CN111898711A

CN111898711A - Card intermittent feeding mechanism, card issuing equipment and card issuing method

Info

Publication number: CN111898711A
Application number: CN202010664103.3A
Authority: CN
Inventors: 罗北; 朱剑文; 黄健
Original assignee: Shenzhen Zhongchaokexin Co ltd
Current assignee: Shenzhen Zhongchaokexin Co ltd
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2020-11-06
Anticipated expiration: 2040-07-10
Also published as: CN111898711B; WO2022007412A1

Abstract

The invention relates to a card intermittent feeding mechanism, card issuing equipment and a method thereof, wherein the card intermittent feeding mechanism comprises: the device comprises a base, a guide clamp assembly, a rubbing wheel assembly, a jacking assembly, a suction clamp conveying assembly and a limiting assembly. Place the card through the card guide component, the rubbing wheel subassembly rubs out the card from the play card mouth of card guide component, then the card that is rubbed out from the rubbing wheel subassembly is jacking earlier by jacking subassembly, inhale card transport assembly and can transport away preceding card and pull open the distance, then jacking subassembly descends, shift the card to inhaling card transport assembly, inhale card transport assembly and send out the card through a card outlet channel, card outlet channel can only go out a card at every turn, therefore, inhale card transport assembly and can be with the card one by one send out, and can also keep the determining deviation between the card, and the card does not have the looks mutual friction at whole in-process, consequently, the impaired condition of card friction can not exist, the qualification rate of card has been improved.

Description

Card intermittent feeding mechanism, card issuing equipment and card issuing method

Technical Field

The invention relates to the field of feeding, in particular to a card intermittent feeding mechanism, card issuing equipment and a card issuing method.

Background

At present, the card issuing of bank cards and identity cards is developing towards intellectualization, automatic card issuing equipment is also appeared in the market, wherein, the card feeding mechanism is used as an indispensable ring in the card feeding link and mainly used for separating the cards and then pulling the distance between the cards, the card feeding mechanism on the market generally adopts a mode that a group of rubbing wheels are used for placing the cards into a transfer bin and then the cards are separated by friction through a conveying belt, the cards enter the conveying belt and are shaped by a group of bearings and then enter a belt with a second line speed which is higher, the distance between the cards is pulled, the cards are always rubbed relative to a protective edge of the belt in the whole card feeding process, because the card often once only sends several cards that fold together after the card is gone out from the transfer bin, two different linear velocity's conveyer belt also can lead to rubbing each other between the card to lead to the card to rub impaired, reduced the qualification rate of card.

Disclosure of Invention

The technical problem to be solved by the embodiment of the invention is to provide a card intermittent feeding mechanism, a card issuing device and a method thereof, so as to solve the technical problem that the surface of a card is damaged due to friction in the card feeding process when the card is fed.

In order to solve the above technical problem, an embodiment of the present invention provides an intermittent card feeding mechanism, including: a base; the card guide assembly is arranged on the base and provided with a card slot and a card outlet positioned at the tail end of the card slot; the rubbing wheel assembly is arranged on the base and comprises a left rubbing wheel and a right rubbing wheel which are positioned on two sides of the card outlet; the jacking assembly is positioned below the rubbing wheel assembly; the suction card conveying assembly penetrates through the base and is positioned below the rubbing wheel assembly; the limiting assembly is arranged above the card sucking and conveying assembly, and a card outlet channel is arranged between the limiting assembly and the card sucking and conveying assembly.

Furthermore, the jacking assembly comprises a jacking driving unit and a jacking end; the jacking end is fixed at the driving end of the jacking driving unit; the driving unit drives the jacking end to be close to or far away from the rubbing wheel assembly.

Furthermore, the jacking end comprises a first jacking wheel set and a second jacking wheel set; the first jacking wheel group comprises a left jacking wheel and a right jacking wheel; the second jacking wheel set comprises a left second jacking wheel and a right second jacking wheel.

