CN104103959B - Band unloading device card plug-in unit - Google Patents

Abstract

The present invention relates to band unloading device card plug-in unit.Card unloading device (6) includes:Displacer (11), together with card body (A) in the inner bottom surface portion of card insertion section (2), inserts/chooses direction along card and slide;Metal rotating bar (10), the card for being rotationally supported on the shaft on card insertion section (2) inserts/chosen direction inboard, and one end relatively movably can link with displacer (11) upper surface portion;And push rod (12), push the other end of rotating bar (10) so that rotating bar (10) is towards so that the direction that displacer (11) is moved to card extracting position (P2) side is rotated;Rotating bar (10) is supported on shell (3) by displacer (11), keeps it in the position (H2) higher than the projecting height (H1) of elastic contact chip portion (50).Operational excellent band unloading device card plug-in unit when the card body opposite shell such as IC-card is inserted/chosen is provided.

Description

Band unloading device card plug-in unit

Technical field

The present invention relates to the card plug-in unit (card for the cards such as IC-card or flash card to be connected with electronic equipment Connector), the card plug-in unit with unloading device more particularly to provided with card unloading device (below, is abbreviated as " band knockout machine Structure card plug-in unit ").

Background technology

In the past, in this card plug-in unit, provided with can be such by operating push rod to take out the unloading device of card out of shell Card plug-in unit is known by people (for example, patent document 1).

The unloading device of the card plug-in unit, which possesses, to be rotatably supported in the card of shell and inserts/choose the inboard rotation in direction Bar, and the push rod with one end link of the rotating bar so that the push rod is slided towards card insertion direction and moved, and is passed through and is pushed into rotation The one end of bar, rotates rotating bar, releases at the inboard edge of card towards discharge direction in the another side of rotating bar.

That is, the push-in action of push rod is transformed into rotatory force by rotating bar, utilizes the rotatory force pushing out card.

For the rotating bar for the card unloading device, consider from intensity angle, typically using sheet metal.

【Patent document 1】Japanese Unexamined Patent Publication 10-189139 publications

But, in conventional art as described above, the one end of rotating bar is directly abutted with the front-end edge of card, therefore, Therefore the rotatory force peptizaiton to card of rotating bar, deposits in launch direction (insertion of card/direction of choosing) and card width The problem of the push-in action of push rod can not be transmitted effectively as the power in pushing out card direction.

In addition, in such unloading device, if the rotation of setting rotating bar can energy it is big, the one of metal rotating bar Side is reached on contact, then rotating bar and contact, and rotation is passed through between each contact of worry or between contact and other circuits Bar short circuit, again, if rotating bar and contact, inserts/chooses that direction is crisscross, can not hold with card for contact effect Perhaps the power of deformation direction, therefore, also worries that contact is buckled.

, in the prior art, then by limit rotating bar rotation can energy (possible rotational angle), avoid rotating bar Contact with contact, is this, there is the problem of also limiting the card released amount as caused by rotating bar.

In the prior art, again, the one end of rotating bar is directly abutted with the front-end edge of card, therefore, is configured to adjoint and is pushed away The power of the push-in action of bar is directly delivered to card by rotating bar, and therefore, if being pushed into push rod with strength, its impetus passes through with not subtracting Rotating bar is delivered to card, worries to cause card to be jumped out from shell because of the impetus, blocks breakage.

Have again, conventional rotating bar turns into does not have confined state (free state) in card card thickness direction, therefore, Worry because the reason for the turning into abnormal sound such as loosening, meanwhile, rotating bar and contact, worry as contact the reason for buckle.

The content of the invention

Then, the present invention in view of the problems of this conventional art and put forward, its object is to there is provided Operational excellent band unloading device card plug-in unit when the card body opposite shell such as IC-card is inserted/chosen.

In order to solve the problems of conventional art as described above, above-mentioned purpose is realized, technical solution of the present invention (1) It is characterised by with unloading device card plug-in unit

The band unloading device card plug-in unit includes:

Shell, forms the card insertion section of insertion card body;

Multiple contacts, flexible contact chip portion is protruded from the inner bottom surface portion of above-mentioned card insertion section, with being exposed to above-mentioned card The signal transmission termination contact of the single-face side of body;And

Card unloading device, for releasing above-mentioned card body from above-mentioned card insertion section;

It is described to be characterised by with unloading device card plug-in unit:

Above-mentioned card unloading device includes:

Displacer, together with above-mentioned card body in the inner bottom surface portion of above-mentioned card insertion section, direction is inserted/chooses along card, Slided between the card insertion position desired by interval and card extracting position;

Metal rotating bar, the card for being rotationally supported on the shaft on above-mentioned card insertion section inserts/chosen direction inboard, one end energy Relatively movably link with above-mentioned displacer upper surface portion;And

Push rod, pushes the other end of the rotating bar so that above-mentioned rotating bar is towards so that above-mentioned displacer takes out to above-mentioned card The direction of position side movement is rotated;

Above-mentioned rotating bar is supported on above-mentioned shell by above-mentioned displacer, keeps it in than above-mentioned elastic contact chip portion The high position of projecting height.

