CN203845502U - Smart card conveying belt and smart card conveying mechanism - Google Patents
Smart card conveying belt and smart card conveying mechanism Download PDFInfo
- Publication number
- CN203845502U CN203845502U CN201420227085.2U CN201420227085U CN203845502U CN 203845502 U CN203845502 U CN 203845502U CN 201420227085 U CN201420227085 U CN 201420227085U CN 203845502 U CN203845502 U CN 203845502U
- Authority
- CN
- China
- Prior art keywords
- timing belt
- belt body
- card
- transfer device
- load
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Delivering By Means Of Belts And Rollers (AREA)
Abstract
The utility model discloses a smart card conveying belt and a smart card conveying mechanism. The smart card conveying belt comprises a synchronous belt body which is provided with a plurality of rigid shifting teeth, the shifting teeth extend in the height direction of the synchronous belt body and extend to the lower edge of the synchronous belt body, and the extending parts of the shifting teeth constitute a card pushing part for pushing cards. The intelligent card conveying mechanism comprises the conveying belt and a power mechanism. The power mechanism comprises a motor and at least two synchronous belt wheels, the synchronous teeth of the conveying belt are meshed with tooth grooves in the synchronous belt wheels, and the motor drives one of the synchronous belt wheel. The shifting teeth in the smart card conveying belt can not be bent and deformed when pushing the cards for stamping codes, and it is guaranteed that the positions of words stamped on the cards are accurate.
Description
Technical field
The utility model relates to the production facilities of smart card, is specifically related to the smart card load-transfer device in a kind of smart card stamp process and comprises the smart card conveying mechanism of this load-transfer device.
Background technology
In the production process of smart card, need to carry out concavo-convex word stamp to card and (on card, stamp relevant Word message, for example, card number, identification card number etc.), when stamp, drive card in stamp equipment, to carry out feed motion by smart card conveying mechanism, to stamp corresponding word at the assigned address of card.Existing smart card conveying mechanism mainly contains two kinds, and the first is to push away card by clamping device, and this mechanism will take the more time in card turnover card handshaking, affects production efficiency; The second is to push away card by load-transfer device, as depicted in figs. 1 and 2, this conveying mechanism comprises load-transfer device and actuating unit, wherein, described load-transfer device comprises Timing Belt belt body 1, the interior zone face of this Timing Belt belt body 1 is provided with synchronous gear 2, outer zone face is provided with several latches 3 for actuating card 4, this latch 3 is by the formation that vertically stretches out at the outer zone face of Timing Belt belt body 1, when work, the surface of card parallels with zone face, and latch 3 acts on the edge of card 4, and actuating card 4 is done feed motion on stamp equipment.Existing this load-transfer device has the following disadvantages: because load-transfer device is soft member, be easy to flexural deformation, although synchronous pulley can carry out tensioning to load-transfer device in the course of the work, in the time that load-transfer device and latch 3 are subject to pushing away the larger antagonistic force of card process card, still can produce distortion; Carry out in stamp process in actuating card 4, card 4 can produce larger antagonistic force F to latch 3
1(referring to Fig. 1), this antagonistic force F
1can produce a moment T who is positioned at perpendicular to the plane of zone face to load-transfer device
1(referring to Fig. 1), this moment T
1can impel load-transfer device in the direction perpendicular to zone face, to produce certain flexural deformation, and latch 3 itself is due to one-body molded with Timing Belt belt body 1 or be connected in aggregates, also can there is certain distortion in self under larger antagonistic force, these two kinds of distortion are combined, and then make the attitude of card 4 offset setting in stamp equipment, thereby the position of the word on card 4 is got in impact, and even segment word cannot be got on card 4.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of smart card load-transfer device is provided, and this smart card load-transfer device can not occur bending and deformation in the time that stamp is carried out in actuating card, guarantees that the text point of stamping on card is accurate.
Another object of the present utility model is to provide a kind of smart card conveying mechanism that comprises above-mentioned smart card load-transfer device.
