CN109615796B - Turnover mechanism of certificate self-service handling device and operation method thereof - Google Patents

Abstract

The invention discloses a turnover mechanism of a self-service certificate handling device, which comprises a base, a turnover platform and a turnover box, wherein the turnover platform and the turnover box are connected to the base through rotating shafts, the rotating shafts are connected with the base through bearings, and the turnover box is arranged below one side of the turnover platform; the turnover box is provided with a through hole and a blind hole positioned at one side of the through hole, the through hole and the blind hole are arranged along the length direction of the turnover box, and one end of the through hole and the opening end of the blind hole face the end part of the turnover platform; the base is provided with a first driving component and a second driving component, the first driving component is connected with a rotating shaft on the overturning platform, and the second driving component is connected with the rotating shaft on the overturning box. The invention has the characteristics of high certificate making speed, high efficiency and the like.

Description

Turnover mechanism of certificate self-service handling device and operation method thereof

Technical Field

The invention relates to a turnover mechanism of a certificate self-service handling device and an operation method thereof

Background

In the prior art, when a user needs to go to a car management office to handle a driver license and a driving license during a working day, the user needs to manually put a blank license into a machine to print texts and pictures, and the driver license needs to be printed on two sides, so that a worker needs to operate in real time, other things cannot be considered, the work efficiency is low, the license making time is long, and the user needs to wait for a plurality of working days before taking the driver license and the driving license, so that the required time is longer.

Disclosure of Invention

The invention aims to provide a turnover mechanism of a self-help certificate handling device and an operation method thereof, which are used for automatically manufacturing certificates without human intervention, and have the advantages of high certificate manufacturing speed and high efficiency.

The technical scheme for realizing the aim of the invention is as follows:

the turnover mechanism of the self-service certificate handling device comprises a base, a turnover platform and a turnover box, wherein the turnover platform and the turnover box are connected to the base through rotating shafts, the rotating shafts are connected with the base through bearings, and the turnover box is arranged below one side of the turnover platform; the turnover box is provided with a through hole and a blind hole positioned at one side of the through hole, the through hole and the blind hole are arranged along the length direction of the turnover box, and one end of the through hole and the opening end of the blind hole face the end part of the turnover platform; the base is provided with a first driving component and a second driving component, the first driving component is connected with a rotating shaft on the overturning platform, and the second driving component is connected with the rotating shaft on the overturning box; the driving device further comprises an external controller, and the first driving assembly and the second driving assembly are electrically connected with the external controller.

Further, the structure of the first driving component is the same as that of the second driving component; the second driving assembly comprises a motor, a mounting seat, a driving wheel and a synchronous belt, wherein the mounting seat is arranged on the base, the motor is arranged on the mounting seat, the driving wheel is connected with the motor, and the synchronous belt is arranged on a rotating shaft on the driving wheel and the overturning box.

Further, a plurality of negative pressure holes are formed in the surface of the overturning platform, and a micro fan arranged in the areas of the negative pressure holes is arranged at the bottom of the overturning platform.

Further, a baffle plate arranged on the base is arranged on one side of the turnover box.

Further, both sides of the overturning platform are provided with 7-shaped guard plates, and the 7-shaped guard plates are arranged along the length direction of the overturning platform.

Further, the device also comprises a certificate detection sensor, a turnover platform position sensor and a turnover box position sensor which are electrically connected with an external controller; the turnover platform is provided with a detection hole, the certificate detection sensor is located below the detection hole and arranged at the bottom of the turnover platform, the turnover platform position sensor and the turnover box position sensor are both arranged on the base, the turnover platform position sensor is located on one side of the turnover platform, and the turnover box position sensor is located on one side of the turnover box.

