CN205441698U - Smart card shifts mechanism - Google Patents
Smart card shifts mechanism Download PDFInfo
- Publication number
- CN205441698U CN205441698U CN201620018592.4U CN201620018592U CN205441698U CN 205441698 U CN205441698 U CN 205441698U CN 201620018592 U CN201620018592 U CN 201620018592U CN 205441698 U CN205441698 U CN 205441698U
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- Prior art keywords
- card
- smart card
- draw
- groove
- deck
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Abstract
The utility model discloses a smart card shifts mechanism, include conveyer belt, drive conveyer belt circulation moving actuating mechanism and establish two at least cassettes that are used for acceptting the card on the conveyer belt, cassette equidistance on the conveyer belt is arranged, is equipped with the draw -in groove that is used for holding and fixes a position the card on every cassette, when the draw -in groove in one of them cassette alignd with smart card processing module's card output, the draw -in groove of another adjacent cassette was neat with smart card processing module's card input terminal pair with it. The utility model discloses a smart card shifts mechanism removes owing to adopting circulation moving conveyer belt to drive the cassette, therefore the cassette of align to grid on the conveyer belt can pass through smart card processing module's card output in proper order and smart card processing module's card input is held, carry out sending into and seeing off of card, and each cassette is worked consecutively in turn, and the card transfer speed is fast, can obtain the shortest card and carry the stroke, and work efficiency can improve greatly.
Description
Technical field
This utility model relates to the production equipment of smart card, is specifically related to a kind of smart card transfer device.
Background technology
In smart card production equipment, card is generally carried by synchronous conveyer band or conveying roller, and card is carried out spacing by guide rail in course of conveying and guides.In actual production, sometimes card needs to shift in the processing module be positioned at different spatial, such as in double-layered desktop machine, card needs to shift between upper strata processing module and lower floor's processing module, in transfer process, the position of card output is referred to as card outfan, and the position of card input is referred to as card input end.One of the applicant provides " a kind of vertical card transfer device " in first utility model application (Application No. 2015207550040), this card transfer device is for the card transfer of vertical direction, its deficiency is: 1, be served only for the card transfer of vertical direction, it is impossible to the card transfer of the above-below direction for tilting;2, only one of which is for connecing the turning over cards conveying mechanism of card, only constantly moves back and forth between the card outfan and card input end of equipment by this turning over cards conveying mechanism and carry out card transfer, inefficiency during work.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that a kind of smart card transfer device, and this card transfer device is particularly suited for the card transfer of the above-below direction tilted, and has work efficiency height, advantages of simple structure and simple.
This utility model solves the technical scheme of above-mentioned technical problem:
A kind of smart card transfer device, the drive mechanism including conveyer belt, driving conveyer belt cycle operation and set at least two on the conveyor belt for receiving the deck of card;Described deck equidistant arrangement on the conveyor belt, each deck is provided with for accommodating and the draw-in groove of positioning cards;When the draw-in groove in one of them deck aligns with the card outfan of smart card processing module, the draw-in groove of another deck adjacent thereto aligns with the card input end of smart card processing module.
A preferred version of the present utility model, wherein, described conveyer belt is arranged along the above-below direction tilted, for card in the transfer of above-below direction tilted, such as, in double-layered desktop machine, when upper strata processing module and lower floor's processing module are when laterally mutually staggering, and card needs the transfer of the above-below direction carrying out tilting between levels processing module.
A preferred version of the present utility model, wherein, described conveyer belt is synchronous conveyer band, and described drive mechanism includes the upper synchronous pulley being positioned at the upper and lower two ends of synchronous conveyer band and lower synchronous pulley, drives motor and connect driving motor and the drive mechanism of one of them synchronous pulley.Use synchronous conveyer band that card is carried, there is the advantages such as off-position precision is high, non-slip.Additionally, described conveyer belt can also use common belt conveyor.
A preferred version of the present utility model, wherein, side relative with smart card processing module in described synchronous conveyer band is provided with installation side plate, described upper synchronous pulley, lower synchronous pulley and driving motor are connected on this installation side plate, wherein, described upper synchronous pulley and lower synchronous pulley are respectively provided at the top and bottom installing side plate, and described driving motor is arranged on the lower end installing side plate;The top and bottom of described installation side plate are respectively equipped with upper holder and lower fixed frame, the two ends of described upper synchronous pulley are connected on the upper end of upper holder and installation side plate, and the two ends of described lower synchronous pulley are connected on the lower end of lower fixed frame and installation side plate;The upper end of described installation side plate is provided with elongated slot, one end of described upper synchronous pulley is connected in this elongated slot, so can regulate the position of synchronous pulley, it is adaptable to the installation of the synchronous conveyer band of different length, also can realize the fine setting of synchronous pulley installation site simultaneously.