The purpose of this utility model realizes by following technical scheme:
A kind of smart card load-transfer device, comprises Timing Belt belt body, and described Timing Belt belt body is provided with the moving tooth of several rigidity, and this moving tooth extends and stretch out the lower edge of Timing Belt belt body along the short transverse of Timing Belt belt body, and this sponson forms the card division that pushes away of actuating card.
A preferred version of smart card load-transfer device of the present utility model, wherein, described moving tooth is arranged on the outer zone face of Timing Belt belt body, this moving tooth and Timing Belt band body by integral forming.In the time that Timing Belt band is body formed, just form moving tooth like this, can omit follow-up moving tooth erection work, once after shortcoming is the position moulding of moving tooth, cannot change again.
A preferred version of smart card load-transfer device of the present utility model, wherein, described moving tooth is the individual member being connected on Timing Belt belt body, this moving tooth comprises mobile jib and is arranged on the clamping element of the dorsal part at these upper and lower two ends of mobile jib, between described clamping element and mobile jib, be provided with upper edge for being clamped in Timing Belt belt body and the grasping part of lower edge, described clamping element, Timing Belt belt body and mobile jib are fixed together, wherein, mobile jib is positioned on the outer zone face of Timing Belt belt body, clamping element is positioned on the zone face of Timing Belt belt body, and the face of joint engaging with Timing Belt belt body in described mobile jib and clamping element is the surface consistent with this junction surface configuration of Timing Belt belt body.
By this preferred version, be convenient on the one hand the setting of moving tooth, the position of moving tooth can be set flexibly according to the width of the length of concrete load-transfer device and card, make same load-transfer device can set for different operatings needs the quantity and spacing of moving tooth; On the other hand, described mobile jib and clamping element are made up of metallic material conventionally, have good rigidity, further guarantee that load-transfer device can not occur bending and deformation in the course of the work; In addition, because the face of joint engaging with Timing Belt belt body in described mobile jib and clamping element is the surface consistent with this junction surface configuration of Timing Belt belt body, can increase like this area of thrust surface of moving tooth and Timing Belt belt body, guarantee that clamping is firm, and when work is stressed evenly, avoid local pressure excessive and cause Timing Belt belt body partial failure.
A preferred version of smart card load-transfer device of the present utility model, wherein, is connected by screw between described clamping element, Timing Belt belt body and mobile jib, and this screw passes through clamping element, Timing Belt belt body and mobile jib three is linked into an integrated entity.Be conducive to so more securely moving tooth is connected on Timing Belt belt body, wherein, as a whole of described mobile jib, mobile jib and clamping element can be single piece, also can be separate piece, in the time that both are single piece, while attaching it to Timing Belt belt body, by Timing Belt belt body can be inserted into the upper lower edge of Timing Belt belt body in two grasping parts along the suitable bending of short transverse.
A preferred version of smart card load-transfer device of the present utility model, wherein, on the interior zone face of described Timing Belt belt body and outer zone face, be equipped with synchronous gear, described mobile jib is matched with on the teeth groove on the outer zone face of Timing Belt belt body, and described clamping element is matched with on the teeth groove on the interior zone face of Timing Belt belt body.
In above-mentioned preferred version, because the both sides of Timing Belt belt body are equipped with synchronous gear, therefore mobile jib and clamping element all can be matched with in teeth groove, not only be conducive to the fixing of mobile jib and clamping element, and improved area of thrust surface, especially mobile jib and the side of clamping element and coordinating of teeth groove side between moving tooth and Timing Belt belt body, can make stressed even, increase rigidity, further guarantee that load-transfer device does not bend in the course of the work.
A preferred version of smart card load-transfer device of the present utility model, wherein, the interior zone face of described Timing Belt belt body is provided with synchronous gear, outer zone face is light face, the outer zone face of the inside face of described mobile jib and Timing Belt belt body is fully fitted, and described clamping element is matched with on the teeth groove on the interior zone face of Timing Belt belt body.
In above-mentioned preferred version, because the outer zone face of Timing Belt belt body does not have synchronous gear, simplify the structure, by allowing the inside face of mobile jib and the outer zone face of Timing Belt belt body fully fit, be conducive to improve the friction coefficient of contact surface, improve stressed.