The operation method of the turnover mechanism of the self-service certificate handling device comprises the following steps of,

s1: controlling the first driving assembly through an external controller to enable the overturning platform to be in a horizontal state;

s2: placing the empty certificate to be printed on a turnover platform;

s2: the certificate detection sensor detects that a blank certificate exists on the overturning platform, the information is fed back to the external controller, and the external controller controls the needle printer on one side of the overturning platform to work and sucks the blank certificate and prints the text;

s4: after the printing of the needle printer is finished, the semi-finished certificate is spitted out to the overturning platform, the certificate detection sensor detects the certificate again and feeds the information back to the external controller, the external controller controls the micro fan and the first driving component to work according to the information, the semi-finished certificate is firmly adsorbed on the overturning platform through the micro fan, then the overturning platform is enabled to rotate to an inclined state through the first driving component, at the moment, the position sensor of the overturning platform feeds the position information of the overturning platform back to the external controller, and when the rotating position of the overturning platform is consistent with a preset value, the external controller stops the first driving component to work;

s5: the external controller controls the second driving assembly to work so that the overturning box rotates to an inclined state, and at the moment, one end of a through hole or the opening end of a blind hole on the overturning box is aligned with the end part of the overturning platform;

s6: when the printed certificate is a driving certificate, the second driving assembly is controlled to work through the external controller, so that the opening end of the blind hole on the overturning box in the step S5 is aligned to the end part of the overturning platform, at the moment, the micro fan in the step S4 is turned off by the external controller, and the semi-finished certificate automatically falls into the blind hole of the overturning box under the action of gravity; then the second driving component is started again, after the turnover box rotates 180 degrees, the opening of the blind hole faces downwards, the semi-finished certificate turns over the whole surface and falls into a photo printer, photo information printing is carried out, and a driving license is manufactured after printing is finished;

s7: when the printed certificate is a driver license, the second driving assembly is controlled to work through the external controller, one end of the through hole on the overturning box in the S5 is aligned with the end part of the overturning platform, the micro fan in the step S4 is stopped by the external controller, the semi-finished certificate automatically falls into the through hole of the overturning box under the action of gravity and automatically falls into the photo printer from the through hole, photo information is printed on the same side of the semi-finished certificate, and the driver license is manufactured after printing is completed.

By adopting the technical scheme, the invention has the following beneficial effects: (1) According to the invention, the first driving component is used for controlling the turnover platform to rotate to be in an inclined state, the second driving component is used for controlling the turnover box to be in an inclined state, and at the moment, the empty certificate on the turnover platform can just fall into the through hole or the blind hole of the turnover box under the action of gravity, so that certificates such as driving certificates, driving certificates and the like can be printed, the starting and stopping of the first driving component and the second driving component can be effectively controlled through the external controller, and the turnover platform and the turnover box are conveniently driven to rotate through the rotating shaft.

(2) The invention adopts the synchronous belt to connect the driving wheel and the rotating shaft, and then the motor drives the driving wheel to rotate, so that the rotating shaft and the driving wheel can synchronously move, and then the functions of rotating the overturning platform and the overturning box are achieved.

(3) According to the invention, the hollow certificate can be firmly adsorbed on the turnover platform through the micro fan, the turnover platform is prevented from falling down in the rotating process, when the turnover platform is aligned to the through hole or the blind hole on the turnover box, the micro fan stops working, and at the moment, the hollow certificate can fall into the through hole or the blind hole on the turnover box under the action of gravity; if the empty card fails to slide down due to friction or static electricity, the micro fan is started, and the empty card is pushed slightly, so that the empty card smoothly slides into the through hole or the blind hole on the turnover box.

(4) The invention can ensure that the empty certificate can fall into a preset position through the baffle plate so as to smoothly enter the photo printer.

(5) According to the invention, the 7-shaped guard plates are arranged on both sides of the overturning platform, so that the upper, lower, left and right directions of the certificate can be limited, and the certificate is prevented from sliding off.

(6) The certificate detection sensor can detect whether the turnover platform has an empty certificate through the detection hole, the turnover platform position sensor is used for detecting whether the position of the turnover platform is in place, and the turnover box position sensor is used for detecting whether the position of the turnover box is in place.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings, in which

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a right side view of fig. 1.

In the drawing, 1 is a base, 2 is a turnover platform, 21I negative pressure hole, 22 is a micro fan, 23 is a 7-shaped guard plate, 24 is a detection hole, 3 is a turnover box, 31 is a through hole, 32 is a blind hole, 4 is a rotating shaft, 5 is a first driving component, 6 is a second driving component, 61 is a motor, 62 is a mounting seat, 63 is a driving wheel, 64 is a synchronous belt, 7 is a baffle, 8 is a certificate detection sensor, 9 is a turnover platform position sensor, and 10 is a turnover box position sensor.