The invention that technical scheme (2) is recorded is tied up in the band unloading device card plug-in unit of above-mentioned technical proposal (1) record, and it is special Levy and be:

Above-mentioned displacer is provided with the insulation division that is made up of insulating part, and it is located at side below above-mentioned rotating bar, and It is configured to move on above-mentioned contact during above-mentioned slip, the insulation division is between above-mentioned rotating bar and above-mentioned contact.

The invention that technical scheme (3) is recorded ties up to the band unloading device card plug-in unit that above-mentioned technical proposal (1) or (2) are recorded In, it is characterised in that:

Using in above-mentioned card body, portion lateral margin has the card of positioning notch in card insertion direction, set in above-mentioned displacer Have with above-mentioned positioning with notch chimeric positioning fitting portion mutually.

The invention that technical scheme (4) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (1)~(3) In plug-in unit, it is characterised in that:

Above-mentioned displacer is integrally formed by insulative synthetic resin.

The invention that technical scheme (5) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (2)~(4) In plug-in unit, it is characterised in that:

In above-mentioned insulation division, the pressing portion provided with the convex towards the bulging of contact side, when above-mentioned insulation division is moved on contact When, above-mentioned pressing portion down pushes above-mentioned elastic contact chip portion.

The invention that technical scheme (6) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (1)~(5) In plug-in unit, it is characterised in that:

In above-mentioned contact, its one end is set to be supported on the branch of above-mentioned shell by the elastic contact chip portion provided with " ヘ " shape Socket end, the movable end that its other end is set to slide in the inner bottom part of above-mentioned card insertion section, meanwhile, in above-mentioned supported end and can Between moved end, configuration is floated from above-mentioned card insertion section inner bottom surface, contact portion is formed.

The invention that technical scheme (7) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (1)~(6) In plug-in unit, it is characterised in that:

Above-mentioned shell and above-mentioned rotating bar mutually it is relative to interior face, provided with desired position and above-mentioned rotation The mosaic process that bar is fitted together to mutually.

The invention that technical scheme (8) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (1)~(7) In plug-in unit, it is characterised in that:

Above-mentioned push rod is configured, can be departed from from above-mentioned rotating bar, meanwhile, provided with spring body, to above-mentioned push rod towards disengaging Energize in the direction of above-mentioned rotating bar.

The invention that technical scheme (9) is recorded ties up to the band unloading device card of any one record of above-mentioned technical proposal (1)~(8) In plug-in unit, it is characterised in that:

In above-mentioned shell, provided with the push rod incorporating section for movably storing above-mentioned push rod, and configure in push rod storage The multiple switch terminal of the desired position of portion's inner bottom surface;

Above-mentioned push rod is provided with the body that is made up of insulative synthetic resin, and be exposed to the bottom surface side of the body The switch block of conductive metal material with multiple elastic switch slice portions;

By causing above-mentioned push rod to move, in above-mentioned desired position, above-mentioned each elastic switch slice portion respectively with it is above-mentioned Each switch terminal contact, to turn between above-mentioned switch terminal by above-mentioned switch block.

Illustrate the effect of the present invention below:

Card plug-in unit of the present invention includes as described above:

Shell, forms the card insertion section of insertion card body;

Multiple contacts, flexible contact chip portion is protruded from the inner bottom surface portion of above-mentioned card insertion section, with being exposed to above-mentioned card The signal transmission termination contact of the single-face side of body;And

Card unloading device, for releasing above-mentioned card body from above-mentioned card insertion section;

Above-mentioned card unloading device includes:

Displacer, together with above-mentioned card body in the inner bottom surface portion of above-mentioned card insertion section, direction is inserted/chooses along card, Slided between the card insertion position desired by interval and card extracting position;

Metal rotating bar, the card for being rotationally supported on the shaft on above-mentioned card insertion section inserts/chosen direction inboard, one end energy Relatively movably link with above-mentioned displacer upper surface portion;And

Push rod, pushes the other end of the rotating bar so that above-mentioned rotating bar is towards so that above-mentioned displacer takes out to above-mentioned card The direction of position side movement is rotated;

Above-mentioned rotating bar is supported on above-mentioned shell by above-mentioned displacer, keeps it in than above-mentioned elastic contact chip portion The high position of projecting height.

Therefore, the rotational motion of rotating bar can be effectively converted into the power of card launch direction, and rotating bar it is normal when in axle branch Part and two places of displacer are supported, can prevent from loosening, it is ensured that stable operability.Again, rotating bar is maintained at than upper The high position of the projecting height in elastic contact chip portion is stated, accordingly, it is capable to avoid contact of the rotating bar with contact, contact pressure can be prevented Song, can not limit the energy rotational angle of rotating bar, rotating bar can be reached on contact, accompanied with this, the released amount of card Also can be many, it can suitably take out card.

In the present invention, again, above-mentioned displacer is provided with the insulation division being made up of insulating part, and it is located at above-mentioned rotating bar Below side, and be configured in above-mentioned slip to move on above-mentioned contact, the insulation division is between above-mentioned rotating bar and above-mentioned Between contact.It by insulation division insulation contact and rotating bar, therefore, it can not limit the energy rotational angle of rotating bar, can cause Rotating bar is reached on contact, is accompanied with this, the released amount of card also can be more, can suitably take out card.Again, between rotating bar and touch Head between release with displacer (insulation division) only card insert/choose direction move, therefore, will not for contact effect with Card inserts/chosen that direction is crisscross, be unable to the power in allowable strain direction, can prevent contact from buckling.