A kind of smart card conveying mechanism of above-mentioned smart card load-transfer device, also comprise actuating unit, this actuating unit comprises motor and at least two synchronous pulleys, and the synchronous gear of described load-transfer device is meshed with the teeth groove on synchronous pulley, and described motor drives one of them synchronous pulley.
A preferred version of smart card conveying mechanism of the present utility model, wherein, the moving tooth in described load-transfer device is the individual member being connected on Timing Belt belt body, described each synchronous pulley is provided with at least one for holding the breach of described moving tooth; In the time that described breach is one, the distance in this load-transfer device between moving tooth equals the integral multiple of the girth of synchronous pulley, and in the time that described breach is more than or equal to two, the circumferential lengths between adjacent two breach equals the distance between moving tooth in load-transfer device.
Adopt the object of above-mentioned preferred version to be, on moving tooth due to load-transfer device, there is the clamping element being positioned on zone face, in the process of synchronous pulley driving conveying belt operation, in the time that described moving tooth runs to synchronous pulley place, because the synchronous gear on shape and position and the load-transfer device of clamping element is inconsistent, therefore be difficult to be meshed with the teeth groove on synchronous pulley, and by described breach is set on synchronous pulley, and by the distance between the circumferential distance between breach and breach and moving tooth is mapped, while making each moving tooth move to synchronous pulley place, clamping element all just matches in described breach, thereby guarantee that Timing Belt can normally move.Described breach is the clearance position that corresponding position digs out clamping element on synchronous pulley, and its shape is similar with position shape corresponding in clamping element, and its size is a bit larger tham the size of clamping element corresponding position.Described breach generally includes upper and lower two parts, lays respectively at the two ends up and down of synchronous pulley, and the part between these upper and lower two parts still retains the original synchronous gear of synchronous pulley and engages with Timing Belt.
A preferred version of smart card conveying mechanism of the present utility model, wherein, described synchronous pulley is three, one of them is directly connected with electric machine main shaft, these three synchronous pulleys are by described conveying belt tension triangularity, this leg-of-mutton one of them limit is corresponding with stamp equipment, the work moving tooth of actuating card when being positioned at moving tooth on this limit and being work.
By three synchronous pulleys are set, can under the prerequisite of synchronous pulley minimum number, guarantee that the inner side of load-transfer device forms enough spaces, so that working parts such as mounted motors; But the quantity of synchronous pulley can be selected flexibly according to actual needs.
A preferred version of smart card conveying mechanism of the present utility model, wherein, also comprise the card track that card sense of motion arranges that pushes away that is parallel to load-transfer device, this card track comprises left guide groove and right guide groove, wherein, in one of them guide groove of described left guide groove and right guide groove, be provided with elastic damping mechanism, this elastic damping mechanism comprises press strip and the spring with press strip link, in the time that card is positioned at card track, described press strip is pressed on card on the guide groove relative with the guide groove that is provided with elastic damping mechanism under the effect of spring.
Adopt the object of above-mentioned preferred version to be, card is in by moving tooth pushing course, due to the flexible damping machine clamping action power lasting to card, in the time that card is pushed to target location by moving tooth, described clamping action power can prevent that card is because inertia moves forward, thereby guarantees card position registration.
The principle of work of smart card load-transfer device of the present utility model is: when work, what card was fed to moving tooth pushes away card division place, moving tooth push away card division actuating card march forward to, owing to pushing away card division and be positioned at the below of Timing Belt belt body, while pushing away card division actuating card, card is the application force that is parallel to zone face direction to the antagonistic force F2 (referring to Figure of description 3) that pushes away card division generation of moving tooth, this antagonistic force F2 makes the top and bottom of moving tooth produce opposite direction to Timing Belt belt body respectively and is parallel to two application forces of zone face, these two application forces produce a moment T2 (referring to Figure of description 3) who is positioned at the zone face of Timing Belt belt body to Timing Belt belt body, because the rigidity of Timing Belt belt body in the direction that is parallel to zone face is best, and be also the optimum orientation of opposing external force, therefore Timing Belt belt body can not occur bending and deformation pushing away in card process, position while guaranteeing to push away card is accurate.
