CN205060643U - Smart card conveying mechanism's linking device - Google Patents

Smart card conveying mechanism's linking device Download PDF

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Publication number
CN205060643U
CN205060643U CN201520748517.9U CN201520748517U CN205060643U CN 205060643 U CN205060643 U CN 205060643U CN 201520748517 U CN201520748517 U CN 201520748517U CN 205060643 U CN205060643 U CN 205060643U
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China
Prior art keywords
conveyer band
synchronous conveyer
synchronous
card
feed station
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CN201520748517.9U
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Chinese (zh)
Inventor
王开来
房训军
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Guangzhou Mingsen Technologies Co Ltd
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Guangzhou Mingsen Technologies Co Ltd
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Abstract

The utility model discloses a smart card conveying mechanism's linking device should link up the device and include the linking mechanism that sets up between a card conveying mechanism and the 2nd card conveying mechanism, wherein, a card conveying mechanism, the 2nd card conveying mechanism and linking mechanism all include synchronous conveyer belt and move power unit, align to grid has the multiunit to dial the tooth on the synchronous conveyer belt, link up and have first linking on the action part of synchronous conveyer belt and carry station and second to link up the transport station, final on the action part of first synchronous conveyer belt carry station with the station coincidence is carried in first linking, on the action part of the synchronous conveyer belt of second first carry station with the second links up carries the station coincidence. This links up the device will enough process device combination work together with two, and the linking of reach in coordination, being in step with realizes the coherent transition of card, and improvement production efficiency reduces the cost of labor.

Description

A kind of connecting device of smart card conveying mechanism
Technical field
The utility model relates to the production facilities of smart card, is specifically related to a kind of connecting device of smart card conveying mechanism.
Background technology
In the production process of smart card, card needs to experience multiple manufacturing procedure could obtain finished product.In prior art, usually part manufacturing procedure be integrated on a Fabricating machinery, the complete machining process need of card is successively through the processing of multiple Fabricating machinery.When adopting multiple Fabricating machinery to process card, card needs to shift between each Fabricating machinery, and cause continuous production poor, production efficiency is low, and needs the transfer of artificial participation card, and cost of labor is high.And if want two Fabricating machinerys to combine work, then due to each Fabricating machinery have the card transport independently between card transport, two Fabricating machinerys cannot complete smoothly card conveying linking, be thus difficult to realize.Especially between inconsistent two Fabricating machinerys of frequency of delivery, the docking that realize the card transport of two equipment is more difficult.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of connecting device of smart card conveying mechanism is provided, the card transport of two Fabricating machinerys can link up by this connecting device, make card can smooth transition between two tools, thus two Fabricating machinerys can be combined work, enhance productivity, reduce cost of labor; And can be used between two inconsistent Fabricating machinerys of frequency of delivery.
Another object of the present utility model is the marching method of the smart card conveying mechanism providing a kind of connecting device applying above-mentioned smart card conveying mechanism to realize.
The technical scheme that the utility model solves the problems of the technologies described above is:
A connecting device for smart card conveying mechanism, is characterized in that, comprises the combining mechanism be arranged between the first card transport of first Fabricating machinery and the second card transport of the second Fabricating machinery, wherein:
Described first card transport comprises the first synchronous conveyer band in closed circuit structure and drives the first synchronous conveyer band to make the first driving actuating unit of circulating progressively movement, evenly distributedly on described first synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described first synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
Described second card transport comprises the second synchronous conveyer band in closed circuit structure and drives the second synchronous conveyer band to make the second driving actuating unit of circulating progressively movement, evenly distributedly on described second synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described second synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
Described combining mechanism comprises the linking synchronous conveyer band in closed circuit structure and drives linking synchronous conveyer band to make the linking driving actuating unit of circulating progressively movement, evenly distributedly on described linking synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described linking synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
In described first synchronous conveyer band, the second synchronous conveyer band and linking synchronous conveyer band, the part being positioned at top is the working portion of actual actuating card movement, and remainder is Backhaul;
Along card throughput direction: described first synchronous conveyer band, the working portion be connected in synchronous conveyer band and the second synchronous conveyer band are in turn connected to form card travel line, wherein, the working portion of described linking synchronous conveyer band has two feed station, be respectively the first linking feed station and second and be connected feed station; Last feed station on the working portion of described first synchronous conveyer band and described first is connected feed station and overlaps, and first feed station on the working portion of described second synchronous conveyer band and described second is connected feed station and overlaps; And, under standstill state, described first is connected the below being all arranged in the lower surface of the card of card travel line in first feed station in feed station on the moving tooth of actuating card and the working portion of the second synchronous conveyer band for the moving tooth of actuating card.