Have again, in the present invention, using in above-mentioned card body, portion lateral margin has positioning notch in card insertion direction Card, is provided with above-mentioned positioning with notch chimeric positioning fitting portion mutually in above-mentioned displacer.Therefore, the mistake of card can be prevented Insertion, meanwhile, it can be acted in release with the insertion blocked under displacer and card stationary state/taking-up.

In the present invention, again, integrally formed by insulative synthetic resin by above-mentioned displacer, can be manufactured inexpensively has The release displacer for the insulation division being made up of insulating part.

Have again, in the present invention, by being provided with the pressing portion towards the convex of contact side bulging in above-mentioned insulation division, when above-mentioned When insulation division is moved on contact, above-mentioned pressing portion down pushes above-mentioned elastic contact chip portion, and contact plays buffering effect, can closed The impetus during push-in action of the push rod transmitted by rotating bar is relaxed suitablely, can prevent card from jumping out.

Have again, in the present invention, in above-mentioned contact, its one end is set to branch by the elastic contact chip portion provided with " ヘ " shape The supported end in above-mentioned shell is held, the movable end that its other end is set to slide in the inner bottom part of above-mentioned card insertion section, meanwhile, Between above-mentioned supported end and movable end, configuration is floated from above-mentioned card insertion section inner bottom surface, contact portion is formed.Therefore, displacer The movement of opposing contact turns into smooth.

In the present invention, again, by above-mentioned shell and above-mentioned rotating bar mutually it is relative to interior face, provided with wishing The chimeric mosaic process mutually of the position of prestige and above-mentioned rotating bar, can be for example in desired card insertion position or card extracting position Temporary locking rotating bar and displacer.

Have again, in the present invention, by configuring above-mentioned push rod, can depart from from above-mentioned rotating bar, meanwhile, provided with spring Body, energizes to above-mentioned push rod towards the direction for departing from above-mentioned rotating bar, when push-in is acted beyond, the position of push rod and rotating bar without Close, therefore the position being pressed into positioned at energy when normal, can also correspond to even if maloperation.

Have again, in the present invention, in above-mentioned shell, provided with the push rod incorporating section for movably storing above-mentioned push rod, and Configure the multiple switch terminal in the position desired by the push rod incorporating section inner bottom surface;Above-mentioned push rod is provided with and synthesized by insulating properties The body that resin is constituted, and it is exposed to the conductive metal with multiple elastic switch slice portions of the bottom surface side of the body The switch block of material;By causing above-mentioned push rod to move, in above-mentioned desired position, above-mentioned each elastic switch slice part Do not contacted with above-mentioned each switch terminal, cause to turn between above-mentioned switch terminal by above-mentioned switch block.Push rod can be had Switching function.

Brief description of the drawings

Fig. 1 is to represent the stereogram of one of the present invention with unloading device card plug-in unit.

Fig. 2 is Fig. 1 from the stereogram in terms of downside.

Fig. 3 is the line A-A sectional view in Fig. 1, is to unload radome state diagram.

Fig. 4 is Fig. 3 exploded perspective view.

Fig. 5 is the ground plan for representing card body one.

Fig. 6 is the stereogram for representing the outer cover body in Fig. 4.

Fig. 7 (a) is the amplification view for representing the rotating bar in Fig. 4, and (b) is its front elevation.

Fig. 8 (a) is the amplification stereogram for representing its displacer, and (b) is the stereogram seen from its downside.

Fig. 9 is the amplification stereogram for the configuration for representing each contact in Fig. 6.

Figure 10 is the enlarged partial isometric view for the assembled state for representing the contact in Fig. 6.

Figure 11 (a) is the stereogram for representing the push rod in Fig. 4, and (b) is from the stereogram seen below.

Figure 12 (a)~(b) is the sectional view for the operating state for representing switch.

Figure 13 (a)~(d) is the plane for unloading radome state for the operating state for representing card plug-in unit of the present invention Figure.

Symbolic significance is as follows in figure:

A- card bodies

1- card plug-in units

2- cards insertion section

3- shells

4,5- contacts

6- card unloading devices

8,9- switch terminals

10- rotating bars

11- displacers (ejector)

12- push rods

13- outer cover bodies

14- radomes（shield cover）

15- displacers incorporating section

16- push rods incorporating section

20- base plates

21- sides wall

22- platforms portion

23- rotary shafts

30- patchholes

31- bar bodies portion

32- is pressed into portion

33- links axle portion

40- connecting slots

41- displacer bodies

42- insulation divisions

43- guiding projections

44- guide grooves

45- positioning fitting portions

46- pressing portion

50- elastic contact chips portion

51- movable ends

52- insulating wrapped bodies

53- supports end

54- contact portions

55- is by sliding face

60- putter bodies

61- switch blocks

62- insertion sections

63- recesses

64- is pushed into axle

65- energizes portion

66- spring bodies

67- operating portions

70- base portions

71,72- elastic switch slices portion

73- exposed hole

74- crimps plate portion

81,82- switches convex portion

Embodiment

Below, the embodiment shown in 1~Figure 13 of reference picture illustrates the implementation of the present invention with unloading device card plug-in unit Form, in following embodiment, although to inscape, species is combined, shape, and relative configuration etc. has made various restrictions, but It is that these are only to enumerate, and the invention is not limited in this.