Described from above-mentioned principle of work, the utility model compared with prior art has following beneficial effect:
1, the application force that during due to work, moving tooth produces Timing Belt belt body and moment are positioned at the plane of the zone face that is parallel to Timing Belt belt body, the rigidity of Timing Belt belt body in the direction that is parallel to zone face best (the party's rigidity is upwards far longer than the rigidity perpendicular to zone face direction), make Timing Belt belt body in propelling movement card process, Timing Belt belt body can not occur bending and deformation, guarantee card to be pushed on the position of setting, thereby the word of stamping on card can not depart from the position of setting.
2, because Timing Belt belt body can not bend in the course of the work, in use procedure, Timing Belt belt body can not extend voluntarily, has greatly extended service life.
3, in the time that moving tooth is individual member, this moving tooth adopts rigid metal part conventionally, and geomery is completely fixed, and in working process, can not bend, and guarantees that the text point of stamping on card is accurate; And moving tooth can be fastenedly connected by screw and Timing Belt belt body, changes very convenient in the time that moving tooth goes wrong.
Brief description of the drawings
Fig. 1 and Fig. 2 are the structural representation of existing smart card load-transfer device, and wherein, Fig. 1 is front view, and Fig. 2 is birds-eye view (partial view).
Fig. 3~Fig. 5 is the structural representation of the embodiment 1 of smart card load-transfer device of the present utility model, and wherein, Fig. 3 is front view (Local map), and Fig. 4 is birds-eye view (Local map), and Fig. 5 is block diagram.
Fig. 6 is the structural representation of the embodiment 1 of smart card conveying mechanism of the present utility model.
Fig. 7 is the structural representation of card track part in smart card conveying mechanism shown in Fig. 6.
Fig. 8 is the exploded view of Fig. 7.
Fig. 9~Figure 11 is the local structure schematic diagram of the embodiment 2 of smart card load-transfer device of the present utility model, and wherein, Fig. 9 is front view, and Figure 10 is birds-eye view, and Figure 11 is block diagram.
Figure 12 is the perspective view of moving tooth in smart card load-transfer device shown in Fig. 9~Figure 11.
Figure 13 is the vertical structural representation of the embodiment 2 of smart card conveying mechanism of the present utility model.
Figure 14~Figure 17 is the local structure schematic diagram of the embodiment 3 of smart card load-transfer device of the present utility model, and wherein, Figure 14 is front view, and Figure 15 is birds-eye view, and Figure 16 is back view, and Figure 17 is block diagram.
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
Referring to Fig. 3~Fig. 5, smart card load-transfer device of the present utility model comprises Timing Belt belt body 1, this Timing Belt belt body 1 is provided with the moving tooth 5 of several rigidity, this moving tooth 5 extends and stretches out the lower edge of Timing Belt belt body 1 along the short transverse of Timing Belt belt body 1, what this sponson formed actuating card 4 pushes away card division 5-1.
Referring to Fig. 3~Fig. 5, described moving tooth 5 is arranged on the outer zone face of Timing Belt belt body 1, and this moving tooth 5 is one-body molded with Timing Belt belt body 1.In the time of 1 moulding of Timing Belt belt body, just form moving tooth 5 like this, can omit 5 erection works of follow-up moving tooth, once after shortcoming is the position moulding of moving tooth 5, cannot change again.
Referring to Fig. 3~Fig. 5, on the interior zone face of described load-transfer device and outer zone face, be equipped with synchronous gear 2, wherein, the effect that synchronous gear is set on zone face is outside, can in the outside of Timing Belt belt body 1, synchronous pulley be also set as required.