Preferably, being provided with support plate between fixed frame and lower fixed frame, the medial surface of described synchronous conveyer band is bearing on this support plate.By described support plate, synchronous conveyer band is supported, position and guides.
A preferred version of the present utility model, wherein, described deck includes that substrate, described draw-in groove are located at the front side of substrate, and the both sides up and down of described draw-in groove are provided with least one set pinch wheels, and often group pinch wheels includes pinch wheels and lower pinch wheels.
In above-mentioned deck, when card is into and out of draw-in groove, clamping action by pinch wheels, owing to pinch wheels can rotate, the most neither affect the motion of card, card can be clamped again, prevent card from offseting, when card loses conveying power, card will not move forward because of inertia, and off-position precision is good.
Preferably, described draw-in groove is made up of two gaps between the extension board that substrate level extends forward, has the advantage be easy to processing, advantageously reduce deck weight;The two ends of described draw-in groove be provided with card is imported draw-in groove lead bayonet socket, this is led bayonet socket and is combined by three clinoplains, is on the one hand easy to guide card and enters in draw-in groove, on the other hand, bayonet socket is led so that card can enter draw-in groove from both sides, improves motility described in being respectively provided with at the two ends of draw-in groove.
Preferably, the dorsal part of described substrate is provided with two groups and is oppositely disposed at the two ends of substrate for the clip tooth being connected with synchronous conveyer band, two groups of clip tooths, and the gap between synchronous gear in the shape of this clip tooth and synchronous conveyer band matches;The opposite end of two groups of clip tooths is provided with the clamping slot for clamping Timing Belt.By using said structure so that described deck is easily installed on synchronous conveyer band.
Preferably, described pinch wheels is two groups, and two groups of pinch wheels arrange along card conveying direction, is conducive to improving the reliability of card location;Described substrate is respectively provided on two sides with mounting seat and lower mounting seat up and down at draw-in groove, and described upper pinch wheels is connected in mounting seat, and described lower pinch wheels is connected in lower mounting seat.
A preferred version of the present utility model, wherein, the position corresponding with the card outfan of smart card processing module is provided with the card being made up of photoelectric sensor to level sensor, and this card to level sensor is arranged at the card end edge when card enters into the setting position of deck.Described card is set and is that detecting card is the most accurately transported to the appointment position of deck to the effect of level sensor, after card accurately carries and puts in place (specifically card end edge arrives card at level sensor), card detects, to level sensor, the signal that card puts in place, thus the card output unit structure controlling the card release end of smart card processing module stops being fed forward.
Operation principle of the present utility model is: under original state, one of them deck is positioned at the card output of smart card processing module, after card is sent in this deck, drive mechanism driving conveying belt moves and moves a step, this deck is transferred at the card input end of smart card processing module, make to be positioned at this deck another adjacent deck below and arrive the card output of smart card processing module, carry out the action that card shifts to deck to the transfer of the card input end of smart card processing module and card from the card outfan of smart card processing module from deck the most simultaneously;Then drive mechanism driving conveying belt moves and moves a step, then carries out into card and go out card motion, the most constantly circulation.
This utility model compared with prior art has a following beneficial effect:
1, owing to using the conveyer belt of cycle operation to drive deck to move, the most evenly distributed deck on the conveyor belt can sequentially pass through the card outfan of smart card processing module and the card input end of smart card processing module, carry out the feeding of card and send, each deck takes turns to operate continuously, card transfer velocity is fast, and work efficiency is greatly improved.
2, by conveyer belt being arranged to different angles of inclination, card transfer in all angles of above-below direction can be realized, both can carry out the card transfer of vertical direction, it is also possible to carry out the transfer of the card of the above-below direction tilted, motility is good, it is possible to obtain the shortest conveying stroke.
Accompanying drawing explanation
Fig. 1-Fig. 6 is the structural representation of a detailed description of the invention of smart card transfer device of the present utility model, and wherein, Fig. 1 is front view, and Fig. 2 is left view, and Fig. 3 is right view, and Fig. 4 is rearview, Fig. 5 and Fig. 6 is axonometric chart.
Fig. 7 is the perspective view after removing synchronous conveyer band and deck in smart card transfer device shown in Fig. 1-Fig. 6.