Symbol A is the card body of IC-card etc. in figure, and symbol 1 is band unloading device card plug-in unit (following, to be abbreviated as " card plug-in unit ").

Card body A be IC-card as shown in Figure 5, formed compared with the whole width of card, card full length length it is rectangular-shaped, in square One corner of shape, is formed along the positioning of tilted direction kerf notch Aa.

In addition, in card body A one side, multiple signal transmission terminal (bonding pad, pad) a1~a6 are formed, each signal is passed Terminal a1~a6 is inserted in card respectively/direction interval of choosing is passed, with being classified as two sections of configurations.

Card plug-in unit 1 includes the shell 3 of the card insertion section 2 with insertion card body A, and is supported on shell 3, from card insertion section Two kinds of contacts 4 being made up of conductive metal material that 2 inner bottom part is protruded, 4 ... and contact 5, be inserted into card insertion section 2 Card body A the signal exposed in single-face side transmission terminal a1~a6 and corresponding each contact 4,4 ... or contact 5 is contacted, logical Cross card plug-in unit 1 so that card body A and the connection of connecting substrate electric.

In addition, the card plug-in unit 1 is provided with the card unloading device 6 for being used for that card body A to be released from card insertion section 2, is located at by operation Shell 3, the push rod 12 that can be pushed into card insertion direction, card body A is released from shell 3, taken out.

The card unloading device 6 includes displacer 11, metal rotating bar 10, and push rod 12, the displacer 11 with Together, in the inner bottom surface portion of card insertion section 2, the card for inserting/choosing desired by the interval of direction in card inserts position to card body A Put and slided between P1 and card extracting position P2, the card that the rotating bar 10 is rotationally supported on the shaft on card insertion section 2 inserts the/side of choosing To inboard, one end can relatively movably link with the upper surface portion of displacer 11, and the push rod 12 pushes the other end of rotating bar 10, makes Rotating bar 10 is obtained towards causing the direction that displacer is moved towards card extracting position P2 sides to rotate, by being pushed into push rod 12, rotating bar 10 Rotational action, with this gearing, displacer 11 from the card insertion position P1 for inserting/choosing in card desired by the interval of direction to Card extracting position P2 slides movement, accompanies with this, releases card body A.

Shell 3 by the plastic outer cover body 13 of combined insulation, and cover its upper surface portion, back part, with And the radome 14 being made up of conductive metal sheet material of side surface part, form the hollow box of end opening on front side of its card insertion direction Shape.

Again, it is inboard in the sidepiece of a side of card insertion section 2 in shell 3, can be slidably provided with inserting/choosing direction in card The displacer incorporating section 15 of displacer 11 is stored, in side opposite with displacer incorporating section 15, is matched somebody with somebody provided with parallel with card insertion section 2 Put, insert/choose direction in card and can movably store the push rod incorporating section 16 of push rod 12.

Outer cover body 13 is as shown in Figure 6, including flat base plate 20, and from base plate 20 in card plug-in unit width side To interval configured in parallel, a pair of sidewalls portion 21a, 21b for erecting from base plate 20 shape, in both sides wall portion 21a, 21b Between form the card insertion section 2 of the concave shape of upper face side, meanwhile, in the side of sidewall portion 21a of side inboard, formed and card insertion section The 2 displacer incorporating sections 15 being integrally formed, separate the side of sidewall portion 21b of the opposing party, abut and configure with card insertion section 2, form push rod Covered above incorporating section 16, card insertion section 2 and push rod incorporating section 16 by radome 14.

Again, in outer cover body 13, the card insertion direction in card insertion section 2 is inboard, in card plug-in unit width and displacer The position of the interval of incorporating section 15, provided with prominent rotary shaft 23 above platform portion 22, is turned by the rotary shaft 23 insertion The axle branch hole 30 of lever 10, the card that rotating bar 10 is rotationally supported on the shaft on card insertion section 2 inserts/chosen direction inboard.

Rotating bar 10 is as shown in Figure 7, by being formed as one with rigid metal panel, with rectangular-shaped bar body Portion 31, and portion 32 is pushed into from the one end in bar body portion 31 towards tilted direction extension shape, formed and overlooked in Japanese " ヘ " word Shape.

Axle branch hole 30 forms in bar body portion 31 and is pushed into the position of the intersection of portion 32, when rotating bar 10 is supported on the shaft on into shell When 3, the leading section in bar body portion 31 is located in displacer incorporating section 15, is pushed into portion 32 and configures in push rod incorporating section 16 Side, rotating bar 10 is rotated using the position in the axle branch hole 30 as basic point.

