CN205555612U - Vertical card conveying mechanism - Google Patents

Abstract

The utility model discloses a vertical card conveying mechanism, including establishing connecing card to turn over the card unit, establish that turn over the card unit and the unit that passes through is carried to the card at the card feed of the card input end on processing module layer at the card output on processing module layer, it turns over the card unit and includes all that two sets of first roller trains, overturning power mechanism and card carry power unit to connect the card to turn over card unit and card feed, space between two gyro wheels of the first roller train of every group constitutes card transfer passage, the card carries the transition unit to include a plurality of groups second roller train and transition transport power unit, and the space between two gyro wheels of every group second roller train constitutes card transfer passage, and this card transfer passage is vertical setting. The utility model discloses a vertical card conveying mechanism is arranged in processing module parallel smart card processing equipment that sets up in upper and lower direction, realizes the transfer of card between different layers processing module to have advantages such as fast, efficient, compact structure.

Description

A kind of vertical card transport

Technical field

The utility model relates to smart card and manufactures equipment, is specifically related to a kind of vertical card transport.

Background technology

In the process of smart card, card needs to sequentially pass through each processing module with flowing water mode of movement and is processed.The conveying of card is completed by card transport, and existing card transport mainly includes that Timing Belt conveying and roller carry.In existing smart card production equipment, each processing module is the most all to arrange in a linear fashion, and each processing module is sequentially arranged on card transfer passage by card processing sequence.This smart card process equipment overall dimensions is longer, and the horizontal space occupying workshop is big；In order to reduce the entire length of smart card process equipment, make full use of the vertical direction spatial in workshop, can arrange that to use upper and lower parallel arrangement of mode processing module, the upper and lower are respectively provided with several processing modules (even can be arranged to three layers or more)；Card in the processing module of upper strata (or lower floor) after completion of processing, needs to transfer to continue processing in the processing module on lower floor (or upper strata).Card transfer between vertical two-layer processing module needs to be completed by vertical card transport, this vertical card transport should have the card of horizontal output, vertical transport card and card is flatly sent into the function in processing module in access processing module, but, prior art is not equipped with the vertical card transport of above-mentioned functions.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of vertical card transport is provided, this vertical card transport is in processing module the most parallel arrangement of smart card process equipment, realize card transfer between the processing module of different layers, and have and connect card, card feed and turn over the function of card, there is the advantages such as fast, the compact conformation of speed simultaneously.

The purpose of this utility model is realized by following technical scheme:

A kind of vertical card transport, the connecing that card turns over card unit, the card feed of the card input end that is located at the processing module layer of input card turns over card unit and be located at and connect the card that card turns over card unit and card feed turns between card unit and carry transition element, wherein of card output including the processing module layer being located at output card:

The described card that connects turns over card unit and card feed turns over card unit and all includes two group of first roller group, the upset actuating unit driving two group of first roller group unitary rotation and for driving the card of each roller rotation in two group of first roller group to carry actuating unit；Often organizing the first roller group and include paired two roller, the space between two rollers constitutes card transfer passage；

Described card conveying transition element includes some groups of the second roller groups and drives the transition of each roller rotation in this second roller group to carry actuating unit, often organize the second roller group and include paired two roller, space between two rollers constitutes card transfer passage, and this card transfer passage is vertically arranged；And when the card transfer passage in the first roller group turns to vertical state, the card transfer passage in the second roller group and the alignment of the card transfer passage in the first roller group.

A preferred version of the present utility model, wherein, described connect that card turns over card unit, card feed turns over card unit and card conveying transition element is arranged on a riser, wherein, the described transition conveying actuating unit connect in upset actuating unit, card conveying actuating unit and the card conveying transition element that card turns over card unit and card feed turns in card unit is arranged on the dorsal part of riser, described in connect card turns over card unit and card feed turns in card unit the first roller group and card carries the second roller group in transition element and is arranged on the front side of riser.By arranging described riser, it is simple to unit is in the layout of vertical direction, and the actuating unit and executing agency that carry card are respectively arranged at the both sides of riser so that compact conformation, makes full use of the space of riser both sides.

A preferred version of the present utility model, wherein, described in connect card and turn over card unit and be arranged at the upper end of riser, described card feed turns over card unit and is arranged at the lower end of riser, it is adaptable to card needs from upper strata processing module layer to the occasion of lower floor's processing module layer conveying.

A preferred version of the present utility model, wherein, described second roller group is two groups, along vertically arranged；Described transition conveying actuating unit include the second gear that the rotating shaft of transition conveying motor and transition conveying electric machine main shaft the first gear being connected and one of them roller often organized in the second roller group is connected and be located at two rollers often organized in the second roller group rotating shaft on intermeshing driving gear set, wherein, described second gear in described first gear and two the second roller groups is simultaneously engaged.The advantage using above-mentioned preferred version is, uses a transition conveying motor can drive the four rolling rotation in two group of second roller group, and structure is the compactest, and makes synchronized movement and the constant speed of four rolling, it is ensured that the conveying that smoothly transits of card；Further, both card can be carried from the top down, it is also possible to card is carried from bottom to top.

