CN102930329A

CN102930329A - Double-interfaced card packaging method and take-up clamp thereof

Info

Publication number: CN102930329A
Application number: CN2012103972862A
Authority: CN
Inventors: 李建军; 魏云海; 王久君; 王晓亮
Original assignee: CHINA ELECTRICS SMART CARD Co Ltd
Current assignee: CHINA ELECTRICS SMART CARD Co Ltd
Priority date: 2012-10-18
Filing date: 2012-10-18
Publication date: 2013-02-13
Anticipated expiration: 2032-10-18
Also published as: CN102930329B

Abstract

The invention provides a double-interfaced card packaging method and a take-up clamp thereof. The double-interfaced card packaging method comprises the following steps of: milling an outer groove in a card base, so as to expose an antenna head of the double-interfaced card; taking up and pulling up an antenna from the card base through the heated take-up clamp; milling an inner-layer groove in the card base where the antenna is pulled up; and welding an outer welding plate of a module and the pulled antenna. The take-up clamp provided by the invention is provided with a heating and temperature control device, so that the antenna and the card base in the double-interfaced card base can be easily separated, and the antenna head is taken up from the card base; meanwhile, the contact time between a clamp head and the card base is very short, so that the take-up speed is improved; and the clamping force of the clamp head can be adjusted, the take-up process can be smoothly carried out, and the break problem in the take-up process can be avoided. With the adoption of the take-up technology provided by the invention, the current condition that no automatic take-up equipment exists in an intelligent card industry at home and aboard can be solved; the machining process can be simplified; the production efficiency is improved; the product property is improved; and the machining cost is greatly saved.

Description

The method for packing of double-interface card and take-up clip thereof

Technical field

The invention relates to the packaging technology of double-interface card, relate in particular to a kind of method for packing and take-up clip thereof of double-interface card.

Background technology

At present, along with the development of science and technology, smart card has been applied in the every field, and smart card mainly comprises contact intelligent card, contact type intelligent card and double-interface card.Double-interface card refers to possess simultaneously the smart card of contact intelligent card and two kinds of functions of contact type intelligent card; Double-interface card is with the characteristics of its complete function, and the green grass or young crops that more and more is subject to people narrows.

The encapsulation of double-interface card is that the antenna on the card base is connected with intelligent card chip, to consist of the double-interface card finished product.The packaging technology of existing double-interface card mainly contains following three kinds:

The first is the method for packing that two interface module and the basic antenna of card directly adopt soldering.The method is at first milled water jacket at the card base, to spill antenna the end of a thread of double-interface card; Then, chosen by two interfaces antenna that artificial employing knife will spill, and with tweezers with the antenna pull-up of provoking; Card base at the pull-up antenna mills out inner layer groove, carries out empty avoiding for the later stage package module and prepares; By butt-joint or laser the tin fusing that presets on the module pad point is welded with the antenna formation of pull-up; Whole line and spot welding are put into groove with module and are tentatively fixed; Carry out afterwards hot weld encapsulation and electric performance test, form final products.The method is the most rational double-interface card packaging technology, only has two pads during encapsulation, the reliable product quality after the encapsulation, and also the cost of raw material is minimum, and process flow is the shortest.But, can not robotization in the take-up process links, rejection rate is high during take-up, the phenomenon of initial line not often occurs choosing, choosing broken string, production efficiency is lower; A skilled operative employee was no more than at most 200 cards in one hour.

The second is that two interface module adopt the mode of tin sheet switching welding to encapsulate with the basic antenna of card.The method is at first implanted (pre-buried) two tin sheets when the double-interface card base is implanted antenna, two tin sheets weld the double-interface card base that forms improvement with two interfaces antenna; On the card base, directly mill out the groove position of expectation, in the middle of interior water jacket, mill out two pre-buried tin sheets of double-interface card base; On two tin sheets, weld respectively a copper cash, with two antennas of artificial take-up and pull-up in the replacement first method; By butt-joint or laser the tin fusing that presets on the module pad point is formed welding with two copper cash (replacement antenna); Afterwards step and first method are basic identical.The method has solved the problem that the take-up operation easily breaks in the first method, rejection rate is high.But the method increases to six means of spot welds by original two means of spot welds, has improved difficulty and the weld interval of welding antenna, and the risk that rosin joint and hidden danger of quality appear in product strengthens; Increase the cost of raw material of two tin sheets and the artificial and equipment cost of implantation tin sheet in producing simultaneously.