In bar body portion 31, with axle branch hole 30 in the position of length direction interval, provided with being dashed forward below body The link axle portion 33 gone out, inserts the connecting slot 40 formed above displacer 11, as bar sheet by the link axle portion 33 The leading section in body portion 31 can be relatively movably with linking above displacer 11.

The link axle portion 33 is that, by drawing process, the edge in hole 34 forms the prominent shape for cylindrical shape down, passed through So that radome 14 with rotating bar 10 mutually it is relative to interior face, form mosaic process 35a, 35b in top plate 14a with being somebody's turn to do Opening portion is fitted together to above hole 34, can be in desired position temporary locking rotating bar 10.

The desired position that mosaic process 35a, 35b tie up to top plate 14a causes inner side surface side is recessed to be formed, can be with hole 34 It is chimeric, for example, be formed as the mosaic process 35a of a side card insertion position P1, the opposing party mosaic process 35b in card taking-up position Put P2 chimeric with hole 34 respectively.

Displacer 11 is as shown in Figure 8, integrally formed by insulative synthetic resin material, including in the discharge of platform shape chess piece shape Device body 41, and the flat insulation division 42 protruded in the horizontal direction from the side face of displacer body 41.

Its thickness of displacer body 41 be formed so that it is roughly the same with the height in the platform portion 22 of outer cover body 13, below 41a and the inner bottom surface of the inner bottom surface of displacer incorporating section 15, i.e. card insertion section 2 slip mutually.Therefore, when rotating bar 10 is normal outside Two places are supported above the axle branch part (platform portion 22) of shell 3 and displacer 11, can be suppressed to loosen, stably be acted. Symbol 41b is to keep out of the way to use groove in figure, during slip, and a side of sidewall portion 21a part keeps out of the way groove 41b so that the He of displacer 11 Side of sidewall portion 21a does not interfere.

Again, the thickness of displacer body 41 as shown in Figure 3, is formed as thicker than the projecting height H1 of contact 5, rotating bar 10 Shell 3 is supported on by displacer 11, in card card thickness direction, elastic contact chip portion 50 than contact 5 is maintained at when normal Position H2 high projecting height H1.

The holding height H2 of rotating bar 10 be preferably set to than do not interfere other contacts 4,4 ... projecting height it is high.

Below the displacer body 41, provided with guiding projection 43 prominent down, in the base plate of shell 3 The inner bottom surface of 20 sidepiece, i.e. displacer incorporating section 15, direction is inserted/chooses towards card, provided with being formed as slot-shaped guiding Groove 44, by causing the guiding projection 43 to insert in guide groove 44, the one side of displacer 11 is directed in the guide groove 44, on one side Direction is inserted/chooses in card to slide.

In the displacer body 41, provided with inserting/choose the positioning of inner side slant cutting edge shape before direction in card with embedding Conjunction portion 45, the positioning is fitted together to mutually with fitting portion 45 and card body A positioning with notch Aa, when inserting/choosing card body A, Displacer 11 is suitable for moving together in the state of card body A.

If card body A is inserted with the opposite way round, card body A other corner relative positioning fitting portions 45 are contacted, therefore, card Body A will not be inserted into set card insertion position P1, can prevent being mistakenly inserted for card body A.

Connecting slot 40 is formed towards the elongated hole channel-shaped for inserting/choosing direction orthogonal direction, i.e. card plug-in unit width with card, Link axle portion 33 to be inserted into the connecting slot 40.Again, the card of the connecting slot 40 inserts/chosen direction width with linking axle portion 33 External diameter is roughly the same or big slightly.

Further, the rotational action with rotating bar 10 is interlocked, and links side 40a or 40b that axle portion 33 pushes connecting slot 40, and While rotated in groove, while in the movement of card plug-in unit width, the card insertion of the rotational action of rotating bar 10 and displacer 11/ Choose the mutual phase inversion of slip in direction.

Again, stopping is abutted against by linking the inner side ora terminalis 40c of axle portion 33 and the connecting slot 40, limitation rotating bar 10 continues to turn Action.Therefore, the possibility rotational angle of rotating bar 10 depends on the card plug-in unit width length of connecting slot 40, passes through adjustment The card plug-in unit width length of the connecting slot 40, can adjust the card released amount of displacer 11.

Insulation division 42 is formed as being provided projectingly integral tabular from the side of displacer body 41, is configured at it It can be moved during slip on contact 5, when displacer body 41 is slided on the inner bottom surface of card insertion section 2, the insulation division 42 Between rotating bar 10 and contact 5.

Below the insulation division 42, i.e. the side of contact 5, the pressing portion 46 provided with the convex towards the side bulging of contact 5, work as insulation When portion 42 is moved on contact 5, pressing portion 46 down pushes the elastic contact chip portion 51 of contact 5.

Pressing portion 46 is such as shown in Fig. 8 (b), and the both ends for inserting/choosing direction in the card of insulation division 42 are provided with rake 46a, card inserts/chosen the center formation in direction towards the shape of the side bulging of contact 5.

Each contact 4,4 ... and contact 5 with configuration status shown in Fig. 9 by produced by insert molding load outer cover body 13 bottom Plate portion 20.