Fig. 8-Figure 11 is the structural representation of deck in smart card transfer device shown in Fig. 1-Fig. 6, and wherein, Fig. 8 is front view, and Fig. 9 is left view, Figure 10 and Figure 11 is axonometric chart.
Figure 12 is equipped with perspective view during card in deck shown in Fig. 8-Figure 11.
Figure 13 is the structural representation that deck shown in Fig. 8-Figure 11 is installed on synchronous conveyer band.
Figure 14 and Figure 15 is the use state diagram during smart card transfer device is applied to double-layered desktop machine shown in Fig. 1-Fig. 6, and wherein, Figure 14 is front view, and Figure 15 is right view.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, this utility model is described in further detail, but embodiment of the present utility model is not limited to this.
Seeing Fig. 1-Figure 13, smart card transfer device of the present utility model includes conveyer belt, the drive mechanism driving conveyer belt cycle operation and sets at least two on the conveyor belt for receiving the deck 8 of card 2;Described deck 8 equidistant arrangement on the conveyor belt, each deck 8 is provided with for accommodating and the draw-in groove 1-1 of positioning cards 2;When the draw-in groove 1-1 in one of them deck 8 aligns with card 2 outfan of smart card processing module, the draw-in groove 1-1 of another deck 8 adjacent thereto aligns with the card input end of smart card processing module.
See Fig. 1-Fig. 6, specifically, described conveyer belt is arranged along the above-below direction tilted, for card 2 in the transfer of the above-below direction tilted, as shown in Figure 14 and Figure 15, figure showing, smart card transfer device of the present utility model is applied to the structure in double-layered desktop machine, in described double-layered desktop machine, upper and lower two-layer card processing module is laterally mutually staggering, when card transfers to lower floor from upper strata, need, along the above-below direction conveying tilted, to be so obtained in that the shortest fed distance.
Seeing Fig. 1-Fig. 7, described conveyer belt is synchronous conveyer band 7, and described drive mechanism includes the upper synchronous pulley 10 being positioned at synchronous conveyer band about 7 two ends and lower synchronous pulley 11, drives motor 9 and connect driving motor 9 and the drive mechanism of lower synchronous pulley 11.Use synchronous conveyer band 7 that card 2 is carried, there is the advantages such as off-position precision is high, non-slip.Described drive mechanism uses synchronous belt drive mechanism 14, to improve transmission accuracy.The quantity of described deck 8 is three, deck 8 of being so more convenient for, upper synchronous pulley 10 and the location arrangements of lower synchronous pulley 11.
See Fig. 1-Fig. 7, in described synchronous conveyer band 7, the side relative with smart card processing module is provided with installation side plate 12, described upper synchronous pulley 10, lower synchronous pulley 11 and driving motor 9 are connected on this installation side plate 12, wherein, described upper synchronous pulley 10 and lower synchronous pulley 11 are respectively provided at the top and bottom installing side plate 12, and described driving motor 9 and synchronous belt drive mechanism 14 are arranged on the lower end installing side plate 12;The top and bottom of described installation side plate 12 are respectively equipped with upper holder 12-1 and lower fixed frame 12-2, the two ends of described upper synchronous pulley 10 are connected on the upper end of upper holder 12-1 and installation side plate 12, and the two ends of described lower synchronous pulley 11 are connected on the lower end of lower fixed frame 12-2 and installation side plate 12;The upper end of described installation side plate 12 is provided with elongated slot 12-3, one end of described upper synchronous pulley 10 is connected in this elongated slot 12-3, so can regulate the position being positioned at synchronous pulley 10, it is applicable to the installation of the synchronous conveyer band 7 of different length, also can realize the fine setting of synchronous pulley 10 installation site simultaneously.Being provided with support plate 12-4 between fixed frame 12-1 and lower fixed frame 12-2, the medial surface of described synchronous conveyer band 7 is bearing on this support plate 12-4, by described support plate 12-4, synchronous conveyer band 7 is supported, positions and is guided.
Seeing Fig. 8-Figure 13, described deck 8 includes that substrate 1, described draw-in groove 1-1 are located at the front side of substrate 1, and the both sides up and down of described draw-in groove 1-1 are provided with least one set pinch wheels, and often group pinch wheels includes pinch wheels 3 and lower pinch wheels 4.In above-mentioned deck 8, when card 2 is into and out of draw-in groove 1-1, clamping action by pinch wheels, owing to pinch wheels can rotate, the most neither affect the motion of card 2, card 2 can be clamped again, prevent card 2 from offseting, when card 2 loses conveying power, card 2 will not move forward because of inertia, and off-position precision is good.Specifically, described pinch wheels is two groups, and two groups of pinch wheels arrange along card 2 conveying direction, is conducive to improving the reliability of card 2 location;Described substrate 1 is respectively provided on two sides with mounting seat 5 and lower mounting seat 6 up and down at draw-in groove 1-1, and described upper pinch wheels 3 is connected in mounting seat 5, and described lower pinch wheels 4 is connected in lower mounting seat 6.