The third is that two interface module encapsulate with the mode that the basic antenna of card adopts conducting resinl to be connected.The method is to adopt high molecular conductive material that module is formed with antenna to be connected; Although its production efficiency is high, equipment is realized simple,, in the later stage use, can occur causing the product life cycle short because of the conductive characteristic decay of conducting resinl own, can't satisfy the problem that product quality requires; Moreover because conducting resinl just contacts with solder joint, not very firm connection if card is crooked, will cause conducting resinl to follow the solder joint loose contact, and in addition, along with the card increase of service time, the contact effect will be poorer after conducting resinl was aging.

By the comparison to above-mentioned three kinds of method for packing, the first directly adopts the method for packing of soldering to remain the most rational double-interface card packaging technology on two interface module and the basic antenna of card, and it has advantages of reliable product quality, packaging cost is low, process flow is short; But the take-up operation is its important step in the method, and the effect of take-up directly has influence on the production of subsequent handling, and at present, the problem that easily break in the take-up process, rejection rate is high is perplexing producer both at home and abroad always.Learn by analysis, when take-up since antenna be embedded the card base in, antenna and card have the larger power (or bonding force) that is connected between the base, the operator is with knife or tweezers take-up the time, directly antenna to be extracted, because antenna is thin larger with connection power, therefore, very easily antenna is dragged disconnected.

Thus, the inventor relies on experience and the practice of being engaged in for many years relevant industries, proposes a kind of method for packing and take-up clip thereof of double-interface card, to overcome the defective of prior art.

Summary of the invention

The object of the present invention is to provide a kind of method for packing and take-up clip thereof of double-interface card, can simplify the packaging technology of existing double-interface card, overcome the shortcoming that manual take-up, tin sheet turn weldering, conducting resinl welding technique, the improving product performance, enhance productivity, save the cost of raw material and processing cost.

The object of the present invention is achieved like this, a kind of method for packing of double-interface card, and the method may further comprise the steps at least:

A. mill water jacket at the card base, to spill antenna the end of a thread of double-interface card;

B. by the take-up clip of a heating antenna is chosen pull-up from block base;

C. the card base at the pull-up antenna mills out inner layer groove;

D. with the outer pad of module and the sky wire bonding of pull-up.

In a better embodiment of the present invention, after step D, also include the steps such as whole line and spot welding step, hot weld encapsulation step and electric performance test.

In a better embodiment of the present invention, in step B, described take-up clip includes a slide rail that is horizontally placed on the frame, slide rail is provided with relatively sliding left chuck and the right chuck of establishing, be provided with between left and right chuck and can swing the cam that struts left and right chuck, described cam is arranged on the frame and controls it by cam drive mechanism by rotating shaft and swings around the shaft; The outside of described left chuck and right chuck is respectively equipped with the holding force control gear that is oppositely arranged; The bottom of described left chuck and right chuck convexes with the antenna dop that can relatively contact to the other side respectively, and the relative side of described left and right two antenna dops is vertical plane; Be equipped with electrical bar and thermopair in described left chuck and the right chuck; Described take-up clip is connected in the servo control mechanism by frame; By vision positioning system to groove milling after the antenna of card in the base position, drive the take-up clip by described servo control mechanism again and move to the precalculated position and carry out take-up.

In a better embodiment of the present invention, described holding force control gear is made of pneumatic or hydraulic pressure regulating device.

In a better embodiment of the present invention, described holding force control gear is made of pressure spring.