Symbol 8,9 is switch terminal in figure, with contact 4,4 ... and base plate loaded by produced by insert molding together with contact 5 20。

Contact 4,4 ... each elastic contact chip portion with contact portion 4a protruded from the inner bottom surface of card insertion section 2, Contacted with the card body A of insertion corresponding signal transmission terminal (bonding pad) a1, a2, a4~a6, and as mutual with rotating bar 10 The configuration do not interfered mutually.

Again, the contact 4,4 ... substrate connection portion of terminal 4b be formed as being exposed to the bottom surface of shell 3, can exist with being formed Figure soldering in connecting substrate.

On the other hand, contact 5 have from other contacts 4,4 ... different structures, configure displacer 11 insulation division On 42 moving track.

The contact 5 is that conductive metal sheet material is punched out, turns back and processes formation, is in the bullet of " ヘ " shape provided with side view Property contact chip portion 50, the movable end 51 in the elastic contact chip portion 50, provided with the insulating wrapped body being made up of insulating part 52。

Symbol 5b is substrate connection terminal in figure, the substrate connection terminal 5b and other contacts 4,4 ... substrate connection Terminal 4b, 4b ... be exposed to together below shell, with formed connecting substrate connection figure soldering.

One end is set to be supported on the supporting end 53 of base plate 20 by elastic contact chip portion 50, and the other end is set to can be relative The movable end 51 that base plate 20 is moved, it is in " ヘ " shape to form side view, between supporting end 53 and movable end 51, is provided with The contact portion 54 contacted with card body A signal transmission terminal a3, when being assembled into base plate 20, is formed as the contact portion 54 from card The inner bottom part of insertion section 2 floats the configuration of (projection).

Movable end 51 integrally comprises the sliding part 51a formed as one with the leading section in elastic contact chip portion 50, with And extend the fixation core portion 51b of shape in the horizontal direction from sliding part 51a lateral margin, it is fixed above fixed core portion 51b The insulating wrapped body 52 being made up of insulative synthetic resin material.

The sliding part 51a being made up of conductive metal material, which is in, exposes state, as shown in Figure 10, with elastic contact chip The elastic deformation in portion 50, with by sheet metal constitute by sliding facial 55 above slip, support elastic contact chip portion at two ends 50。

Push rod 12 as shown in figure 11, is loaded the switch block 61 being made up of conductive metal material absolutely by produced by insert molding In the putter body 60 of edge synthetic resin material.

Putter body 60 is formed as rectangular flat shape, in the insertion section 62 of push-in direction exterior region formation section shape, the insertion Portion 62 is inserted into being pushed under portion 32 of rotating bar 10.

Portion is formed towards front edge side and the recess of outer openings 63 in the above for the insertion section 62, is moved with the push-in of push rod 12 Make, the front side medial surface 63a of the recess 63 is supported with the push-in axle portion 64 that the front end of portion 32 protrudes below that is pushed into from rotating bar 10 Connect, the direction moved towards displacer 11 to card extracting position P2 sides is pushed.

On the other hand, only abutted with the relative push-in axles 64 of medial surface 63a on front side of recess, therefore, push rod 12 is in can be with The state that rotating bar 10 departs from.

Again, in a sidepiece of putter body 60, it is integrally formed inwards prominent portion 65 of energizing, the spring of helical spring etc. Body 66 is energized between portion 65 and the inboard inner side face of push rod incorporating section 16 between this, and the spring body 66 is acted on instead to shell 13 Power, energizes to push rod 12 towards the direction for leaving rotating bar 10.

Switch block 61 be conductive metal sheet material is punched out, bending machining is integrally formed, including rectangular box-like Base portion 70, and cut from the interior lateral margin of the base portion 70 towards tilted direction a pair of elastic switch slice portions 71,72 of shape.

Elastic switch slice portion 71,72 inserts/chosen direction mutually towards on the contrary, and being formed as front end in bottom surface in switch The cantilever leaf-spring-like that side floats, by forming the exposed hole 73 in the up/down perforation of the central portion of putter body 60, is exposed to and pushes away The bottom surface of bar body 60.

Also, operating portion 67 configures the rear end side in putter body 60, switch block 61 is provided with crimping plate portion 74, and it is configured to The rear end face of operating portion 67 is exposed to, by the push-in part of pin (pin) shape, the crimping plate portion 74 is pushed, in card insertion direction It is pushed into push rod 12.

Also, switch is protruded with convex portion 81,82 from the inner bottom surface of push rod incorporating section 16, exposed hole 73 is inserted, push rod 12 is with opening Close and abutted against and stopped with the inboard end face of convex portion 81, the movement towards abjection direction of limitation push rod 12.

The switch convex portion 81,82 is configured to insert/choose direction in card mutually different.Therefore, in the shape of putter body 60 Into the backoff portion 73a continuously configured with exposed hole 73, when being pushed into push rod 12, inboard switch enters the backoff portion with convex portion 82 73a。

Each switch convex portion 81,82 is formed as the side view platform shape in front side with rake 81a, 81b, switch terminal 8, 9 switch figure portion 8a, 9a is exposed to its upper surface portion.