See Fig. 8-Figure 13, described draw-in groove 1-1 to be made up of two gaps between the extension board of the horizontal forward extension of substrate 1, there is the advantage be easy to processing, advantageously reduce deck 8 weight;The two ends of described draw-in groove 1-1 be provided with card 2 is imported draw-in groove 1-1 lead bayonet socket 1-2, this is led bayonet socket 1-2 and is combined by three clinoplains, on the one hand it is easy to guide card 2 and enters in draw-in groove 1-1, on the other hand, bayonet socket 1-2 is led described in being respectively provided with at the two ends of draw-in groove 1-1, make card 2 can enter draw-in groove 1-1 from both sides, improve motility.The dorsal part of described substrate 1 is provided with two groups and is oppositely disposed at the two ends of substrate 1 for clip tooth 1-3 being connected with synchronous conveyer band 7, two groups of clip tooths 1-3, and the gap between synchronous gear in the shape of this clip tooth 1-3 and synchronous conveyer band 7 matches;The opposite end of two groups of clip tooths 1-3 is provided with the clamping slot for clamping Timing Belt.By using said structure so that described deck 8 is easily installed on synchronous conveyer band 7.Being formed between plate face and the draw-in groove 1-1 of described substrate 1 is more than 0 ° and is less than the angle of 90 °, and concrete angle determines according to the angle of inclination of synchronous conveyer band 7, it is intended that when substrate 1 is fixed on synchronous conveyer band 7, it is ensured that draw-in groove 1-1 is positioned on horizontal plane.
See Fig. 1-Fig. 7, the position corresponding with the card outfan of smart card processing module is provided with the card being made up of photoelectric sensor to level sensor 13, and this card to level sensor 13 is arranged at card 2 end edge when card 2 enters into the setting position of deck 8.Described card is set and is that detecting card 2 is the most accurately transported to the appointment position of deck 8 to the effect of level sensor 13, after card 2 accurately carries and puts in place (specifically card 2 end edge arrives card at level sensor 13), card detects, to level sensor 13, the signal that card 2 puts in place, thus the card output unit structure controlling the card release end of smart card processing module stops being fed forward.
See Fig. 1-Figure 15, below in conjunction with specific example, operation principle of the present utility model be further described:
In the double-layered desktop machine that smart card transfer device c of the present utility model is applied to shown in Figure 14 and Figure 15, under original state, one of them deck 8 is positioned at the card outfan a-1 of upper strata card processing module a, after card 2 is sent in this deck 8, drive mechanism drives synchronous conveyer band 7 to move down a step, this deck 8 is transferred at the card input end b-1 of lower floor card processing module b, make to be positioned at this deck 8 another adjacent deck 8 below and arrive the card outfan a-1 of upper strata card processing module a, carry out the action that card 2 shifts to deck 8 to the card input end b-1 of lower floor card processing module b transfer and card from the card outfan a-1 of upper strata card processing module a from deck 8 the most simultaneously;Then drive mechanism drive synchronous conveyer band 7 moves and moves a step, then carries out into card and go out card motion, the most constantly circulation.
In addition to the embodiments described above, this utility model can also use other embodiments, and such as, described conveyer belt can also vertically be arranged, it is achieved card is in the transfer of vertical direction;And for example, described synchronous conveyer band 7 can also use common belt conveyor to make;Additionally, the structure of described deck can also use other structures, the such as draw-in groove combined by two cell bodies being oppositely arranged, cell body can arrange the damping pieces such as spring and substitute the pinch wheels of above-mentioned embodiment to realize buffering and the location of card.
Above-mentioned for this utility model preferably embodiment; but embodiment of the present utility model is not limited by foregoing; other any without departing from the change made under spirit of the present utility model and principle, modify, substitute, combine, simplify; all should be the substitute mode of equivalence, within being included in protection domain of the present utility model.
Claims (10)
1. a smart card transfer device, it is characterised in that include conveyer belt, drive the drive mechanism of conveyer belt cycle operation and set at least two on the conveyor belt for receiving the deck of card;Described deck equidistant arrangement on the conveyor belt, each deck is provided with for accommodating and the draw-in groove of positioning cards;When the draw-in groove in one of them deck aligns with the card outfan of smart card processing module, the draw-in groove of another deck adjacent thereto aligns with the card input end of smart card processing module.
Smart card transfer device the most according to claim 1, it is characterised in that described conveyer belt is arranged along the above-below direction tilted.
Smart card transfer device the most according to claim 1 and 2, it is characterized in that, described conveyer belt is synchronous conveyer band, and described drive mechanism includes the upper synchronous pulley being positioned at the upper and lower two ends of synchronous conveyer band and lower synchronous pulley, drives motor and connect driving motor and the drive mechanism of one of them synchronous pulley.
Smart card transfer device the most according to claim 3, it is characterized in that, side relative with smart card processing module in described synchronous conveyer band is provided with installation side plate, described upper synchronous pulley, lower synchronous pulley and driving motor are connected on this installation side plate, wherein, described upper synchronous pulley and lower synchronous pulley are respectively provided at the top and bottom installing side plate, and described driving motor is arranged on the lower end installing side plate;The top and bottom of described installation side plate are respectively equipped with upper holder and lower fixed frame, the two ends of described upper synchronous pulley are connected on the upper end of upper holder and installation side plate, and the two ends of described lower synchronous pulley are connected on the lower end of lower fixed frame and installation side plate;The upper end of described installation side plate is provided with elongated slot, and one end of described upper synchronous pulley is connected in this elongated slot.
Smart card transfer device the most according to claim 4, it is characterised in that be provided with support plate between fixed frame and lower fixed frame, the medial surface of described synchronous conveyer band is bearing on this support plate.
Smart card transfer device the most according to claim 3, it is characterised in that described deck includes that substrate, described draw-in groove are located at the front side of substrate, the both sides up and down of described draw-in groove are provided with least one set pinch wheels, and often group pinch wheels includes pinch wheels and lower pinch wheels.
Smart card transfer device the most according to claim 6, it is characterised in that described draw-in groove is made up of two gaps between the extension board that substrate level extends forward;The two ends of described draw-in groove be provided with card is imported draw-in groove lead bayonet socket, this is led bayonet socket and is combined by three clinoplains.
Smart card transfer device the most according to claim 7, it is characterized in that, the dorsal part of described substrate is provided with two groups and is oppositely disposed at the two ends of substrate for the clip tooth being connected with synchronous conveyer band, two groups of clip tooths, and the gap between synchronous gear in the shape of this clip tooth and synchronous conveyer band matches;The opposite end of two groups of clip tooths is provided with the clamping slot for clamping Timing Belt.
Smart card transfer device the most according to claim 6, it is characterised in that described pinch wheels is two groups, two groups of pinch wheels arrange along card conveying direction;Described substrate is respectively provided on two sides with mounting seat and lower mounting seat up and down at draw-in groove, and described upper pinch wheels is connected in mounting seat, and described lower pinch wheels is connected in lower mounting seat.
Smart card transfer device the most according to claim 6, it is characterized in that, the position corresponding with the card outfan of smart card processing module is provided with the card being made up of photoelectric sensor to level sensor, and this card to level sensor is arranged at the card end edge when card enters into the setting position of deck.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620018592.4U CN205441698U (en) | 2016-01-07 | 2016-01-07 | Smart card shifts mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620018592.4U CN205441698U (en) | 2016-01-07 | 2016-01-07 | Smart card shifts mechanism |
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CN205441698U true CN205441698U (en) | 2016-08-10 |
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CN201620018592.4U Withdrawn - After Issue CN205441698U (en) | 2016-01-07 | 2016-01-07 | Smart card shifts mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105501822A (en) * | 2016-01-07 | 2016-04-20 | 广州市明森机电设备有限公司 | Smart card transfer mechanism |
CN108016819A (en) * | 2017-11-28 | 2018-05-11 | 重庆市川仁精密机械有限公司 | A kind of high-speed transfer belt line |
-
2016
- 2016-01-07 CN CN201620018592.4U patent/CN205441698U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105501822A (en) * | 2016-01-07 | 2016-04-20 | 广州市明森机电设备有限公司 | Smart card transfer mechanism |
CN108016819A (en) * | 2017-11-28 | 2018-05-11 | 重庆市川仁精密机械有限公司 | A kind of high-speed transfer belt line |
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Granted publication date: 20160810 Effective date of abandoning: 20180803 |
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