Detailed Description

Example 1

Referring to fig. 1 and 2, the turnover mechanism of the self-service certificate handling device of the embodiment includes a base 1, a turnover platform 2 and a turnover box 3, in this embodiment, a needle printer is disposed on one side of the turnover platform 2, and a photo printer is disposed on one side of the turnover box 3, for example, the needle printer is disposed on the right side of fig. 2, and the photo printer is disposed on the left side of fig. 2.

The turnover platform 2 and the turnover box 3 are connected to the base through a rotating shaft 4, the rotating shaft 4 is connected with the base 1 through a bearing, and the turnover box 3 is arranged below one side of the turnover platform 2; the turnover box 3 is provided with a through hole 31 and a blind hole 32 positioned at one side of the through hole 31, the through hole 31 and the blind hole 32 are arranged along the length direction of the turnover box 3, and one end of the through hole 31 and the opening end of the blind hole 32 face the end part of the turnover platform 2; the base 1 is provided with a first driving component 5 and a second driving component 6, the first driving component 5 is connected with the rotating shaft 4 on the turnover platform 2, and the second driving component 6 is connected with the rotating shaft 4 on the turnover box 3; the device also comprises an external controller, and the first driving component 5 and the second driving component 6 are electrically connected with the external controller.

The structure of the first driving assembly 5 in this embodiment is the same as that of the second driving assembly 6; the second driving assembly 6 comprises a motor 61, a mounting seat 62, a driving wheel 63 and a synchronous belt 64, wherein the mounting seat 62 is arranged on the base 1, the motor 61 is arranged on the mounting seat 62, and the driving wheel 63 is connected with the motor 61. The timing belt 64 of the second driving unit 6 is mounted on the driving wheel 63 of the second driving unit 6 and the rotating shaft 4 of the turnover box 3, and the timing belt of the first driving unit 5 is mounted on the driving wheel of the first driving unit 5 and the rotating shaft 4 of the turnover platform 2.

A plurality of negative pressure holes 21 are formed in the surface of the turnover platform 2, a micro fan 22 installed in the area of the negative pressure holes 21 is arranged at the bottom of the turnover platform 2, 7-shaped guard plates 23 are arranged on two sides of the turnover platform 2, the 7-shaped guard plates 23 are arranged along the length direction of the turnover platform 2, and a baffle 7 installed on the base 1 is arranged on one side of the turnover box 3.

The device also comprises a certificate detection sensor 8, a turnover platform position sensor 9 and a turnover box position sensor 10 which are electrically connected with an external controller; the turnover platform 2 is provided with a detection hole 24, the certificate detection sensor 8 is positioned below the detection hole 24 and arranged at the bottom of the turnover platform 2, the turnover platform position sensor 9 and the turnover box position sensor 10 are both arranged on the base 1, the turnover platform position sensor 9 is positioned at one side of the turnover platform 2, and the turnover box position sensor 10 is positioned at one side of the turnover box 3.

The operation method of the turnover mechanism of the self-service certificate handling device comprises the following steps of,

s1: the first driving component 5 is controlled by an external controller to enable the turnover platform 2 to be in a horizontal state;

s2: placing the empty certificate to be printed on the overturning platform 2;

s2: the certificate detection sensor 8 detects that a blank certificate exists on the overturning platform 2 and feeds the information back to an external controller, and the controller controls a needle printer on one side of the overturning platform 2 to work and sucks the blank certificate and prints the text;

s4: after the printing of the needle printer is finished, the semi-finished certificate is spit out to the turnover platform 2, the certificate detection sensor 8 detects the certificate again and feeds the information back to the external controller, the external controller controls the micro fan 22 and the first driving component 5 to work according to the information, the semi-finished certificate is firmly adsorbed on the turnover platform 2 through the micro fan 22, then the turnover platform 2 is rotated to an inclined state through the first driving component 55, at the moment, the turnover platform position sensor 9 feeds back the position information of the turnover platform 2 to the external controller, and when the rotating position of the turnover platform 2 is consistent with a preset value, the external controller stops the first driving component 5 to work;