A preferred version of the present utility model, wherein, the front side of described riser is provided with in the outside with the card transfer passage corresponding position of card conveying transition element and leads draw-in groove, and this is led draw-in groove and is connected by connecting rod and riser are fixing.The effect leading draw-in groove described in arranging is, when card is transported at card conveying transition element, this is led draw-in groove and can carry out the conveying of card spacing and guide so that card accurately can turn over card unit and card feed turns over and smoothly transits between card unit connecing card.

A preferred version of the present utility model, wherein, described in connect card and turn over card unit and card feed turns in card unit, also include that mounting bracket, described first roller group and card conveying actuating unit are arranged in this mounting bracket；Described card conveying actuating unit is made up of the transmission mechanism of the four rolling in card conveying motor and connecting card conveying motor and the first roller group.

Preferably, described upset actuating unit is by turning over card motor and synchronous belt drive mechanism is constituted, and wherein, the driving pulley in described synchronous belt drive mechanism is connected with the main shaft turning over card motor, and the driven pulley in synchronous belt drive mechanism is fixing with described mounting bracket to be connected.In this preferred version, turn over card motor and drive mounting bracket to overturn by synchronous belt drive mechanism, thus drive the first roller group and card conveying actuating unit entirety upset so that card therein is carried out 90 ° of upsets.

Preferably, at the front end of described mounting bracket, it is provided with card guide groove, for the card entered in the first roller group is guided and positioned, it is ensured that card accurately carries and puts in place.

Operation principle of the present utility model is:

During work, card is sent from the card output level of the processing module layer of output card, now connect the card transfer passage that card turns in card unit to be the level of state, card is by connecing the first roller group access that card turns in card unit, and it is transported to setting position, meanwhile, connecing the upset actuating unit that card turns in card unit drives the first roller group and card therein to carry out 90 ° of upsets so that card transfer passage and card are vertical state；Then, during the second roller group of card conveying transition element vertically delivered to by card by the first roller group, card continuation is vertically flowed to card feed and turns over card unit by the second roller group subsequently, and the card transfer passage during now card feed turns over card unit is vertical state；Card feed turns over the first roller group in card unit and takes over card and be transported to specify position, and the upset actuating unit during card feed turns over card unit simultaneously drives the first roller group and card therein to carry out 90 ° of upsets so that card is the level of state；Last card feed turns over the card input end that card is transported to the processing module layer of input card by the first roller group in card unit, completes the transition between two-layer processing module layer of a card.

The utility model compared with prior art has a following beneficial effect:

1, it is applied in processing module the most parallel arrangement of smart card process equipment, it is achieved card transfer between vertical two-layer processing module layer.

2, card carries along vertical track between upper and lower two-layer processing module layer, and conveying stroke is the shortest, and efficiency is the highest；Not only can be with rotation card feed but also can the first roller group of overall upset by arranging, realize the conversion that card carries out carrying in the horizontal direction with vertical direction, and card can overturn while carrying in the first roller group, make upset be not take up extra time, improve card feed efficiency as far as possible.

3, card transition conveying between upper and lower two-layer processing module layer can be carried out continuously in pipelined fashion such that it is able to adapts to the rhythm of production of smart card process equipment, so it does not become the link of restriction smart card process equipment production efficiency.

4, the transition conveying of card both can carry from the top down, it is also possible to carries from bottom to top.

Accompanying drawing explanation

Fig. 1-Fig. 5 is the structural representation of a detailed description of the invention of vertical card transport of the present utility model, and wherein, Fig. 1 is front view, and Fig. 2 is left view, and Fig. 3 is top view, Fig. 4 and Fig. 5 is stereogram.

Fig. 6 is to connect the card transfer passage that card turns over card unit and card feed turns in card unit in structure shown in Fig. 1 to be in the schematic diagram of vertical state.

Fig. 7 is the perspective view of transition conveying actuating unit part in Fig. 1-Fig. 5 illustrated embodiment.

Fig. 8 is to connect card in Fig. 1-Fig. 5 illustrated embodiment to turn over card unit and card feed turns over the perspective view of card unit.

Fig. 9 is the perspective view of the another embodiment of vertical card transport of the present utility model.

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 to this.