In a better embodiment of the present invention, the outside of left chuck and right chuck is respectively equipped with the block that is fixed in frame, is provided with the through hole parallel with slide rail in the block, is slidingly equipped with fore-set in the through hole of contiguous chuck one side, and the fore-set middle part is provided with a flange; The chuck lateral surface is provided with a projection coaxial with fore-set, and described pressure spring is set on fore-set and the projection, and pressure spring one end relies on the chuck lateral surface, and the pressure spring other end relies on the flange of fore-set; Be provided with a screw regulator in the through hole away from chuck one side, the mobile guide pillar of screw regulator is arranged in the through hole.

Purpose of the present invention also can be achieved like this, a kind of take-up clip for the double-interface card packaging technology, described take-up clip includes a slide rail that is horizontally placed on the frame, slide rail is provided with relatively sliding left chuck and the right chuck of establishing, be provided with between left and right chuck and can swing the cam that struts left and right chuck, described cam is arranged on the frame and controls it by cam drive mechanism by rotating shaft and swings around the shaft; The outside of described left chuck and right chuck is respectively equipped with the holding force control gear that is oppositely arranged; The bottom of described left chuck and right chuck convexes with the antenna dop that can relatively contact to the other side respectively, and the relative side of described left and right two antenna dops is vertical plane; Be equipped with electrical bar and thermopair in described left chuck and the right chuck; Described take-up clip is connected in the servo control mechanism by frame.

From the above mentioned, in the present invention, owing to being provided with the screw regulator that to regulate the pressure spring dynamics, can guarantee that the pressure spring dynamics is moderate, thereby guarantee left and right sides chuck dynamics to be unlikely to excessive and the damage antenna; Owing to being provided with electrical bar and thermopair, can make rapidly the card base deliquescing of contact portion, antenna is diminished with the power that is connected of card base, thereby the antenna that will be bonded on the card base is peeled off out rapidly from blocking on the base, compare with existing chuck without heating, existing chuck is not owing to there being heating arrangement, easily the damage card was basic when chuck dug out antenna, and the bonding force of antenna and card base is larger, easily when peeling off, damage antenna, therefore, the take-up clip take-up speed with heating arrangement of the present invention is faster and stable higher, can easily antenna be dug out (choosing); Among the present invention, the bottom of described left and right sides chuck is respectively equipped with the antenna dop, two relative sides of antenna dop are vertical plane (most advanced and sophisticated at chuck is facet), can accurately clamp antenna, when the antenna pull-up, the facet part of clamping antenna clamps antenna, makes antenna step up part and can not rock, antenna can not come off like this, and the assurance antenna is pulled out smoothly.Cam mechanism because the supporting role of cam can be protected chuck, avoids damaging chuck when chuck is closed, also antenna can not flattened.

Description of drawings

The following drawings only is intended to the present invention done and schematically illustrates and explain, not delimit the scope of the invention.Wherein:

Fig. 1～Fig. 4: be the schematic flow sheet of the method for packing of double-interface card of the present invention.

Fig. 5: be the structural representation one of take-up clip among the present invention.

Fig. 6: be the structural representation two of take-up clip among the present invention.

Fig. 7: be the main TV structure schematic diagram of take-up clip among the present invention.

Fig. 8: be the part sectional structure schematic diagram of take-up clip among the present invention.

Embodiment

Understand for technical characterictic of the present invention, purpose and effect being had more clearly, now contrast description of drawings the specific embodiment of the present invention.

The present invention proposes a kind of method for packing of double-interface card, and the method may further comprise the steps:

(1) provide a double-interface card base 9 of having implanted antenna, water jacket 91 is milled in the precalculated position on card base 9, spills antenna the end of a thread 92 (as shown in Figure 1) of double-interface card;

(2) utilize the take-up clip of a heating that antenna 92 is chosen pull-up (as shown in Figure 2) from block base;

(3) the card base at the pull-up antenna mills out inner layer groove 93 (as shown in Figure 3), carries out empty avoiding for follow-up package module and prepares;

(4) the tin fusing that presets on the pad point 941 with module 94 by butt-joint or laser forms welding (as shown in Figure 4) with the antenna 92 of pull-up;

(5) whole line and spot welding; The circuit that arrangement antenna and module weld together; Adopt non-contact testing equipment that card is carried out the non-contact function test, to judge welding effect; Module is put into groove to be heated spot welding and tentatively fixes;

(6) card being carried out the module hot weld encapsulates bonding;

(7) electric performance test; Carry out noncontact, contact functional test, confirm that the double-interface card electrical property after the processing is qualified;

(8) form final products.