s5: the external controller controls the second driving assembly 6 to work so as to enable the turnover box 3 to rotate to an inclined state, and at the moment, one end of the through hole 31 or the opening end of the blind hole 32 on the turnover box 3 is aligned with the end part of the turnover platform 2;

s6: when the printed certificate is a driving certificate, the second driving component 6 is controlled to work through the external controller, so that the opening end of the blind hole 32 on the turnover box 3 in the step S5 is aligned to the end part of the turnover platform 2, the micro fan 22 in the step S4 is turned off by the external controller, and the semi-finished certificate automatically falls into the blind hole 32 of the turnover box 3 under the action of gravity; then the second driving component 6 is started again, after the turnover box 3 rotates 180 degrees, the opening of the blind hole 32 faces downwards, the semi-finished certificate turns over the surface and falls into a photo printer, photo information printing is carried out, and a driving license is manufactured after printing is finished;

s7: when the printed certificate is a driver license, the second driving component 6 is controlled to work through the external controller, one end of the through hole 31 on the overturning box 3 in the S5 is aligned with the end part of the overturning platform 2, the micro fan 22 in the step S4 is stopped by the external controller, the semi-finished certificate automatically falls into the through hole 31 of the overturning box 3 under the action of gravity and automatically falls into the photo printer from the through hole 31, the photo information is printed on the same side of the semi-finished certificate, and the driver license is manufactured after the printing is finished.

While the foregoing is directed to embodiments of the present invention, other and further details of the invention may be had by the present invention, it should be understood that the foregoing description is merely illustrative of the present invention and that no limitations are intended to the scope of the invention, except insofar as modifications, equivalents, improvements or modifications are within the spirit and principles of the invention.

Claims (8)

1. The utility model provides a tilting mechanism of device is handled by oneself to certificate which characterized in that: the turnover device comprises a base (1), a turnover platform (2) and a turnover box (3), wherein the turnover platform (2) and the turnover box (3) are connected to the base (1) through a rotating shaft (4), the rotating shaft (4) is connected with the base (1) through a bearing, and the turnover box (3) is arranged below one side of the turnover platform (2); the turnover box (3) is provided with a through hole (31) and a blind hole (32) positioned at one side of the through hole (31), the through hole (31) and the blind hole (32) are arranged along the length direction of the turnover box (3), and one end of the through hole (31) and the open end of the blind hole (32) face the end part of the turnover platform (2); the rotating shaft (4) on the turnover box (3) is perpendicular to one end of the through hole (31) and the opening direction of the blind hole (32); a first driving component (5) and a second driving component (6) are arranged on the base (1), the first driving component (5) is connected with a rotating shaft (4) on the overturning platform (2), and the second driving component (6) is connected with the rotating shaft (4) on the overturning box (3);

when the printed certificate is a driving certificate, the second driving component (6) is controlled to work through the external controller, so that the opening end of the blind hole (32) on the turnover box (3) is aligned to the end part of the turnover platform (2), and the semi-finished certificate automatically falls into the blind hole (32) of the turnover box (3) under the action of gravity; then, the second driving assembly (6) is started again, after the overturning box (3) rotates 180 degrees, the opening of the blind hole (32) faces downwards, the semi-finished certificate turns over the surface and falls into the photo printer, photo information printing is carried out, and a driving license is manufactured after printing is finished;

when the printed certificate is a driver license, the second driving component (6) is controlled to work through the external controller, one end of the through hole (31) on the overturning box (3) is aligned with the end part of the overturning platform (2), the semi-finished product certificate automatically falls into the through hole (31) of the overturning box (3) under the action of gravity, and automatically falls into the photo printer from the through hole (31), photo information is printed on the same side of the semi-finished product certificate, and the driver license is manufactured after printing is completed.

2. The turnover mechanism of self-service document handling device of claim 1, wherein: the structure of the first driving component (5) is the same as that of the second driving component (6); the second driving assembly (6) comprises a motor (61), a mounting seat (62), a driving wheel (63) and a synchronous belt (64), wherein the mounting seat (62) is arranged on the base (1), the motor (61) is arranged on the mounting seat (62), the driving wheel (63) is connected with the motor (61), and the synchronous belt (64) is arranged on the driving wheel (63) and a rotating shaft (4) on the overturning box (3).