Referring to Fig. 6, the smart card conveying mechanism that comprises above-mentioned smart card load-transfer device of the present embodiment also comprises the actuating unit and the card track that are arranged on base plate 6, wherein, described actuating unit comprises motor 10, the first synchronous pulley 8, the second synchronous pulley 9 and the 3rd synchronous pulley, the synchronous gear 2 of described load-transfer device is meshed with the teeth groove on three synchronous pulleys respectively, and the main shaft of described motor 10 is directly connected on the 3rd synchronous pulley.Described three synchronous pulleys are by described conveying belt tension triangularity, and this leg-of-mutton one of them limit is corresponding with stamp equipment 7, the work moving tooth 5 of actuating card 4 while being positioned at moving tooth on this limit 5 for work.By three synchronous pulleys are set, can under the prerequisite of synchronous pulley minimum number, guarantee that the inner side of load-transfer device forms enough spaces, so that working parts such as mounted motors 10.
Referring to Fig. 7 and Fig. 8, what described card track was parallel to load-transfer device pushes away the setting of card sense of motion, comprise left guide groove 13 and right guide groove 12, wherein, described right guide groove 12 is made up of the cell body arranging on the edge of right guide plate, left guide groove 13 is made up of the edge cell body of the upper left guide plate 14 being superimposed together and lower-left guide plate 15, in this left guide groove 13, be provided with elastic damping mechanism, this elastic damping mechanism comprises press strip 16, briquetting 17 and spring 18, wherein, described spring 18 is arranged on briquetting 17, this spring 18 impels briquetting 17 to be pressed on press strip 16, described lower-left guide plate 15 is provided with multiple mounting grooves 15-1 that distribute along guide groove length direction, and each mounting groove 15-1 is interior arranges a briquetting 17, and each briquetting 17 is provided with two springs 18, in the time that card 4 is positioned at card track, described press strip 16 is pressed on card 4 on right guide groove 13 under the effect of spring 18 and briquetting 17.Adopt the effect of this structure to be, card 4 is in by moving tooth pushing course, due to the flexible damping machine clamping action power lasting to card 4, in the time that card 4 is pushed to target location by moving tooth 5, described clamping action power can prevent that card 4 is because inertia moves forward, thereby guarantees card 4 position registrations.
The principle of work of the smart card conveying mechanism below in conjunction with accompanying drawing to the present embodiment is described in further detail:
Referring to Fig. 3~Fig. 8, treat that the card 4 of stamp is under the conveying of intermittent delivery mechanism, two that are sent to moving tooth 5 push away between card division 5-1, moving tooth 5 is pushed into the stamp of carrying out the first row word in stamp equipment 7 along with the operation of load-transfer device by card 4, complete after the stamp of the first row word, if card needs stamp two row or more than two row, card division 5-1 actuating card 4 that pushes away of another moving tooth 5 back moves to initial position, simultaneously, travel mechanism's actuating card guide rail perpendicular to running direction of conveyor belt moves to another row stamp position of card together with card wherein, then be fed forward again, carry out the stamp of the second style of writing word, the stamp of the above word of the second row is also carried out in this way, thereby complete the stamp work of a card 4, then card 4 is fed to next station.Constantly repeat above-mentioned stamp work, can complete card continuous batch and produce.
Embodiment 2
The difference of the present embodiment compared with embodiment 1 is:
Referring to Fig. 9~Figure 12, in the load-transfer device of the present embodiment, 1 of described Timing Belt belt body is provided with synchronous gear 2 on interior zone face.Described moving tooth 5 is for being connected to the individual member being made of metal on Timing Belt belt body 1, this moving tooth 5 comprises mobile jib 5-4 and is arranged on the clamping element 5-2 of the dorsal part at the upper and lower two ends of this mobile jib 5-4, between described clamping element 5-2 and mobile jib 5-4, be provided with upper edge for being clamped in Timing Belt belt body 1 and the grasping part 5-3 of lower edge, between described clamping element 5-2, Timing Belt belt body 1 and mobile jib 5-4, be connected by screw and be fixed together, wherein, mobile jib 5-4 is positioned on the outer zone face of Timing Belt belt body 1, and clamping element 5-2 is positioned on the zone face of Timing Belt belt body 1.The face of joint engaging with Timing Belt belt body 1 in described mobile jib 5-4 and clamping element 5-2 is the surface consistent with this junction surface configuration of Timing Belt belt body 1, particularly, the outer zone face of the inside face of described mobile jib 5-4 and Timing Belt belt body 1 is fully fitted, and described clamping element 5-2 is matched with on the teeth groove on the interior zone face of Timing Belt belt body 1.As a whole of described mobile jib 5-4, mobile jib 5-4 and clamping element 5-2 are also single piece, between described clamping element 5-2, Timing Belt belt body 1 and mobile jib 5-4, be connected by screw, this screw passes through clamping element 5-2, Timing Belt belt body 1 and mobile jib 5-4 three is linked into an integrated entity.When described moving tooth 5 is installed to Timing Belt belt body 1, by Timing Belt belt body 1 can be inserted into the upper lower edge of Timing Belt belt body 1 in two grasping parts 5-3 along the suitable bending of short transverse.