Furthermore, the jacking driving unit comprises a motor, a cam arranged at the driving end of the motor, a first rocker arm and a second rocker arm which are rotatably connected to the base; one end of the first rocker arm is provided with a first rolling wheel which is in rolling contact with the cam; one end of the second rocker arm is provided with a second rolling wheel which is in rolling contact with the cam; the first jacking wheel set is fixed at one end of the first rocker arm, which is far away from the first rolling wheel; the second jacking wheel set is fixed on the second rocker arm and is far away from one end of the second rolling wheel.

Furthermore, the jacking driving unit comprises a first linear driving unit and a second linear driving unit; the first jacking wheel set is fixed at the driving end of the first linear driving unit; the second jacking wheel set is fixed at the driving end of the second linear driving unit.

Further, the jacking assembly is arranged on two sides of the suction card conveying assembly, and the jacking end is located in the clamping groove extending area of the guide card assembly.

Further, the suction card conveying assembly is provided with an opening part for penetrating through the jacking end.

Furthermore, the rubbing wheel assembly also comprises a left driving unit for driving the left rubbing wheel and a right driving unit for driving the right rubbing wheel; the left rubbing wheel and the right rubbing wheel are elastic wheels.

Furthermore, the limiting assembly comprises a limiting block and a height adjusting assembly for adjusting the height of the limiting block.

Further, the suction card conveying assembly is a negative pressure conveying belt.

Furthermore, the card intermittent feeding mechanism also comprises a blowing assembly arranged on the outer side of the rubbing wheel assembly.

Correspondingly, the embodiment of the invention also provides card issuing equipment, which comprises the card intermittent feeding mechanism; the card sending equipment further comprises a card feeding mechanism arranged at the front end of the card intermittent feeding mechanism and a card sending mechanism arranged at the rear end of the card intermittent feeding mechanism.

Correspondingly, the embodiment of the invention also provides a card intermittent feeding method, which adopts the card intermittent feeding mechanism and comprises the following steps: feeding the card to the card guide assembly; the card sucking and conveying assembly is used for rubbing the card out of the card guide assembly to the card in the buffer area through the rubbing wheel assembly and then to the jacking assembly; the jacking assembly transfers the card to the card sucking and conveying assembly; the card sucking and conveying assembly sends the card out of the card outlet channel.

Further, the card sucking and conveying assembly sucks the card out of the buffer area from the card guide assembly through the rubbing wheel assembly to the jacking assembly, and the step comprises the following steps: the rubbing wheel component is used for independently separating the cards between the left rubbing wheel and the right rubbing wheel into the buffer area; the jacking component is close to the rubbing wheel component; the card sucking and conveying assembly sucks the cards in the buffer area to the jacking assembly; the jacking assembly bears the cards and conveys the cards to a set distance from the front card conveyed by the suction card conveying assembly; the jacking assembly is far away from the rubbing wheel assembly and close to the suction card conveying assembly.

The embodiment of the invention provides a card intermittent feeding mechanism, a card is placed through a card guide assembly, a rubbing wheel assembly rubs out the card from a card outlet of the card guide assembly, then a jacking assembly jacks up the card rubbed out of the rubbing wheel assembly, a card sucking and conveying assembly can convey the previous card out and pull the previous card for a distance, then the jacking assembly descends, the card is transferred to a card sucking and conveying assembly, the card sucking and conveying assembly conveys the card out through a card outlet channel, and the card outlet channel can only discharge one card at a time. By adopting the technical means that the rubbing wheel assembly is matched with the suction card conveying assembly, the jacking assembly and the limiting assembly, the technical problem that the surface friction is damaged due to the overlapping of the cards during card feeding is solved, and the technical effect of improving the qualified rate of the cards is achieved.

Furthermore, the jacking driving unit drives the jacking end to be close to the rubbing wheel assembly, so that the card sucked out by the card sucking assembly is transited in the process of transferring to the card sucking and conveying assembly, and the card sucking and conveying assembly can convey the previous card away and pull the previous card for a distance.

Further, the left rubbing wheel and the right rubbing wheel are elastic wheels and are driven by the motor, and the auxiliary card is sucked out of the card guide assembly.

Furthermore, the blowing assembly is arranged on the outer side of the rubbing wheel assembly, the cards are separated into one card by the aid of the blowing assembly, and the mutual adhesion among the cards is reduced.

The embodiment of the invention also provides card issuing equipment, wherein the card intermittent feeding mechanism is adopted for feeding the cards so as to reduce friction damage of the cards in the feeding process and ensure that the issued cards meet the requirements.

The embodiment of the invention also provides a card intermittent feeding method, which adopts the technical means of the card intermittent feeding mechanism, overcomes the technical problem of surface damage caused in the card feeding process, and achieves the technical effect of improving the card qualification rate.

The invention is further described below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of the card intermittent feed mechanism of the present invention;

FIG. 2 is a side view of the card intermittent feed mechanism of the present invention;

FIG. 3 is a side view of the card intermittent feed mechanism of the present invention in a raised position during initial card feed;

FIG. 4 is a side view of the card intermittent feed mechanism of the present invention in the initial card feed position;

FIG. 5 is a side view of the card intermittent feed mechanism of the present invention in a raised position during card feed operation;

FIG. 6 is a side view of the card feeding position of the intermittent card feed mechanism of the present invention;

FIG. 7 is a flow chart of a card intermittent feeding method of the present invention.

Description of the reference numerals

10 intermittent card feeding mechanism 1 base

11 air hole 2 guide card assembly

21 card slot and 22 card outlet

3 left rubbing wheel of rubbing wheel component 31

32 right rubbing wheel 4 jacking assembly

41 jacking driving unit 411 cam

412 first rocker arm 413 second rocker arm

42 first jacking wheel set of jacking end 421

422 second jacking wheel set 5 suction card conveying assembly

6 spacing subassembly 61 goes out card passageway

62 stop block 63 height-adjusting component.

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention is further described and illustrated below with reference to the schematic drawings, but not limited thereto.

If directional indications (such as up, down, left, right, front, and rear … …) are provided in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the movement, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only used for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

As shown in fig. 1, an intermittent card feed mechanism 10 includes: the device comprises a base 1, a card guide component 2, a rubbing wheel component 3, a jacking component 4 and a card suction conveying component 5.

Preferably, the card guiding component 2 is disposed on the base 1, and the card guiding component 2 is provided with a card slot 21 and a card outlet 22 located at the end of the card slot 21. The card guide component 2 is obliquely arranged on the base 1, the inclination angle between the card guide component 2 and the base 1 ranges from 75 degrees to 85 degrees, cards in the card guide component 2 can slide down under the condition of self weight, and the inclination angle of the card guide component 2 is 80 degrees in the application.

Preferably, the rubbing wheel assembly 3 is disposed on the base 1, and the rubbing wheel assembly 3 includes a left rubbing wheel 31 and a right rubbing wheel 32 which are disposed at two sides of the outlet 22, a left driving unit for driving the left rubbing wheel 31, and a right driving unit for driving the right rubbing wheel 32. The edges of the left rubbing wheel 31 and the right rubbing wheel 32 are located in the extended area of the slot 21 of the card guide assembly 2, which has a current limiting function on the card, the left rubbing wheel 31 and the right rubbing wheel 32 are elastic wheels, the card can pass through the rubbing wheel assembly 3 under the action of external force and enter a buffer area (not marked in the figure), and the buffer area is a space between the rubbing wheel assembly 3 and the card suction conveying assembly 5. One side of the buffer area is provided with a photoelectric sensor (not shown in the figure), the number of the buffer area cards is detected through the photoelectric sensor, and the photoelectric sensor is electrically connected with the left driving unit and the right driving unit, so that the number of the buffer area cards is controlled to be 5-8.

Preferably, the suction card conveying assembly 5 penetrates through the base 1 and is located below the rubbing wheel assembly 3, and the suction card conveying assembly 5 is a negative pressure conveying belt and has both a negative pressure adsorption function and a card conveying function.

Preferably, the card intermittent feeding mechanism 10 further comprises a blowing assembly (not shown in the figure) arranged outside the rubbing wheel assembly 3, and the air blown by the blowing assembly is plasma air, so that an electric field exists between the cards, the cards are favorably separated, and the cards are prevented from overlapping.

As shown in fig. 2, the jacking assembly 4 is located below the roller assembly 3, and the jacking assembly 4 includes a jacking driving unit 41 and a jacking end 42. The jacking end 42 is fixed at the driving end of the jacking driving unit 41, and the driving unit drives the jacking end 42 to be close to or far away from the rubbing wheel assembly 3.

Preferably, the jacking end 42 includes a first jacking wheel set 421 and a second jacking wheel set 422, the first jacking wheel set 421 includes a left jacking wheel and a right jacking wheel (see fig. 1), and the second jacking wheel set 422 includes a left jacking wheel and a right jacking wheel (see fig. 1).

Preferably, the card suction conveying assembly 5 is provided with an opening portion (see fig. 1) for passing through the jacking end 42, so as to ensure that the jacking assembly 4 can jack the card above the card suction conveying assembly 5, and the card can be stably placed on the card suction conveying assembly 5 after the jacking assembly 4 descends.

Preferably, the jacking driving unit 41 includes a motor, a cam 411 provided at a driving end of the motor, and a first swing arm 412 and a second swing arm 413 rotatably connected to the base 1. One end of the first rocker arm 412 is provided with a first rolling wheel in rolling contact with the cam 411, and one end of the second rocker arm 413 is provided with a second rolling wheel in rolling contact with the cam 411. The first lifting wheel set 421 is fixed to the first swing arm 412 and is far away from one end of the first rolling wheel, and the second lifting wheel set 422 is fixed to the second swing arm 413 and is far away from one end of the second rolling wheel.

Preferably, jacking subassembly 4 sets up in inhaling the both sides of card conveying subassembly 5, and jacking end 42 is located card slot 21 extension region of leading card subassembly 2 to ensure that jacking subassembly 4 can the jacking card.

Preferably, the card intermittent feeding mechanism 10 further comprises a limiting component 6, the limiting component 6 is arranged above the card sucking and conveying component 5, and a card outlet channel 61 is arranged between the limiting component 6 and the card sucking and conveying component 5. The limiting component 6 comprises a limiting block 62 and a height adjusting component 63 for adjusting the height of the limiting block 62. The size of the card outlet channel 61 is adjusted by the heightening component 63, so that only one card can be discharged from the card outlet channel at a time, and the situation of card superposition is avoided.

As shown in fig. 3, when the card is initially fed, the motor drives the cam 411 to rotate, so that the swing arm rotates to drive the first lifting wheel set 421 and the second lifting wheel set 422 to ascend, and the card sucked by the card sucking and conveying assembly 5 falls onto the first lifting wheel set 421 and the second lifting wheel set 422 from the rubbing wheel assembly 3.

As shown in fig. 4, when the card is initially placed, the motor drives the cam 411 to rotate, so that the swing arm rotates, the first lifting wheel set 421 and the second lifting wheel set 422 are driven to descend, and the first lifting wheel set 421 and the second lifting wheel set 422 enter the lower part of the card suction conveying assembly 5, so that the card is stably placed on the card suction conveying assembly 5.

As shown in fig. 5, when the card intermittent feeding mechanism 10 operates normally, the motor drives the cam 411 to rotate, so that the swing arm rotates to drive the first lifting wheel set 421 and the second lifting wheel set 422 to ascend, and a card sucked by the suction card conveying assembly 5 falls onto the first lifting wheel set 421 and the second lifting wheel set 422 from the rubbing wheel assembly 3. Because the height of jacking subassembly 4 this moment is higher than the terminal surface of inhaling card transfer unit 5, has the transition between preceding, the back card, consequently, inhales card transfer unit 5 and can transport away preceding card earlier, and can not produce the contact between two cards.

As shown in fig. 6, a current card is transported away earlier, and after the two pulls open a certain distance, motor drive cam 411 rotates, so that the swing arm rotates, thereby drive first jacking wheelset 421, the decline of second jacking wheelset 422, first jacking wheelset 421, second jacking wheelset 422 get into the below of inhaling card transport assembly 5, so that the card is steady to be placed on inhaling card transport assembly 5, two cards in front and back are transported at the spaced mode under the condition of keeping the set distance, and only need a negative pressure belt on the way of transporting.

The embodiment of the application provides a card intermittent feeding mechanism, place the card through leading the card subassembly, the rubbing wheel subassembly is rubbed out the card from the play card mouth of leading the card subassembly, then the card that is rubbed out from the rubbing wheel subassembly is jacking earlier by jacking subassembly, inhale card conveying assembly and can transport away and pull open the distance with preceding card, then jacking subassembly descends, shift the card to inhaling card conveying assembly, inhale card conveying assembly and send out the card through going out the card passageway, it can only go out a card at every turn to go out the card passageway, therefore, inhale the card conveying assembly and can send out one card, and can also keep the determining deviation between the card, and the card does not have the looks mutual friction at whole in-process, consequently, the impaired condition of card friction can not exist. By adopting the technical means that the rubbing wheel assembly is matched with the suction card conveying assembly, the jacking assembly and the limiting assembly, the technical problem that the surface friction is damaged due to the overlapping of the cards during card feeding is solved, and the technical effect of improving the qualified rate of the cards is achieved.

The application also discloses card issuing equipment which comprises the card intermittent feeding mechanism; the card sending equipment further comprises a card feeding mechanism arranged at the front end of the card intermittent feeding mechanism and a card sending mechanism arranged at the rear end of the card intermittent feeding mechanism.

The application also discloses a card intermittent feeding method, and the card intermittent feeding method adopts the card intermittent feeding mechanism, which comprises:

s1, feeding the cards to the card guide assembly;

s2, sucking the card from the card guide assembly to the buffer area through the rubbing wheel assembly by the card sucking and conveying assembly; wherein, step S2 specifically includes:

s21, the card between the left rubbing wheel and the right rubbing wheel is separately separated to a buffer area by the rubbing wheel component;

s22, enabling the jacking assembly to be close to the roller assembly;

s23, the card sucking and conveying assembly sucks the cards in the buffer area to the jacking assembly;

s24, the jacking assembly carries the card to the front card which is transmitted by the suction card transmission assembly and is transmitted to a set distance;

s25, the jacking assembly is far away from the rubbing wheel assembly and is close to the suction card conveying assembly;

s3, transferring the card to a card sucking and conveying assembly by the jacking assembly;

and S4, the card sucking and conveying assembly sends the card out of the card outlet channel.

As an embodiment, the jacking driving unit includes a first linear driving unit and a second linear driving unit, the first jacking wheel set is fixed at the driving end of the first linear driving unit, and the second jacking wheel set is fixed at the driving end of the second linear driving unit.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a card intermittent type feeding mechanism which characterized in that includes:

a base;

the card guide assembly is arranged on the base and provided with a card slot and a card outlet positioned at the tail end of the card slot;

the rubbing wheel assembly is arranged on the base and comprises a left rubbing wheel and a right rubbing wheel which are positioned on two sides of the card outlet;

the jacking assembly is positioned below the rubbing wheel assembly;

the suction card conveying assembly penetrates through the base and is positioned below the rubbing wheel assembly;

the limiting assembly is arranged above the card sucking and conveying assembly, and a card outlet channel is arranged between the limiting assembly and the card sucking and conveying assembly.

2. The card intermittent feed mechanism of claim 1 wherein the lift assembly includes a lift drive unit, and a lift end; the jacking end is fixed at the driving end of the jacking driving unit; the driving unit drives the jacking end to be close to or far away from the rubbing wheel assembly.

3. The card intermittent feed mechanism of claim 2 wherein the lift end includes a first lift roller set, a second lift roller set; the first jacking wheel group comprises a left jacking wheel and a right jacking wheel; the second jacking wheel set comprises a left second jacking wheel and a right second jacking wheel.

4. The card intermittent feed mechanism of claim 3 wherein the lift drive unit includes a motor, a cam at the drive end of the motor, a first rocker arm and a second rocker arm pivotally connected to the base; one end of the first rocker arm is provided with a first rolling wheel which is in rolling contact with the cam; one end of the second rocker arm is provided with a second rolling wheel which is in rolling contact with the cam; the first jacking wheel set is fixed at one end of the first rocker arm, which is far away from the first rolling wheel; the second jacking wheel set is fixed on the second rocker arm and is far away from one end of the second rolling wheel.

5. A card intermittent feed mechanism as in claim 3 wherein said lift drive unit comprises a first linear drive unit, a second linear drive unit; the first jacking wheel set is fixed at the driving end of the first linear driving unit; the second jacking wheel set is fixed at the driving end of the second linear driving unit.

6. An intermittent card feeding mechanism as claimed in claim 2 wherein the jacking members are disposed on opposite sides of the card suction transport member and the jacking ends are located in the extended pocket area of the card guide member.

7. An intermittent card feed mechanism as in claim 2 wherein the suction card transport assembly is provided with an opening for passing through the lift end.

8. An intermittent card feed mechanism as in claim 1 wherein the wheel assembly further comprises a left drive unit for driving the left wheel, a right drive unit for driving the right wheel; the left rubbing wheel and the right rubbing wheel are elastic wheels.

9. The card intermittent feed mechanism of claim 1 wherein the stop assembly includes a stop and an elevation assembly for adjusting the height of the stop.

10. An intermittent card feed mechanism as in claim 1 wherein said suction card transport assembly is a negative pressure conveyor.

11. The card intermittent feed mechanism of claim 1 further comprising a blower assembly located outside the wheel assembly.

12. A card dispensing apparatus, characterized in that the apparatus comprises an intermittent card feed mechanism as claimed in any one of claims 1 to 11; the card sending equipment further comprises a card feeding mechanism arranged at the front end of the card intermittent feeding mechanism and a card sending mechanism arranged at the rear end of the card intermittent feeding mechanism.

13. An intermittent card feeding method using the card intermittent feeding mechanism according to any one of claims 1 to 11, comprising:

feeding the card to the card guide assembly;

the card sucking and conveying assembly sucks the card out of the buffer area from the card guide assembly through the rubbing wheel assembly to the jacking assembly;

the jacking assembly transfers the card to the card sucking and conveying assembly;

the card sucking and conveying assembly sends the card out of the card outlet channel.

14. A method for intermittently feeding cards as claimed in claim 13, wherein the step of sucking the cards from the card guide assembly, which are twisted out to the buffer area by the rubbing wheel assembly, to the card lift assembly by the card suction and transport assembly comprises:

the rubbing wheel component is used for independently separating the cards between the left rubbing wheel and the right rubbing wheel into the buffer area;

the jacking component is close to the rubbing wheel component;

the card sucking and conveying assembly sucks the cards in the buffer area to the jacking assembly;

the jacking assembly bears the cards and conveys the cards to a set distance from the front card conveyed by the suction card conveying assembly;

the jacking assembly is far away from the rubbing wheel assembly and close to the suction card conveying assembly.