A preferred version of the present utility model, wherein, described first drives actuating unit to comprise the first servomotor and several first synchronous pulleys, and described first servomotor is connected with one of them first synchronous pulley, and described first synchronous conveyer band is looped around on the first synchronous pulley;
Described second drives actuating unit to comprise the second servomotor and several second synchronous pulleys, and described second servomotor is connected with one of them second synchronous pulley, and described second synchronous conveyer band is looped around on the second synchronous pulley;
Described linking drives actuating unit to comprise linking servomotor and several are connected synchronous pulley, and described linking servomotor is connected synchronous pulley with one of them and is connected, and described linking synchronous conveyer band is looped around linking synchronous pulley.
In such scheme, adopt servomotor and synchronous pulley to drive synchronous conveyer band motion, make the motion control of each synchronous conveyer band accurate, off-position is accurate, is convenient to control co-ordination between each synchronous conveyer band.
A preferred version of the present utility model, wherein, perpendicular on card throughput direction: described first synchronous conveyer band and be connected settings of mutually staggering between synchronous conveyer band, setting of mutually staggering between described second synchronous conveyer band and linking synchronous conveyer band.The first synchronous conveyer band can be made like this and be connected between synchronous conveyer band and the second synchronous conveyer band and be connected non-interference between synchronous conveyer band, be convenient to the layout of each synchronous conveyer band.
A preferred version of the present utility model, wherein, in described combining mechanism, the quantity being connected synchronous pulley is three, wherein two are positioned at top, and one is positioned at below, and described linking synchronous conveyer band is looped around on described three linking synchronous pulleys and forms closed triangular structure.Adopt leg-of-mutton linking synchronous conveyer band to be conducive to simplified structure, the space occupied by minimizing, be convenient to embed between two tools.
Preferably, two that are arranged in top are connected synchronous pulley, and one of them first synchronous pulley in the linking synchronous pulley and the first card transport of the first synchronous conveyer band is coaxially arranged.The connection between the first card transport and combining mechanism can be made so compacter.
Preferably, the quantity of the first synchronous conveyer band in described first card transport is two, and perpendicular on card throughput direction, described two the first synchronous conveyer bands are arranged at the both sides being connected synchronous conveyer band.By adopting two the first synchronous conveyer bands to carry card, make the conveying of card more steadily reliable.
A preferred version of the present utility model, wherein, in described first synchronous conveyer band and the second synchronous conveyer band, often organize moving tooth and include two moving teeth, the Spatial Coupling between two moving teeth and two moving teeth forms a feed station together;
In described linking synchronous conveyer band, often organize moving tooth and comprise a moving tooth, each moving tooth and this moving tooth are organized together with the Spatial Coupling between moving tooth with next and are formed a feed station.
In above-mentioned preferred version, often group moving tooth in described first synchronous conveyer band and the second synchronous conveyer band comprises two moving teeth, its object is in two directions actuating card to move, to meet specific technological requirement (such as, when printing character code on card, actuating card is sometimes needed to move around); And described linking synchronous conveyer band is owing to only needing unidirectional conveying card, therefore often organizes moving tooth and a moving tooth is set, be conducive to simplified structure.
A preferred version of the present utility model, wherein, described first synchronous conveyer band, the second synchronous conveyer band and the outside on top being connected synchronous conveyer band are provided with card track, for carrying out guiding and spacing to card.