Method for packing of the present invention, in the take-up step, adopted a kind of technique of uniqueness, utilize the take-up clip of a heating to carry out take-up, in the moment that the take-up clip contacts with the card base, can make rapidly the card base deliquescing of contact portion, antenna is diminished with the power (or bonding force) that is connected of card base, thereby the antenna that will be connected on the card base is peeled off out like a cork from blocking base; Because antenna diminishes with the power that is connected of card base, in the take-up process, antenna can not dragged disconnected, and the take-up clip can not damage the card base yet.

Such as Fig. 5, Fig. 6, Fig. 7, shown in Figure 8, the described take-up clip 100 that proposes in step B includes a slide rail 1 that is horizontally placed on the frame, slide rail 1 is provided with relatively sliding left chuck 2 and the right chuck 3 of establishing, be provided with between left and right chuck and can swing the cam 4 that struts left and right chuck, described cam 4 is arranged on the frame and controls it by the cam drive mechanism (not shown) by rotating shaft 41 and swings around the shaft; The outside of described left chuck 2 and right chuck 3 is respectively equipped with the holding force control gear 5 that is oppositely arranged; The bottom of described left chuck 2 and right chuck 3 convexes with the

antenna dop

21,31 that can relatively contact to the other side respectively, and described left and right two antenna dops 21,31 relative sides are vertical plane 211,311; Be equipped with electrical bar 6 and thermopair 7 in described left chuck 2 and the right chuck 3; Described take-up clip 100 is connected in the servo control mechanism (not shown) by frame; By vision positioning system (being prior art, not shown) antenna in the card base after the groove milling is positioned, move to the precalculated position by described servo control mechanism driving take-up clip again and carry out take-up.

Further, in the present embodiment, described holding force control gear 5 can be made of pneumatic or hydraulic pressure regulating device (not shown);

Described holding force control gear also can consist of (as shown in Figure 5) by pressure spring 51.The outside of left chuck 2 and right chuck 3 is respectively equipped with the block 52 that is fixed in frame, be provided with the through hole 521 parallel with slide rail 1 in the block 52, be slidingly equipped with fore-set 53 (as shown in Figure 8) in the through hole 521 of contiguous chuck (take left chuck 2 as an example) side, fore-set 53 middle parts are provided with a flange 531; The chuck lateral surface is provided with a projection 22 coaxial with fore-set 53, and described pressure spring 51 is set on fore-set 53 and the projection 22, and pressure spring 51 1 ends rely on the chuck lateral surface, and pressure spring 51 other ends rely on the flange 531 of fore-set; Be provided with a screw regulator 54 in the through hole away from chuck one side, the mobile guide pillar 541 of screw regulator 51 is arranged in the through hole 521.Screw regulator 51 is spiral regulating device, can regulate by the rotation of regulator the length of the mobile guide pillar 541 in the regulator, and mobile guide pillar 541 is supported with fore-set 53 and contacted, and owing to the variation of mobile guide pillar 541 length, can control the position of fore-set 53; The flange 531 at fore-set 53 middle parts can withstand pressure spring 51, partly go deep in the pressure spring 51 owing to fore-set 53 leading portions simultaneously, can guarantee that pressure spring 51 is in axially-movable, the motion of fore-set 53 can be controlled the flexible of pressure spring 51 like this, and pressure spring withstands on the chuck, the dynamics of pressure spring is transferred on the chuck like this, just can control the chuck dynamics by adjustable screw regulator 51.Through hole 521 directions of the guide groove direction of slide rail 1 and block 52 all with the pressure spring axially parallel, can guarantee that dynamics is all point-blank.When the knob of rotating screw regulator 51, mobile guide pillar 541 is moved forward and backward, and then promote fore-set 53 and move, fore-set 53 is supported pressure spring 51 again, thereby the holding force of left chuck 2 is adjusted accordingly.The holding force adjustment of right chuck 3 is identical with left chuck 2.