Adopt the effect of the load-transfer device of said structure to be, be convenient on the one hand the setting of moving tooth 5, the position of moving tooth 5 can be set flexibly according to the width of the length of concrete load-transfer device and card 4, make same load-transfer device can set for different operatings needs the quantity and spacing of moving tooth 5; On the other hand, described mobile jib 5-4 and clamping element 5-2 are made up of metallic material, have good rigidity, further guarantee that load-transfer device can not occur bending and deformation in the course of the work; In addition, because the face of joint engaging with Timing Belt belt body 1 in described mobile jib 5-4 and clamping element 5-2 is the surface consistent with this junction surface configuration of Timing Belt belt body 1, can increase like this area of thrust surface of moving tooth 5 and Timing Belt belt body 1, guarantee that clamping is firm, and stressed even when work, avoid local pressure excessive and cause Timing Belt belt body 1 partial failure, extend the service life of Timing Belt.
Referring to Figure 13, in the smart card conveying mechanism of the present embodiment, described the first synchronous pulley 8 is provided with two for holding the breach 11 of described moving tooth 5, described the second synchronous pulley 9 and the 3rd synchronous pulley are provided with one for holding the breach 11 of described moving tooth 5, the girth of described the second synchronous pulley 9 and the 3rd synchronous pulley equals the distance between moving tooth 5 in load-transfer device, and the circumferential lengths in described the first synchronous pulley 8 between two breach 11 equals the distance between moving tooth 5 in load-transfer device.Its object is, on moving tooth 5 due to load-transfer device, there is the clamping element 5-2 being positioned on zone face, in the process of synchronous pulley driving conveying belt operation, in the time that described moving tooth 5 runs to synchronous pulley place, because the synchronous gear 2 on shape and position and the load-transfer device of clamping element 5-2 is inconsistent, therefore be difficult to be meshed with the teeth groove on synchronous pulley, and by described breach 11 is set on synchronous pulley, and by the distance between the circumferential distance between breach 11 and breach 11 and moving tooth 5 is mapped, while making each moving tooth 5 move to synchronous pulley place, clamping element 5-2 all just matches in described breach 11, thereby guarantee that Timing Belt can normally move.Described breach 11 is clearance position that corresponding position digs out clamping element 5-2 on synchronous pulley, and its shape is similar with position shape corresponding in clamping element 5-2, and its size is a bit larger tham the size of clamping element 5-2 corresponding positions.Described breach 11 comprises upper and lower two parts, lays respectively at the two ends up and down of synchronous pulley, and the part between these upper and lower two parts still retains the original synchronous gear of synchronous pulley and engages with Timing Belt.
Embodiment 3
Referring to Figure 14~Figure 17, the difference of the present embodiment compared with embodiment 2 is, in the present embodiment, on the interior zone face of described Timing Belt belt body 1 and outer zone face, be equipped with synchronous gear 2, described mobile jib 5-4 is matched with on the teeth groove on the outer zone face of Timing Belt belt body 1, and described clamping element 5-2 is matched with on the teeth groove on the interior zone face of Timing Belt belt body 1.Because the both sides of Timing Belt belt body 1 are equipped with synchronous gear 2, therefore mobile jib 5-4 and clamping element 5-2 all can be matched with in teeth groove, not only be conducive to the fixing of mobile jib 5-4 and clamping element 5-2, and the area of thrust surface between moving tooth 5 and Timing Belt belt body 1 are improved, especially coordinating of the side of mobile jib 5-4 and clamping element 5-2 and teeth groove side, can make stressedly evenly increases rigidity, further guarantees that load-transfer device does not bend in the course of the work.