Embodiment 1

Seeing Fig. 1-Fig. 5, vertical card transport of the present utility model includes being located at connecing that card turns over card unit 3, the card feed of the card input end that is located at the processing module layer of input card 1 turns over card unit 4 and be located at and connecing the card that card turns over card unit 3 and card feed turns between card unit 4 and carry transition element 5 of the card output of the processing module layer of output card 1.Wherein:

The described card that connects turns over card unit 3 and card feed turns over card unit 4 and all includes two group of first roller group 6, the upset actuating unit driving two group of first roller group 6 unitary rotation and for driving the card of each roller rotation in two group of first roller group 6 to carry actuating unit；Often organizing the first roller group 6 and include paired two roller, the space between two rollers constitutes card transfer passage.

Described card conveying transition element 5 includes some groups of the second roller groups 7 and drives the transition of each roller rotation in this second roller group 7 to carry actuating unit, often organize the second roller group 7 and include paired two roller, space between two rollers constitutes card transfer passage, and this card transfer passage is vertically arranged；And when the card transfer passage in the first roller group 6 turns to vertical state, the card transfer passage in the second roller group 7 and the alignment of the card transfer passage in the first roller group 6.

See Fig. 1-Fig. 5, described connect that card turns over card unit 3, card feed turns over card unit 4 and card conveying transition element 5 is arranged on a riser 2, wherein, the described transition conveying actuating unit connect in upset actuating unit, card conveying actuating unit and the card conveying transition element 5 that card turns over card unit 3 and card feed turns in card unit 4 is arranged on the dorsal part of riser 2, described in connect card turns over card unit 3 and card feed turns in card unit 4 the first roller group 6 and card carries the second roller group 7 in transition element 5 and is arranged on the front side of riser 2.By arranging described riser 2, it is simple to unit is in the layout of vertical direction, and the actuating unit and executing agency that carry card 1 are respectively arranged at the both sides of riser 2 so that compact conformation, makes full use of the space of riser 2 both sides.

See Fig. 1-Fig. 5, described in connect card and turn over card unit 3 and be arranged at the upper end of riser 2, described card feed turns over card unit 4 and is arranged at the lower end of riser 2, needs from upper strata processing module layer to the occasion of lower floor's processing module layer conveying for card 1.

Seeing Fig. 1-Fig. 5 and Fig. 7, described second roller group 7 is two groups, along vertically arranged；Described transition conveying actuating unit include the second gear 15 that the rotating shaft of transition conveying motor 10 and transition conveying motor 10 main shaft the first gear 14 being connected and one of them roller often organized in the second roller group 7 is connected and be located at two rollers often organized in the second roller group 7 rotating shaft on intermeshing driving gear set 16, wherein, described first gear 14 is simultaneously engaged with described second gear 15 in two the second roller groups 7.The advantage using such scheme is, uses a transition conveying motor 10 can drive the four rolling rotation in two group of second roller group 7, and structure is the compactest, and makes synchronized movement and the constant speed of four rolling, it is ensured that the conveying that smoothly transits of card 1；Further, both card 1 can be carried from the top down, it is also possible to card 1 is carried from bottom to top.

See Fig. 1-Fig. 5 and Fig. 8, described in connect card and turn over card unit 3 and card feed turns in card unit 4, also include that mounting bracket 17, described first roller group 6 and card conveying actuating unit are arranged in this mounting bracket 17；Described card conveying actuating unit is made up of the transmission mechanism 13 of the four rolling in card conveying motor 8 and connecting card conveying motor 8 and the first roller group 6, and described transmission mechanism 13 can use the mechanism identical with the gear drive in above-mentioned transition conveying actuating unit.

See Fig. 1-Fig. 5 and Fig. 8, described upset actuating unit is by turning over card motor 9 and synchronous belt drive mechanism is constituted, wherein, the driving pulley 11 in described synchronous belt drive mechanism is connected with the main shaft turning over card motor 9, and the driven pulley 12 in synchronous belt drive mechanism is fixing with described mounting bracket 17 to be connected.In the program, turn over card motor 9 and drive mounting bracket 17 to overturn by synchronous belt drive mechanism, thus drive the first roller group 6 and card conveying actuating unit entirety upset so that card 1 therein is carried out 90 ° of upsets.

See Fig. 1-Fig. 5 and Fig. 8, at the front end of described mounting bracket 17, be provided with card guide groove 18, for the card 1 entered in the first roller group 6 is guided and positions, it is ensured that card 1 accurately carries and puts in place.

Operation principle of the present utility model is:

See Fig. 1-Fig. 8, during work, card 1 is sent from the card output level of the processing module layer of output card 1, now connect the card transfer passage that card turns in card unit 3 to be the level of state, card 1 is accessed by connecing the first roller group 6 that card turns in card unit 3, and is transported to setting position, meanwhile, connecing the upset actuating unit that card turns in card unit 3 drives the first roller group 6 and card therein 1 to carry out 90 ° of upsets so that card transfer passage and card 1 are in vertical state；Then during the second roller group 7 of card conveying transition element 5 vertically delivered to by card 1 by the first roller group 6, card 1 is continued vertically to flow to card feed and turns over card unit 4 by the second roller group 7 subsequently, and the card transfer passage during now card feed turns over card unit 4 is vertical state；Card feed turns over the first roller group 6 in card unit 4 and takes over card 1 and be transported to specify position, and the upset actuating unit during card feed turns over card unit 4 simultaneously drives the first roller group 6 and card therein 1 to carry out 90 ° of upsets so that card 1 is the level of state；Last card feed turns over the card input end that card 1 is transported to the processing module layer of input card 1 by the first roller group 6 in card unit 4, completes the transition between two-layer processing module layer of a card 1.

Embodiment 2

Seeing Fig. 9, the present embodiment is with the difference of embodiment 1, in the present embodiment:

The front side of described riser 2 is provided with in the outside with the card transfer passage corresponding position of card conveying transition element 5 and leads draw-in groove 19, and this is led draw-in groove 19 and is connected by connecting rod 20 is fixing with riser 2.The effect leading draw-in groove 19 described in arranging is, when card 1 is transported at card conveying transition element 5, this is led draw-in groove 19 and can carry out the conveying of card 1 spacing and guide so that card 1 accurately can turn over card unit 3 and card feed turns over and smoothly transits between card unit 4 connecing card.For the ease of card 1 accurately enter into described in lead in draw-in groove 19, this upper end leading draw-in groove 19 is provided with A/F by guide portion 19-1 tapered into greatly.

Above-mentioned for the 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 Essence 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 (8)

1. a vertical card transport, it is characterized in that, the connecing that card turns over card unit, the card feed of the card input end that is located at the processing module layer of input card turns over card unit and be located at and connect the card that card turns over card unit and card feed turns between card unit and carry transition element, wherein of card output including the processing module layer being located at output card:

The described card that connects turns over card unit and card feed turns over card unit and all includes two group of first roller group, the upset actuating unit driving two group of first roller group unitary rotation and for driving the card of each roller rotation in two group of first roller group to carry actuating unit；Often organizing the first roller group and include paired two roller, the space between two rollers constitutes card transfer passage；

Described card conveying transition element includes some groups of the second roller groups and drives the transition of each roller rotation in this second roller group to carry actuating unit, often organize the second roller group and include paired two roller, space between two rollers constitutes card transfer passage, and this card transfer passage is vertically arranged；And when the card transfer passage in the first roller group turns to vertical state, the card transfer passage in the second roller group and the alignment of the card transfer passage in the first roller group.

Vertical card transport the most according to claim 1, it is characterized in that, described connect that card turns over card unit, card feed turns over card unit and card conveying transition element is arranged on a riser, wherein, the described transition conveying actuating unit connect in upset actuating unit, card conveying actuating unit and the card conveying transition element that card turns over card unit and card feed turns in card unit is arranged on the dorsal part of riser, described in connect card turns over card unit and card feed turns in card unit the first roller group and card carries the second roller group in transition element and is arranged on the front side of riser.

Vertical card transport the most according to claim 2, it is characterised in that described in connect card and turn over card unit and be arranged at the upper end of riser, described card feed turns over card unit and is arranged at the lower end of riser.

Vertical card transport the most according to claim 2, it is characterised in that described second roller group is two groups, along vertically arranged；Described transition conveying actuating unit include the second gear that the rotating shaft of transition conveying motor and transition conveying electric machine main shaft the first gear being connected and one of them roller often organized in the second roller group is connected and be located at two rollers often organized in the second roller group rotating shaft on intermeshing driving gear set, wherein, described second gear in described first gear and two the second roller groups is simultaneously engaged.

5. according to the vertical card transport described in any one of claim 2-4, it is characterized in that, the front side of described riser is provided with in the outside with the card transfer passage corresponding position of card conveying transition element and leads draw-in groove, and this is led draw-in groove and is connected by connecting rod and riser are fixing.

Vertical card transport the most according to claim 2, it is characterised in that described in connect card and turn over card unit and card feed turns in card unit, also include that mounting bracket, described first roller group and card conveying actuating unit are arranged in this mounting bracket；Described card conveying actuating unit is made up of the transmission mechanism of the four rolling in card conveying motor and connecting card conveying motor and the first roller group.

Vertical card transport the most according to claim 6, it is characterized in that, described upset actuating unit is by turning over card motor and synchronous belt drive mechanism is constituted, wherein, driving pulley in described synchronous belt drive mechanism is connected with the main shaft turning over card motor, and the driven pulley in synchronous belt drive mechanism is fixing with described mounting bracket to be connected.

Vertical card transport the most according to claim 7, it is characterised in that be provided with card guide groove at the front end of described mounting bracket.