Because the holding force of the left and right sides chuck in the take-up step of the present invention can be adjusted by the holding force control gear, can be according to the antenna ability to bear, adjust the elastic force of determining pressure spring, can avoid the phenomenon wayward, that choose initial line not or choose broken string of pressure in the existing take-up step to occur, improve take-up quality and take-up yield rate, can adapt to the double-interface card card base production of more wide in range different manufacturers.

In the present embodiment, electrical bar 6 can be left and right sides chuck and heats, after being raised to assigned temperature, the chuck temperature controlled the work of electrical bar 6 by external temperature control module (not shown), by thermopair 7 collecting temperature signals, feed back to temperature control unit, realize the temperature control of left and right sides chuck.Left and right sides chuck is by electrical bar 6 heating and keep uniform temperature, can in the of short duration contact process of chuck and card base, wire (antenna) be separated rapidly with the card base.

In the present embodiment, when the chuck clamping of the left and right sides, but the contact of described left and right two antenna dops 21,31 complete matchings, because left and right two antenna dops 21,31 relative sides are vertical plane 211,311, can be with exactly pull-up of wire.

In the present embodiment, described cam 4 is elliptical shape; When cam turned to short-axis direction, left and right sides chuck is lucky closed (that is: left and right two antenna dops 21,31 complete matchings closure) under the pressure spring effect, thus antenna is clamped; Again by outside servo control mechanism with the pull-up of take-up clip, thereby realize the take-up process; When cam turned to long axis direction, left and right sides chuck separated under actuated by cams.The swing of described cam is controlled by the cam drive mechanism (not shown).

From the above mentioned, in the present invention, owing to being provided with the screw regulator that to regulate the pressure spring dynamics, can guarantee that the pressure spring dynamics is moderate, thereby guarantee left and right sides chuck dynamics to be unlikely to excessive and the damage antenna; Owing to being provided with electrical bar and thermopair, can make rapidly the card base deliquescing of contact portion, antenna is diminished with the power that is connected of card base, thereby the antenna that will be bonded on the card base is peeled off out rapidly from blocking on the base, compare with existing chuck without heating, existing chuck is not owing to there being heating arrangement, easily the damage card was basic when chuck dug out antenna, and the bonding force of antenna and card base is larger, easily when peeling off, damage antenna, therefore, the take-up clip take-up speed with heating arrangement of the present invention is faster and stable higher, can easily antenna be dug out (choosing); The bottom of the chuck of the left and right sides described in the present invention is respectively equipped with the antenna dop, two relative sides of antenna dop are vertical plane (most advanced and sophisticated at chuck is facet), can accurately clamp antenna, when the antenna pull-up, the facet part of clamping antenna clamps antenna, make antenna step up part and can not rock, antenna can not come off like this, and the assurance antenna is pulled out smoothly.Cam mechanism because the supporting role of cam can be protected chuck, avoids damaging chuck when chuck is closed, also antenna can not flattened.

Take-up clip of the present invention has heating and attemperating unit, can easily separate antenna and card base in the double-interface card base, and antenna the end of a thread is chosen from blocking base, because chuck is very short duration of contact with the card base, has improved take-up speed simultaneously; The holding force of chuck can be adjusted, and guarantees carrying out smoothly of take-up operation, and can avoid occurring in the take-up process broken string problem; This take-up clip can incorporate and carry out integratedly in the production equipment of original card, and the full-automatic take-up work of realization equipment can exceed original manual take-up speed more than 10 times; Take-up technique of the present invention has solved the present situation that at present domestic and international smart card industry does not have robotization take-up equipment, has simplified process, has improved production efficiency, has promoted properties of product, has greatly saved processing cost.

The above only is the schematic embodiment of the present invention, is not to limit scope of the present invention.Any those skilled in the art, the equivalent variations of having done under the prerequisite that does not break away from design of the present invention and principle and modification all should belong to the scope of protection of the invention.