Switch terminal 8,9 as shown in figure 9, be conductive metal sheet material is punched out, bending machining forms as one, bag Include switch figure portion 8a, the 9a being exposed to above each switch convex portion 81,82, and with each contact 4,4 ... substrate connection Portion of terminal 4b is arranged side by side, be exposed to below shell substrate connecting portion 8b, 9b.

Therefore, if push-in push rod 12, such as Figure 12（b）Shown, in desired position, each elastic switch slice portion 71,72 is stepped on It is upper switch use convex portion 81,82, each elastic switch slice portion 71,72 respectively with switch figure portion 8a of the switch above convex portion 81,82, 9a is contacted, by switch block 61, is turned between switch terminal 8,9.

That is, push rod 12 and switch terminal 8,9 constitute slide switch, by switching the on/off of the slide switch, energy Detect the push-in action of push rod 12.

In the card plug-in unit 1 so constituted, when the occasion of card body A insertion cards insertion section 2, such as Figure 13（a）It is shown, displacer 11 In desired card insertion position P1, with this gearing, the position of rotating bar 10 is that bar body portion 31 turns into and card plug-in unit width The almost parallel position in direction, in the portion that is pushed into 32 towards prominent such position in push rod incorporating section 16.

In this condition, push rod 12 is energized by spring body 66, the anterior end positioned at push rod incorporating section 16, in insertion section 62 insertions are pushed into the state under portion 32, and in energy pushing status.

Such as Figure 13（a）~Figure 13（b）Shown, if being pushed into push rod 12 from the state, the recess side 63a of push rod 12 is with pushing away Enter axle portion 64 to abut, if being pushed further into push rod 12, such as Figure 13（b）~Figure 13（c）Shown, push rod 12 is by the one of rotating bar 10 End, that is, be pushed into portion 32 and be pushed into towards inboard.

So, the rotating bar 10 that end is pushed into is standard shaft with rotary shaft 23, towards displacer 11 to card extracting position P2 sides Mobile direction, rotated herein for horizontal counterclockwise, with this gearing, displacer 11 takes out from card insertion position P1 to card Position P2 is slided on the inner bottom surface of card insertion section 2, is pushed by the displacer 11, card body A is pushed out.

At this moment, the front end that displacer 11 can be relatively movably with rotating bar 10 links, therefore, the rotational motion of rotating bar 10 The power of card launch direction is effectively converted into, card body A can be released.

Also, rotating bar 10 is supported on shell 3 by displacer 11, it is maintained at when card card thickness direction is normal than contact 5 Elastic contact chip portion 50 the high position H2 of projecting height H1, rotating bar 10 and contact 5 will not contact, therefore, it can not limit The energy rotational angle of rotating bar 10 processed, can cause rotating bar 10 to reach on contact 5, i.e. can cause rotating bar 10 and the weight of contact 5 It is folded.

Also, accompanying with this, card body A released amount also can be more, can suitably take out card body A.

Further, in the card plug-in unit 1, insulation division 42 is between contact 5 and rotating bar 10, and contact 5 and rotating bar 10 are true Real insulation, therefore, even if so that rotating bar 10 is reached on contact 5, i.e. so that rotating bar 10 and the overlapping occasion of contact 5, can also prevent The short circuit being only not intended to.

Even if also, so that rotating bar 10 and the overlapping occasion of contact 5, rotating bar 10 and contact 5 are not also contacted, and existing with touching The displacer 11 of first 5 contact possibility（Insulation division 42）Direction movement is only inserted/chooses in card when often, therefore, for contact 5, the power for being not intended to direction will not be acted on, i.e. the power of card plug-in unit width, accordingly, it is capable to prevent contact 5 from buckling.

Further, by the way that pressing portion 46 is provided with below insulation division in advance, when displacer 11 is moved on contact 5, absolutely The front side of the pressing portion 46 of edge 42 from " ヘ " shape in elastic contact chip portion 51 is close, and rake 46a is abutted with inclined plane, will The lower end face of pressing portion 46 is directed to contact portion 54, then, is down pushed by insulation division 42, the elasticity of elastic contact chip portion 50 Deformation.

At this moment, due to contact 5 and the Elastic Contact of insulation division 42, the resistance that card inserted/chosen direction is produced in displacer 11, Because of the resistance, the impetus to rotating bar 10 plays buffering effect, suitably relaxes and passes through pushing away for the push rod 12 that rotating bar 10 is transmitted Enter impetus when acting, jumping out for card body A can be prevented.

On the other hand, if card body A taking-up terminates, such as Figure 13（d）Shown, push rod 12 is energized by spring body 66, is replied To origin-location.

So, by being configured to depart from rotating bar 10 by push rod 12, and provided with by push rod 12 towards departing from rotating bar 10 The spring body 66 that direction is energized, when push-in is acted beyond, push rod 12 is unrelated with the position of rotating bar 10, positioned at can be normal when be pressed into Origin position, therefore, can also be corresponded to even if maloperation.

In the above-described embodiments, the example for using card as shown in Figure 5 as card body A is illustrated, still, the composition of card body is simultaneously Above-described embodiment is not limited to, can be that flash card etc. is other blocks or card is accommodated in into chuck or adapter （adapter）Person.