Above-mentioned is preferably embodiment of the utility model; but embodiment of the present utility model is not subject to the restriction of foregoing; other any do not deviate from change, the modification done under Spirit Essence of the present utility model and principle, substitutes, combination, simplify; all should be equivalent substitute mode, within being included in protection domain of the present utility model.
Claims (10)
1. a smart card load-transfer device, comprise Timing Belt belt body, it is characterized in that, described Timing Belt belt body is provided with the moving tooth of several rigidity, this moving tooth extends and stretches out the lower edge of Timing Belt belt body along the short transverse of Timing Belt belt body, this sponson forms the card division that pushes away of actuating card.
2. smart card load-transfer device according to claim 1, is characterized in that, described moving tooth is arranged on the outer zone face of Timing Belt belt body, this moving tooth and Timing Belt band body by integral forming.
3. smart card load-transfer device according to claim 1, it is characterized in that, described moving tooth is the individual member being connected on Timing Belt belt body, this moving tooth comprises mobile jib and is arranged on the clamping element of the dorsal part at these upper and lower two ends of mobile jib, between described clamping element and mobile jib, be provided with upper edge for being clamped in Timing Belt belt body and the grasping part of lower edge, described clamping element, Timing Belt belt body and mobile jib are fixed together, wherein, mobile jib is positioned on the outer zone face of Timing Belt belt body, clamping element is positioned on the zone face of Timing Belt belt body, and the face of joint engaging with Timing Belt belt body in described mobile jib and clamping element is the surface consistent with this junction surface configuration of Timing Belt belt body.
4. smart card load-transfer device according to claim 3, is characterized in that, between described clamping element, Timing Belt belt body and mobile jib, is connected by screw, and this screw passes through clamping element, Timing Belt belt body and mobile jib three is linked into an integrated entity.
5. smart card load-transfer device according to claim 3, it is characterized in that, on the interior zone face of described Timing Belt belt body and outer zone face, be equipped with synchronous gear, described mobile jib is matched with on the teeth groove on the outer zone face of Timing Belt belt body, and described clamping element is matched with on the teeth groove on the interior zone face of Timing Belt belt body.
6. smart card load-transfer device according to claim 3, it is characterized in that, the interior zone face of described Timing Belt belt body is provided with synchronous gear, outer zone face is light face, the outer zone face of the inside face of described mobile jib and Timing Belt belt body is fully fitted, and described clamping element is matched with on the teeth groove on the interior zone face of Timing Belt belt body.
7. one kind comprises the smart card conveying mechanism of the smart card load-transfer device described in any one in claim 1~6, it is characterized in that, also comprise actuating unit, this actuating unit comprises motor and at least two synchronous pulleys, the synchronous gear of described load-transfer device is meshed with the teeth groove on synchronous pulley, and described motor drives one of them synchronous pulley.
8. smart card conveying mechanism according to claim 7, is characterized in that, described load-transfer device is the load-transfer device described in claim 3~6 any one, and described each synchronous pulley is provided with at least one for holding the breach of described moving tooth; In the time that described breach is one, the distance in this load-transfer device between moving tooth equals the integral multiple of the girth of synchronous pulley, and in the time that described breach is more than or equal to two, the circumferential lengths between adjacent two breach equals the distance between moving tooth in load-transfer device.
9. smart card conveying mechanism according to claim 7, it is characterized in that, described synchronous pulley is three, one of them is directly connected with electric machine main shaft, these three synchronous pulleys are by described conveying belt tension triangularity, this leg-of-mutton one of them limit is corresponding with stamp equipment, the work moving tooth of actuating card when being positioned at moving tooth on this limit and being work.