Claims

1. the method for packing of a double-interface card, the method may further comprise the steps at least:

B. by the take-up clip of a heating antenna is chosen pull-up from block base;

C. the card base at the pull-up antenna mills out inner layer groove;

D. with the outer pad of module and the sky wire bonding of pull-up.

2. the method for packing of double-interface card as claimed in claim 1 is characterized in that: after step D, also include whole line and spot welding step, hot weld encapsulation step and electric performance test step.

3. the method for packing of double-interface card as claimed in claim 1, it is characterized in that: in step B, described take-up clip includes a slide rail that is horizontally placed on the frame, slide rail is provided with relatively sliding left chuck and the right chuck of establishing, be provided with between left and right chuck and can swing the cam that struts left and right chuck, described cam is arranged on the frame and controls it by cam drive mechanism by rotating shaft and swings around the shaft; The outside of described left chuck and right chuck is respectively equipped with the holding force control gear that is oppositely arranged; The bottom of described left chuck and right chuck convexes with the antenna dop that can relatively contact to the other side respectively, and the relative side of described left and right two antenna dops is vertical plane; Be equipped with electrical bar and thermopair in described left chuck and the right chuck; Described take-up clip is connected in the servo control mechanism by frame; By vision positioning system to groove milling after the antenna of card in the base position, drive the take-up clip by described servo control mechanism again and move to the precalculated position and carry out take-up.

4. the method for packing of double-interface card as claimed in claim 3, it is characterized in that: described holding force control gear is made of pneumatic or hydraulic pressure regulating device.

5. the method for packing of double-interface card as claimed in claim 3, it is characterized in that: described holding force control gear is made of pressure spring.

6. the method for packing of double-interface card as claimed in claim 5, it is characterized in that: the outside of left chuck and right chuck is respectively equipped with the block that is fixed in frame, be provided with the through hole parallel with slide rail in the block, be slidingly equipped with fore-set in the through hole of contiguous chuck one side, the fore-set middle part is provided with a flange; The chuck lateral surface is provided with a projection coaxial with fore-set, and described pressure spring is set on fore-set and the projection, and pressure spring one end relies on the chuck lateral surface, and the pressure spring other end relies on the flange of fore-set; Be provided with a screw regulator in the through hole away from chuck one side, the mobile guide pillar of screw regulator is arranged in the through hole.

7. take-up clip that is used for the double-interface card packaging technology, it is characterized in that: described take-up clip includes a slide rail that is horizontally placed on the frame, slide rail is provided with relatively sliding left chuck and the right chuck of establishing, be provided with between left and right chuck and can swing the cam that struts left and right chuck, described cam is arranged on the frame and controls it by cam drive mechanism by rotating shaft and swings around the shaft; The outside of described left chuck and right chuck is respectively equipped with the holding force control gear that is oppositely arranged; The bottom of described left chuck and right chuck convexes with the antenna dop that can relatively contact to the other side respectively, and the relative side of described left and right two antenna dops is vertical plane; Be equipped with electrical bar and thermopair in described left chuck and the right chuck; Described take-up clip is connected in the servo control mechanism by frame.

8. the take-up clip for the double-interface card packaging technology as claimed in claim 7, it is characterized in that: described holding force control gear is made of pneumatic or hydraulic pressure regulating device.

9. the take-up clip for the double-interface card packaging technology as claimed in claim 7, it is characterized in that: described holding force control gear is made of pressure spring.

10. the take-up clip for the double-interface card packaging technology as claimed in claim 9, it is characterized in that: the outside of left chuck and right chuck is respectively equipped with the block that is fixed in frame, be provided with the through hole parallel with slide rail in the block, be slidingly equipped with fore-set in the through hole of contiguous chuck one side, the fore-set middle part is provided with a flange; The chuck lateral surface is provided with a projection coaxial with fore-set, and described pressure spring is set on fore-set and the projection, and pressure spring one end relies on the chuck lateral surface, and the pressure spring other end relies on the flange of fore-set; Be provided with a screw regulator in the through hole away from chuck one side, the mobile guide pillar of screw regulator is arranged in the through hole.