Also, in the above-described embodiments, illustrating insulation division between contact 5 and rotating bar 10, by the insulation division with discharging Device 11 is set to integral example, still, and the form of displacer 11 is simultaneously not limited to this, if for example, rotating bar 10 is maintained at ratio Position H2 high the projecting height H1 in elastic contact chip portion 50, can be not provided with insulation division 42, also, can also be in insulation division 42 not Pressing portion 46 is set, even if insulation division 42 is between rotating bar 10 and contact 5, also not contacted with contact 5.

Also, the shape of contact 4,5 is not limited to shown in above-described embodiment, for example, contact 5 is identical with contact 4, it is cantilever Spring-like, can also be all identical with contact 5, the elastic contact chip portion with " ヘ " shape.

All it is only to implement this in the shape and structure of the above-mentioned each several part for shown in the embodiment that carries out an invention The materialization carried out during invention one, not because of the technical scope of the above-mentioned embodiment limited interpretation present invention.

Claims (9)

1. a kind of band unloading device card plug-in unit, including:

Shell, forms the card insertion section of insertion card body；

Multiple contacts, flexible contact chip portion is protruded from the inner bottom surface portion of above-mentioned card insertion section, with being exposed to above-mentioned card body The signal transmission termination contact of single-face side；And

Card unloading device, for releasing above-mentioned card body from above-mentioned card insertion section；

It is described to be characterised by with unloading device card plug-in unit:

Above-mentioned card unloading device includes:

Displacer, together with above-mentioned card body in the inner bottom surface portion of above-mentioned card insertion section, direction is inserted/chooses along card, every Slided between card insertion position and card extracting position of the standard width of a room in an old-style house desired by；

Metal rotating bar, the card for being rotationally supported on the shaft on above-mentioned card insertion section inserts/chosen direction inboard, and one end can be relative Movably link with above-mentioned displacer upper surface portion；And

Push rod, pushes the other end of the rotating bar so that above-mentioned rotating bar court causes above-mentioned displacer to above-mentioned card extracting position The direction of side movement is rotated；

Above-mentioned rotating bar is supported on above-mentioned shell by above-mentioned displacer, keeps it in the protrusion than above-mentioned elastic contact chip portion Highly high position；

In above-mentioned shell, provided with the push rod incorporating section for movably storing above-mentioned push rod, and configure in the push rod incorporating section The multiple switch terminal of the desired position of bottom surface；

Above-mentioned push rod is provided with the body that is made up of insulative synthetic resin, and is exposed to the bottom surface side of the body and has The switch block of the conductive metal material in multiple elastic switch slice portions；

By causing above-mentioned push rod to move, in above-mentioned desired position, above-mentioned each elastic switch slice portion is respectively opened with above-mentioned respectively Termination contact is closed, causes to turn between above-mentioned switch terminal by above-mentioned switch block.

2. the band unloading device card plug-in unit according to claim 1, it is characterised in that:

Above-mentioned displacer is provided with the insulation division being made up of insulating part, and it is located at side below above-mentioned rotating bar, and above-mentioned It is configured to move on above-mentioned contact during slip, the insulation division is between above-mentioned rotating bar and above-mentioned contact.

3. the band unloading device card plug-in unit according to claim 1, it is characterised in that:

Using in above-mentioned card body, portion lateral margin has the card of positioning notch in card insertion direction, above-mentioned displacer be provided with The positioning fitting portion that above-mentioned positioning is fitted together to mutually with notch.

4. the band unloading device card plug-in unit according to claim 2, it is characterised in that:

Using in above-mentioned card body, portion lateral margin has the card of positioning notch in card insertion direction, above-mentioned displacer be provided with The positioning fitting portion that above-mentioned positioning is fitted together to mutually with notch.

5. the band unloading device card plug-in unit according to any of Claims 1 to 4, it is characterised in that:

Above-mentioned displacer is integrally formed by insulative synthetic resin.

6. the band unloading device card plug-in unit according to any of claim 2~4, it is characterised in that:

In above-mentioned insulation division, the pressing portion provided with the convex towards the bulging of contact side, when above-mentioned insulation division is moved on contact, on State pressing portion and down push above-mentioned elastic contact chip portion.

7. the band unloading device card plug-in unit according to any of Claims 1 to 4, it is characterised in that:

In above-mentioned contact, its one end is set to be supported on the supported end of above-mentioned shell by the elastic contact chip portion provided with " ヘ " shape, The movable end that its other end is set to slide in the inner bottom part of above-mentioned card insertion section, meanwhile, in above-mentioned supported end and movable end Between, float configuration from above-mentioned card insertion section inner bottom surface, form contact portion.

8. the band unloading device card plug-in unit according to any of Claims 1 to 4, it is characterised in that:

Above-mentioned shell and above-mentioned rotating bar mutually it is relative to interior face, provided with mutual in desired position and above-mentioned rotating bar Mutually chimeric mosaic process.

9. the band unloading device card plug-in unit according to any of Claims 1 to 4, it is characterised in that:

Above-mentioned push rod is configured, can be departed from from above-mentioned rotating bar, meanwhile, it is above-mentioned towards departing to above-mentioned push rod provided with spring body Energize in the direction of rotating bar.