10. smart card conveying mechanism according to claim 7, it is characterized in that, also comprise the card track that card sense of motion arranges that pushes away that is parallel to load-transfer device, this card track comprises left guide groove and right guide groove, wherein, in one of them guide groove of described left guide groove and right guide groove, be provided with elastic damping mechanism, this elastic damping mechanism comprises press strip and the spring with press strip link, in the time that card is positioned at card track, described press strip is pressed on card on the guide groove relative with the guide groove that is provided with elastic damping mechanism under the effect of spring.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420227085.2U CN203845502U (en) | 2014-05-05 | 2014-05-05 | Smart card conveying belt and smart card conveying mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420227085.2U CN203845502U (en) | 2014-05-05 | 2014-05-05 | Smart card conveying belt and smart card conveying mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203845502U true CN203845502U (en) | 2014-09-24 |
Family
ID=51558545
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420227085.2U Expired - Fee Related CN203845502U (en) | 2014-05-05 | 2014-05-05 | Smart card conveying belt and smart card conveying mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203845502U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104003220A (en) * | 2014-05-05 | 2014-08-27 | 广州市明森机电设备有限公司 | Smart card conveyer belt and smart card conveying mechanism |
-
2014
- 2014-05-05 CN CN201420227085.2U patent/CN203845502U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104003220A (en) * | 2014-05-05 | 2014-08-27 | 广州市明森机电设备有限公司 | Smart card conveyer belt and smart card conveying mechanism |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN104003220A (en) | Smart card conveyer belt and smart card conveying mechanism | |
| CN202772763U (en) | End cover conveying mechanism of micro motor | |
| CN104028643B (en) | Diel | |
| IT8348310A0 (en) | IMPROVEMENT IN BENDING MACHINES WITH MULTIPLE BENDS, FOR EXAMPLE ON PIPE | |
| GB1365321A (en) | Conveyors | |
| TR201911243T4 (en) | Glass plate forming method. | |
| CN203845502U (en) | Smart card conveying belt and smart card conveying mechanism | |
| CN103183213A (en) | Automatic cycle conveyor | |
| CN103722101A (en) | Molding device for steel wire handle of bucket | |
| CN205098959U (en) | Automatic feed mechanism of circular battery | |
| CN205096431U (en) | Skylight trimmer | |
| CN203173377U (en) | Automatic cycle conveyor | |
| EP1077287A3 (en) | Elastic tie plate for railway track | |
| CN205312481U (en) | Defeated material return circuit of lid and because its automated production equipment behind motor | |
| CN208761055U (en) | The baling line of intelligence manufacture flexible production line | |
| CN103737293B (en) | A kind of bracing frame shapes assembling device and bracing frame forming device | |
| CN106829332A (en) | Plastic material shaping output detent mechanism | |
| CN103736851B (en) | A kind of mould for side integer | |
| CN215591944U (en) | Horizontal synchronous pushing mechanism of gluing machine | |
| CN201012460Y (en) | Metallic chip removal machine creel chain driving structure | |
| CN203804060U (en) | Reverse tapered wedge mechanism for cold stamping flanging die | |
| CN203728065U (en) | Feeding mechanism for encoder terminal | |
| CN106271533A (en) | Oil sealing automatic press mounting mechanism | |
| IT7804842A0 (en) | PROFILE APPLICABLE BY PRESSURE, AS PROFILE FOR CORNERS EQUIPPED WITH ELASTIC REINFORCEMENT. | |
| CN213057899U (en) | Elastic piece transferring mechanism |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee | ||
| CP03 | Change of name, title or address |
Address after: 510520 Guangdong city of Guangzhou province Tianhe District Guangshan Road No. 500 building (Building 3) tissue culture Patentee after: GUANGZHOU MINGSEN MECH.&ELEC. EQUIPMENT CO., LTD. Address before: 510640 Guangdong Province, Guangzhou Tianhe District, No. 87 ban 1 floor, 2 floor Patentee before: Guangzhou Mingsen Mech. & Elec. Equipment Co.,Ltd. |
|
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140924 Termination date: 20200505 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |