: F=100N, speed 1: 1, range 0.1V/om (1om=50N)

X axle: L=50, speed 5: 1, range 5mV/om (1om=0.2mm)

Table III

Sample 1	Power (N)	Displacement (mm)	Note
				??1	??145??????????20	??2.08?????????103
??2	??120??????????24	??1.72?????????14
				??3	??165??????????33	??2.24?????????112
??I/O4	??120??????????24	??0.42?????????21
				??I/O5	??90???????????10	??0.25?????????125
??6	??113??????????23.9	??1.66?????????83
				??7	??130??????????26	??1.44?????????72
??8	??95???????????10	??1.18?????????39
On average	??127.92	??1.72
				Average I/O	??105.00	??0.34

Sample 2	Power (N)	Displacement (mm) note
			??1	??105????????21	??1.68????????84
??2	??95?????????19	??1.34????????67
			??3	??165????????83	??1.94????????97
??I/O4	??110????????22	??0.30????????15
			??I/O5	??95?????????10	??0.28????????14
??6	??110????????22	??1.36????????68
			??7	??120????????24	??1.24????????62
??8	??115????????23	??1.26????????63
On average	??118.33	??1.47
			Average I/O	??102.50	??0.29
			Vertical both sides	??123.13	1.59 two sample means
The I/O side	??103.75	0.31 two sample means
					The outward appearance not damaged

Conclusion:

1. the power of opening assembly is very high

2. almost the same high with power in vertical both sides in the power of I/O side

3. much lower in vertical both sides at the penetration depth ratio of I/O side

4. power/displacement curve has repeatability.

Claims (8)

1. hard card, comprising: a pcb component and the card protection cover with the conduction at angle, above-mentioned pcb component are inserted between the above-mentioned card protection cover,

Wherein at least one above-mentioned angle be the oblique angle and

Wherein above-mentioned protective cover also comprises first flange that extends along first edge near above-mentioned oblique angle; along second flange that extends near near second edge the above-mentioned oblique angle and the 3rd flange on above-mentioned oblique angle, wherein above-mentioned first, second determined one around continuous flange flange above-mentioned oblique angle, that cover above-mentioned printed circuit board (PCB) with the 3rd flange.

2. hard card as claimed in claim 1, wherein above-mentioned first, second and the 3rd flange are L shaped.

3. hard card as claimed in claim 1, wherein at least two angles are oblique angles.

4. the protective cover of a conduction can cooperate with another conductive protection cover to form the protective cover assembly of a hard card, and above-mentioned protective cover comprises:

A planar section,

A flange that extends along at least one edge of above-mentioned planar section; Have with this flange:

From the first of above-mentioned planar section horizontal expansion,

From the second portion that above-mentioned first extends, this second portion is arranged to parallel above-mentioned planar section also can be towards the corresponding second portion of a flange on the other conductive protection cover; With

The notch of an inclination on above-mentioned second portion in order to the tongue piece on the second portion of the flange of admitting other conductive protection cover, thereby is fixed together protective cover.

5. protective cover as claimed in claim 4, wherein the above-mentioned second portion of above-mentioned flange has the proximal part and the distal portions relative with above-mentioned first near above-mentioned first, and above-mentioned notch tilts to above-mentioned distal portions from above-mentioned proximal part.

6. protective cover as claimed in claim 5, wherein the notch of above-mentioned inclination comprises a plurality of notches that extend along above-mentioned flange.

7. protective cover as claimed in claim 6, wherein above-mentioned flange extends along the whole length at above-mentioned edge.

8. protective cover as claimed in claim 6, wherein above-mentioned flange extends along at least two edges.

Images