3. The turnover mechanism of self-service document handling device of claim 1, wherein: the surface of the turnover platform (2) is provided with a plurality of negative pressure holes (21), and the bottom of the turnover platform (2) is provided with a micro fan (22) arranged in the area of the negative pressure holes (21).

4. The turnover mechanism of self-service document handling device of claim 1, wherein: one side of the turnover box (3) is provided with a baffle plate (7) arranged on the base (1).

5. The turnover mechanism of self-service document handling device of claim 1, wherein: both sides of the overturning platform (2) are provided with 7-shaped guard plates (23), and the 7-shaped guard plates (23) are arranged along the length direction of the overturning platform (2).

6. The turnover mechanism of self-service document handling device of claim 1, wherein: the device further comprises an external controller, and the first driving assembly (5) and the second driving assembly (6) are electrically connected with the external controller.

7. The turnover mechanism of self-service document handling apparatus of claim 6, wherein: the device also comprises a certificate detection sensor (8), a turnover platform position sensor (9) and a turnover box position sensor (10) which are electrically connected with an external controller; the turnover platform (2) is provided with a detection hole (24), the certificate detection sensor (8) is located below the detection hole (24) and arranged at the bottom of the turnover platform (2), the turnover platform position sensor (9) and the turnover box position sensor (10) are both arranged on the base (1), the turnover platform position sensor (9) is located on one side of the turnover platform (2), and the turnover box position sensor (10) is located on one side of the turnover box (3).

8. A method of operating a turnover mechanism for a self-service document handling device employing a turnover mechanism for a self-service document handling device as defined in any one of claims 1 to 7, characterized in that: comprises the steps of,

s1: the first driving component (5) is controlled by an external controller to enable the overturning platform (2) to be in a horizontal state;

s2: placing the empty certificate to be printed on a turnover platform (2);

s2: the certificate detection sensor (8) detects that a blank certificate exists on the overturning platform (2) and feeds the information back to the external controller, and the external controller controls the needle printer on one side of the overturning platform (2) to work and sucks the blank certificate for text printing;

s4: after printing, the needle printer spits the semi-finished certificate to the overturning platform (2), the certificate detection sensor (8) detects the certificate again and feeds the information back to the external controller, the external controller controls the micro fan (22) and the first driving component (5) to work according to the information, the semi-finished certificate is firmly adsorbed on the overturning platform (2) through the micro fan (22), then the overturning platform (2) is enabled to rotate to an inclined state through the first driving component (5), at the moment, the overturning platform position sensor (9) feeds back the position information of the overturning platform (2) to the external controller, and when the rotating position of the overturning platform (2) is consistent with a preset value, the external controller stops the first driving component (5) to work;

s5: the external controller controls the second driving assembly (6) to work so that the overturning box (3) rotates to an inclined state, and at the moment, one end of the through hole (31) or the opening end of the blind hole (32) on the overturning box (3) is aligned with the end part of the overturning platform (2);

s6: when the printed certificate is a driving certificate, the second driving assembly (6) is controlled to work through the external controller, so that the opening end of the blind hole (32) on the turnover box (3) in the step S5 is aligned to the end part of the turnover platform (2), at the moment, the micro fan (22) in the step S4 is turned off by the external controller, and the semi-finished certificate automatically falls into the blind hole (32) of the turnover box (3) under the action of gravity; then, the second driving assembly (6) is started again, after the overturning box (3) rotates 180 degrees, the opening of the blind hole (32) faces downwards, the semi-finished certificate turns over the surface and falls into the photo printer, photo information printing is carried out, and a driving license is manufactured after printing is finished;

s7: when the printed certificate is a driver license, the second driving component (6) is controlled to work through the external controller, one end of the through hole (31) on the overturning box (3) in the S5 is aligned with the end part of the overturning platform (2), the micro fan (22) in the step S4 is stopped by the external controller, the semi-finished certificate automatically falls into the through hole (31) of the overturning box (3) under the action of gravity, automatically falls into the photo printer from the through hole (31), the photo information is printed on the same side of the semi-finished certificate, and the driver license is manufactured after printing is finished.