A marching method for the smart card conveying mechanism that the connecting device applying above-mentioned smart card conveying mechanism realizes, is characterized in that, comprise the following steps:
(1), under initial condition, supposing that the first linking feed station and second be connected on the working portion of synchronous conveyer band is connected feed station is idle station, and the feed station on the working portion of described second synchronous conveyer band is also idle station; Feed station on the working portion of the first synchronous conveyer band is step by step by card pushed forward;
(2) after card is transported to and also stops in the first linking feed station being connected synchronous conveyer band by last feed station on the working portion of the first synchronous conveyer band, described linking synchronous transport Tape movement one step, the card being arranged in the first linking feed station be pushed to the second linking feed station and stop, being also sent to by card in first feed station on the working portion of the second synchronous conveyer band;
(3) then the second synchronous transport Tape movement one step, first feed station on the working portion of the second synchronous conveyer band pushes card wherein to next feed station;
(4) at linking synchronous conveyer band, the first card be connected in feed station is pushed to after in the second linking feed station, next card to be transported to according to its frequency of operation and to be connected first of synchronous conveyer band and to be connected in feed station and to stop by last feed station on the working portion of the first synchronous conveyer band, and after card is wherein fed forward by first feed station on the working portion of the second synchronous conveyer band, repeat step (2) and step (3), cyclically work, realize the smooth transition of card between the first card transport and the second card transport.
The principle of work of the connecting device of smart card conveying mechanism of the present utility model is:
The working process of the connecting device of smart card conveying mechanism of the present utility model is see the description of the marching method of above-mentioned smart card conveying mechanism, wherein, the effect of described linking synchronous conveyer band is the feed station in the first synchronous conveyer band and the second synchronous conveyer band to link up, for reaching this object, the working portion being connected synchronous conveyer band is needed to be arranged to two feed station, wherein, first is connected feed station is used for carrying out card exchange with the first synchronous conveyer band, second is connected feed station is used for carrying out card exchange with the second synchronous conveyer band, thus play the effect of transfer, if the feed station be connected on the working portion of synchronous conveyer band is very few, then cannot realize the effect of transfer, if the feed station be connected on the working portion of synchronous conveyer band is too much, then easily interfere with other feed station on the working portion on the first synchronous conveyer band, the second synchronous conveyer band,
Under standstill state, because the moving tooth for actuating card in first feed station in described first linking feed station on the moving tooth of actuating card and the working portion of the second synchronous conveyer band is all arranged in the below of the lower surface of the card of card travel line, therefore, when card is sent in the first linking feed station by last feed station on the working portion of the first synchronous conveyer band, first moving tooth be connected in feed station would not hinder the normal conveying of card (and finally can contact also actuating card when the first moving tooth be connected in feed station moves subsequently with card advance), and when being connected synchronous transport Tape movement one step and the card being arranged in the first linking feed station being pushed to the second linking feed station, moving tooth in first feed station on the working portion of the second synchronous conveyer band also can not hinder the normal conveying of card (and finally can contact with card when the moving tooth subsequently in this first feed station moves and actuating card is advanced),
Under the mode of operation that the first synchronous conveyer band is identical with the frequency of operation of the second synchronous conveyer band, first synchronous conveyer band and the second synchronous conveyer band often synchronously move once, a card will be sent to and be connected in the first linking feed station of synchronous conveyer band by the first synchronous conveyer band, and the second synchronous conveyer band can see a card off from the second linking feed station being connected synchronous conveyer band simultaneously; And in time between the first synchronous conveyer band and the double movement of the second synchronous conveyer band, being connected synchronous conveyer band will be transported in the second linking feed station by the first card be connected in feed station; So constantly cyclically work.
Under the mode of operation that the first synchronous conveyer band is different with the frequency of operation of the second synchronous conveyer band (normally the frequency of operation of the second synchronous conveyer band is greater than the frequency of operation of the first synchronous conveyer band), after a card is transported to the first linking feed station by the first synchronous conveyer band, be connected synchronous conveyer band and this card can be transported to the second linking feed station, and then taken away by this card by the second synchronous conveyer band, a card is transported to the first linking feed station by the first synchronous conveyer band more subsequently.
When card is transported to the first linking feed station, by being located at judging whether card is carried to level detection sensor (such as opto-electronic pickup) and put in place around the first linking feed station, after detecting that card puts in place, control to be connected driving actuating unit and drive linking synchronous transport Tape movement one step; Equally, when card is transported to and is connected feed station by being located at judging whether card is carried to level detection sensor and put in place, as the foundation of carrying out next step action outside the second linking feed station.Under the coordination of arriving level detection sensor, the first card transport, the second card transport and combining mechanism are worked in coordination with, work of being in step with, and realize the object of card abrupt transition between the first card transport and the second card transport.
The utility model compared with prior art has following beneficial effect:
1, the card transport of two Fabricating machinerys can be linked up, thus two Fabricating machinerys can be combined work, enhance productivity, reduce cost of labor.
2, carried out card conveying and processing by two Fabricating machinerys linked up by respective original step, make between two Fabricating machinerys combinationally use simple, be easy to realize.
3, the card transition between can realizing without two Fabricating machinerys of travel frequency.
Accompanying drawing explanation
Fig. 1 is the perspective view of a detailed description of the invention of the connecting device of smart card conveying mechanism of the present utility model.
Fig. 2 and Fig. 3 is the reduced graph of Fig. 1 illustrated embodiment, and wherein, Fig. 2 is front view, and Fig. 3 is birds-eye view.
Fig. 4 is the structural representation of the first synchronous conveyer band in Fig. 1 illustrated embodiment.
Fig. 5 is the structural representation being connected synchronous conveyer band in Fig. 1 illustrated embodiment.
Fig. 6 is the structural representation of the second synchronous conveyer band in Fig. 1 illustrated embodiment.
Fig. 7 ~ Fig. 9 is the working process schematic diagram of the connecting device of the conveying mechanism of smart card shown in Fig. 1, wherein, Fig. 7 is initial condition figure, Fig. 8 is the schematic diagram after the first linking feed station sent into by first card by the first synchronous conveyer band, Fig. 9 is connected synchronous conveyer band the first card be connected in feed station is pushed to the schematic diagram after the second linking feed station, Figure 10 is that the second card be connected in feed station is pushed to next station by the second synchronous conveyer band and second card feeding first is connected the schematic diagram after feed station by the first synchronous conveyer band, Figure 11 is connected synchronous conveyer band to repeat the first card be connected in feed station to be pushed to the schematic diagram after the second linking feed station.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.
See Fig. 1 ~ Fig. 3, the connecting device of smart card conveying mechanism of the present utility model comprises the combining mechanism 3 be arranged between the first card transport 1 of first Fabricating machinery and the second card transport 2 of the second Fabricating machinery.Wherein:
See Fig. 1 ~ Fig. 4, described first card transport 1 comprises the first synchronous conveyer band 1-1 in closed circuit structure and drives the first synchronous conveyer band 1-1 to make the first driving actuating unit of circulating progressively movement, evenly distributed on described first synchronous conveyer band 1-1 have many group moving tooth 1-5, often organize moving tooth 1-5 in moving tooth 1-5 and this moving tooth 1-5 side other form a feed station 1-4 for the Spatial Coupling holding card 4 together; Described first synchronous conveyer band 1-1, in moving process, often moves and moves a step, and a rear feed station 1-4 overlaps with previous feed station 1-4;
See Fig. 1 ~ Fig. 3 and Fig. 6, described second card transport 2 comprises the second synchronous conveyer band 2-1 in closed circuit structure and drives the second synchronous conveyer band 2-1 to make the second driving actuating unit of circulating progressively movement, evenly distributed on described second synchronous conveyer band 2-1 have many group moving tooth 2-5, often organize moving tooth 2-5 in moving tooth 2-5 and this moving tooth 2-5 side other form a feed station 2-4 for the Spatial Coupling holding card 4 together; Described second synchronous conveyer band 2-1, in moving process, often moves and moves a step, and a rear feed station 2-4 overlaps with previous feed station 2-4;
See Fig. 1 ~ Fig. 3 and Fig. 5, the linking that described combining mechanism 3 comprises the linking synchronous conveyer band 3-1 in closed circuit structure and drives linking synchronous conveyer band 3-1 to do circulating progressively movement drives actuating unit, evenly distributed on described linking synchronous conveyer band 3-1 have many group moving tooth 3-5, often organize moving tooth 3-5 in moving tooth 3-5 and this moving tooth 3-5 side other form a feed station 3-4 for the Spatial Coupling holding card 4 together; Described linking synchronous conveyer band 3-1, in moving process, often moves and moves a step, and a rear feed station 3-4 overlaps with previous feed station 3-4;
See Fig. 4 ~ Fig. 6, described first synchronous conveyer band 1-1, the second synchronous conveyer band 2-1 and be connected in synchronous conveyer band 3-1, the part being positioned at top is the working portion of actual actuating card 4 movement, and remainder is Backhaul;
See Fig. 1 ~ Fig. 6, along card 4 throughput direction: described first synchronous conveyer band 1-1, the working portion be connected in synchronous conveyer band 3-1 and the second synchronous conveyer band 2-1 are in turn connected to form card travel line, wherein, the working portion of described linking synchronous conveyer band 3-1 has two feed station 3-4, is respectively the first linking feed station 3-41 and second and is connected feed station 3-42; Last feed station 1-41 on the working portion of described first synchronous conveyer band 1-1 and described first is connected feed station 3-41 and overlaps, and first feed station 2-41 on the working portion of described second synchronous conveyer band 2-1 and described second is connected feed station 3-42 and overlaps; And, under standstill state, described first is connected the below being all arranged in the lower surface of the card 4 of card travel line in first feed station 2-41 in feed station 3-41 on the moving tooth 3-5 of actuating card 4 and the working portion of the second synchronous conveyer band 2-1 for the moving tooth 2-5 of actuating card 4.
See Fig. 1 ~ Fig. 3, described first drives actuating unit to comprise the first servomotor and several first synchronous pulleys 1-2, described first servomotor is connected with one of them first synchronous pulley 1-2, and described first synchronous conveyer band 1-1 is looped around on the first synchronous pulley 1-2.Described second drives actuating unit to comprise the second servomotor and several second synchronous pulleys 2-2, and described second servomotor is connected with one of them second synchronous pulley 2-2, and described second synchronous conveyer band 2-1 is looped around on the second synchronous pulley 2-2.Described linking drives actuating unit to comprise linking servomotor and several are connected synchronous pulley 3-2, and described linking servomotor is connected synchronous pulley 3-2 with one of them and is connected, and described linking synchronous conveyer band 3-1 is looped around and is connected synchronous pulley 3-2.Adopt servomotor and synchronous pulley to drive synchronous conveyer band motion, make the motion control of each Timing Belt accurate, off-position is accurate, is convenient to control co-ordination between each synchronous conveyer band.
See Fig. 1 ~ Fig. 3, perpendicular on card throughput direction: described first synchronous conveyer band 1-1 and be connected settings of mutually staggering between synchronous conveyer band 3-1, setting of mutually staggering between described second synchronous conveyer band 2-1 and linking synchronous conveyer band 3-1.The first synchronous conveyer band 1-1 can be made like this and be connected between synchronous conveyer band 3-1 and the second synchronous conveyer band 2-1 and be connected non-interference between synchronous conveyer band 3-1, be convenient to the layout of each synchronous conveyer band.
See Fig. 1 ~ Fig. 4, in described combining mechanism 3, the quantity being connected synchronous pulley 3-2 is three, and wherein two are positioned at top, one is positioned at below, and described linking synchronous conveyer band 3-1 is looped around described three and is connected triangular structure synchronous pulley 3-2 being formed and closes.Adopt leg-of-mutton linking synchronous conveyer band 3-1 to be conducive to simplified structure, the space occupied by minimizing, be convenient to embed between two tools.
See Fig. 1 ~ Fig. 3, further, two that are arranged in top are connected synchronous pulley 3-2, and one of them the first synchronous pulley 1-2 in the linking synchronous pulley 3-2 and the first card transport 1 of the first synchronous conveyer band 1-1 is coaxially arranged.The connection between the first card transport 1 and combining mechanism 3 can be made so compacter.The quantity of the first synchronous conveyer band 1-1 in described first card transport 1 is two, and perpendicular on card throughput direction, described two the first synchronous conveyer band 1-1 are arranged at the both sides being connected synchronous conveyer band 3-1.By adopting two the first synchronous conveyer band 1-1 to carry card 4, make the conveying of card 4 more steadily reliable.
See Fig. 1 ~ Fig. 6, in described first synchronous conveyer band 1-1 and the second synchronous conveyer band 2-1, often organize moving tooth 1-5,2-5 and include two moving teeth 1-5,2-5, two moving teeth 1-5,2-5 and the Spatial Coupling between two moving teeth 1-5,2-5 form feed station 1-4, a 2-4 together.In described linking synchronous conveyer band 3-1, often organize moving tooth 3-5 and comprise a moving tooth 3-5, each moving tooth 3-5 and this moving tooth 3-5 organizes together with the Spatial Coupling between moving tooth 3-5 with next and forms a feed station 3-4.Often group moving tooth 1-5,2-5 in described first synchronous conveyer band 1-1 and the second synchronous conveyer band 2-1 comprise two moving teeth 1-5,2-5, its object is in two directions actuating card 4 to move, to meet specific technological requirement (such as, when printing character code on card 4, actuating card 4 is sometimes needed to move around); And described linking synchronous conveyer band 3-1 is owing to only needing unidirectional conveying card 4, therefore often organizes moving tooth 3-5 and a moving tooth 3-5 is set, be conducive to simplified structure.
See Fig. 1, the outside on described first synchronous conveyer band 1-1, the second synchronous conveyer band 2-1 and the top that is connected synchronous conveyer band 3-1 is provided with card track 5, for carrying out guiding and spacing to card 4.
See Fig. 7 ~ Figure 11, the marching method of the smart card conveying mechanism of the connecting device realization of the above-mentioned smart card conveying mechanism of application of the present utility model, comprises the following steps:
(1) see Fig. 7, under initial condition, supposing that the first linking feed station 3-41 and second be connected on the working portion of synchronous conveyer band 3-1 is connected feed station 3-42 is idle station, and the feed station 2-4 on the working portion of described second synchronous conveyer band 2-1 is also idle station; Feed station 1-4 on the working portion of the first synchronous conveyer band 1-1 is step by step by card 4 pushed forward;
(2) after card 4 is transported to and also stops in the first linking feed station 3-41 being connected synchronous conveyer band 3-1 by last the feed station 1-41 on the working portion of the first synchronous conveyer band 1-1 (see Fig. 8), described linking synchronous conveyer band 3-1 moves and moves a step, the card 4 being arranged in the first linking feed station 3-41 be pushed to the second linking feed station 3-42 and stop (see Fig. 9), being also sent to by card 4 in first feed station 2-41 on the working portion of the second synchronous conveyer band 2-1;
(3) then the second synchronous conveyer band 2-1 moves and moves a step, and first feed station 2-41 on the working portion of the second synchronous conveyer band 2-1 pushes card 4 wherein to next feed station 2-4;
(4) at linking synchronous conveyer band 3-1, the first card 4 be connected in feed station 3-41 is pushed to after in the second linking feed station 3-42, next card 4 to be transported to according to its frequency of operation and to be connected first of synchronous conveyer band 3-1 and to be connected in feed station 3-41 and to stop by last the feed station 1-41 on the working portion of the first synchronous conveyer band 1-1, and after card 4 is wherein fed forward by first feed station 2-41 on the working portion of the second synchronous conveyer band 2-1, constantly repeat step (2) and step (3), cyclically work, realize the smooth transition (see Figure 10 and Figure 11) of card 4 between the first card transport 1 and the second card transport 2.
The principle of work of the connecting device of smart card conveying mechanism of the present utility model is:
See Fig. 1 ~ Figure 11, the working process of the connecting device of smart card conveying mechanism of the present utility model is see the description of the marching method of above-mentioned smart card conveying mechanism, wherein, the effect of described linking synchronous conveyer band 3-1 is the feed station 1-4 in the first synchronous conveyer band 1-1 and the second synchronous conveyer band 2-1, 2-4 links up, for reaching this object, the working portion being connected synchronous conveyer band 3-1 is needed to be arranged to two feed station 3-4, wherein, first is connected feed station 3-41 exchanges for carrying out card 4 with the first synchronous conveyer band 1-1, second is connected feed station 3-42 exchanges for carrying out card 4 with the second synchronous conveyer band 2-1, thus play the effect of transfer, if the feed station 3-4 be connected on the working portion of synchronous conveyer band 3-1 is very few, then cannot realize the effect of transfer, if the feed station 3-4 be connected on the working portion of synchronous conveyer band 3-1 is too much, then other feed station 1-4,2-4 on the working portion easily and on the first synchronous conveyer band 1-1, the second synchronous conveyer band 2-1 interfere,
Under standstill state, because the moving tooth 2-5 for actuating card 4 in first feed station 2-41 in described first linking feed station 3-41 on the moving tooth 3-5 of actuating card 4 and the working portion of the second synchronous conveyer band 2-1 is all arranged in the below of the lower surface of the card 4 of card travel line, therefore, when card 4 is sent in the first linking feed station 3-41 by last the feed station 1-41 on the working portion of the first synchronous conveyer band 1-1, the first moving tooth 3-5 be connected in feed station 3-41 would not hinder the normal conveying of card 4 (and finally can contact also actuating card 4 when the first moving tooth 3-5 be connected in feed station 3-41 moves subsequently with card 4 advance), and when be connected synchronous conveyer band 3-1 move move a step the card 4 being arranged in the first linking feed station 3-41 is pushed to the second linking feed station 3-42 time, moving tooth 2-5 in first feed station 2-41 on the working portion of the second synchronous conveyer band 2-1 also can not hinder the normal conveying of card 4 (and finally can contact with card 4 when the moving tooth 2-5 subsequently in this first feed station 2-41 moves and actuating card 4 is advanced),
Under the mode of operation that the first synchronous conveyer band 1-1 is identical with the frequency of operation of the second synchronous conveyer band 1-2, first synchronous conveyer band 1-1 and the second synchronous conveyer band 2-1 often synchronously moves once, a card 4 will be sent to and be connected in the first linking feed station 3-41 of synchronous conveyer band 3-1 by the first synchronous conveyer band 1-1, and the second synchronous conveyer band 2-1 can see a card 4 off from the second linking feed station 3-42 being connected synchronous conveyer band 3-1 simultaneously; And in time between the first synchronous conveyer band 1-1 and the double movement of the second synchronous conveyer band 2-1, being connected synchronous conveyer band 3-1 will be transported in the second linking feed station 3-42 by the first card 4 be connected in feed station 3-41; So constantly cyclically work.、
Under the mode of operation that the first synchronous conveyer band 1-1 is different with the frequency of operation of the second synchronous conveyer band 2-1 (normally the frequency of operation of the second synchronous conveyer band 2-1 is greater than the frequency of operation of the first synchronous conveyer band 1-1), after a card 4 is transported to the first linking feed station 3-41 by the first synchronous conveyer band 1-1, be connected synchronous conveyer band 3-1 and this card 4 can be transported to the second linking feed station 3-42, and then by the second synchronous conveyer band 2-1, this card 4 is taken away, a card 4 is transported to the first linking feed station 3-41 by the first synchronous conveyer band 1-1 more subsequently.
Above-mentioned is the utility model preferably embodiment; but embodiment of the present utility model is not by the restriction of foregoing; change, the modification done under other any does not deviate from Spirit Essence of the present utility model and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection domain of the present utility model.

Claims (8)

1. a connecting device for smart card conveying mechanism, is characterized in that, comprises the combining mechanism be arranged between the first card transport of first Fabricating machinery and the second card transport of the second Fabricating machinery, wherein:
Described first card transport comprises the first synchronous conveyer band in closed circuit structure and drives the first synchronous conveyer band to make the first driving actuating unit of circulating progressively movement, evenly distributedly on described first synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described first synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
Described second card transport comprises the second synchronous conveyer band in closed circuit structure and drives the second synchronous conveyer band to make the second driving actuating unit of circulating progressively movement, evenly distributedly on described second synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described second synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
Described combining mechanism comprises the linking synchronous conveyer band in closed circuit structure and drives linking synchronous conveyer band to make the linking driving actuating unit of circulating progressively movement, evenly distributedly on described linking synchronous conveyer band organize moving tooth more, often organize moving tooth in moving tooth and this moving tooth side other form a feed station for the Spatial Coupling holding card together; Described linking synchronous conveyer band, in moving process, often moves and moves a step, and a rear feed station overlaps with previous feed station;
In described first synchronous conveyer band, the second synchronous conveyer band and linking synchronous conveyer band, the part being positioned at top is the working portion of actual actuating card movement, and remainder is Backhaul;
Along card throughput direction: described first synchronous conveyer band, the working portion be connected in synchronous conveyer band and the second synchronous conveyer band are in turn connected to form card travel line, wherein, the working portion of described linking synchronous conveyer band has two feed station, be respectively the first linking feed station and second and be connected feed station; Last feed station on the working portion of described first synchronous conveyer band and described first is connected feed station and overlaps, and first feed station on the working portion of described second synchronous conveyer band and described second is connected feed station and overlaps; And, under standstill state, described first is connected the below being all arranged in the lower surface of the card of card travel line in first feed station in feed station on the moving tooth of actuating card and the working portion of the second synchronous conveyer band for the moving tooth of actuating card.
2. the connecting device of smart card conveying mechanism according to claim 1, it is characterized in that, described first drives actuating unit to comprise the first servomotor and several first synchronous pulleys, described first servomotor is connected with one of them first synchronous pulley, and described first synchronous conveyer band is looped around on the first synchronous pulley;
Described second drives actuating unit to comprise the second servomotor and several second synchronous pulleys, and described second servomotor is connected with one of them second synchronous pulley, and described second synchronous conveyer band is looped around on the second synchronous pulley;
Described linking drives actuating unit to comprise linking servomotor and several are connected synchronous pulley, and described linking servomotor is connected synchronous pulley with one of them and is connected, and described linking synchronous conveyer band is looped around linking synchronous pulley.
3. the connecting device of smart card conveying mechanism according to claim 1 and 2, it is characterized in that, perpendicular on card throughput direction: described first synchronous conveyer band and be connected settings of mutually staggering between synchronous conveyer band, setting of mutually staggering between described second synchronous conveyer band and linking synchronous conveyer band.
4. the connecting device of smart card conveying mechanism according to claim 3, it is characterized in that, in described combining mechanism, the quantity being connected synchronous pulley is three, wherein two are positioned at top, one is positioned at below, and described linking synchronous conveyer band is looped around on described three linking synchronous pulleys and forms closed triangular structure.
5. the connecting device of smart card conveying mechanism according to claim 4, it is characterized in that, two that are arranged in top are connected synchronous pulley, and one of them first synchronous pulley in the linking synchronous pulley and the first card transport of the first synchronous conveyer band is coaxially arranged.
6. the connecting device of smart card conveying mechanism according to claim 5, it is characterized in that, the quantity of the first synchronous conveyer band in described first card transport is two, perpendicular on card throughput direction, described two the first synchronous conveyer bands are arranged at the both sides being connected synchronous conveyer band.
7. the connecting device of smart card conveying mechanism according to claim 1 and 2, it is characterized in that, in described first synchronous conveyer band and the second synchronous conveyer band, often organize moving tooth and include two moving teeth, the Spatial Coupling between two moving teeth and two moving teeth forms a feed station together;
In described linking synchronous conveyer band, often organize moving tooth and comprise a moving tooth, each moving tooth and this moving tooth are organized together with the Spatial Coupling between moving tooth with next and are formed a feed station.
8. the connecting device of smart card conveying mechanism according to claim 1, is characterized in that, the outside on the top of described first synchronous conveyer band, the second synchronous conveyer band and linking synchronous conveyer band is provided with card track.
CN201520748517.9U 2015-09-23 2015-09-23 Smart card conveying mechanism's linking device Withdrawn - After Issue CN205060643U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105151639A (en) * 2015-09-23 2015-12-16 广州市明森机电设备有限公司 Transition device and transition method of smart card conveying mechanisms
CN108438842A (en) * 2018-01-31 2018-08-24 上海江南制药机械有限公司 The synchronous mode high speed transfer mechanism of product in a kind of parallel transmission process
CN108974796A (en) * 2018-08-07 2018-12-11 长沙长泰智能装备有限公司 A kind of synchronous belt transition apparatus of drive
CN113460658A (en) * 2021-06-11 2021-10-01 华侨大学 Visual system uniform velocity automatic feeding device is swept to line

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105151639A (en) * 2015-09-23 2015-12-16 广州市明森机电设备有限公司 Transition device and transition method of smart card conveying mechanisms
CN108438842A (en) * 2018-01-31 2018-08-24 上海江南制药机械有限公司 The synchronous mode high speed transfer mechanism of product in a kind of parallel transmission process
CN108974796A (en) * 2018-08-07 2018-12-11 长沙长泰智能装备有限公司 A kind of synchronous belt transition apparatus of drive
CN113460658A (en) * 2021-06-11 2021-10-01 华侨大学 Visual system uniform velocity automatic feeding device is swept to line

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