CN110001223B

CN110001223B - Authentication method and equipment

Info

Publication number: CN110001223B
Application number: CN201910277601.XA
Authority: CN
Inventors: 罗志杰
Original assignee: Nanjing Lishui Hi Tech Industry Equity Investment Co Ltd
Current assignee: Nanjing Lishui Hi Tech Industry Equity Investment Co Ltd
Priority date: 2019-04-08
Filing date: 2019-04-08
Publication date: 2021-08-03
Anticipated expiration: 2039-04-08
Also published as: CN110001223A

Abstract

The invention discloses an authentication method and equipment, wherein a device used in the method comprises a machine body, a through cavity is arranged in the machine body, a rotating cavity is arranged in the lower end wall of the through cavity in a communicating manner, connecting shafts are symmetrically arranged in the rotating cavity in a left-right and rotatable manner, rotating wheels are fixedly arranged on the connecting shafts, the rotating wheels are in power connection through a conveying belt, a driving device is arranged on the rear side of the through cavity, and the driving device is in power connection with the connecting shaft on the right side through a driving belt.

Description

Authentication method and equipment

Technical Field

The invention relates to the technical field of service equipment, in particular to an authentication method and equipment.

Background

The authentication of stamping at present is manual operation usually, and the certificate is a large amount, and the stamp-pad ink after stamping is not dry, makes the writing of seal fuzzy, and is wiped in other positions of certificate easily, and what is more, leads to the inefficacy of certificate.

For this reason, there is a need for further improvement of the related art apparatus for stamping authentication, thereby improving the efficiency of authentication.

Disclosure of Invention

It is an object of the present invention to provide a method and apparatus for authentication that overcomes the above-mentioned deficiencies of the prior art.

According to the authentication method and the authentication equipment, the device used in the method comprises a machine body, a through cavity is arranged in the machine body, a rotating cavity is arranged in the lower end wall of the through cavity in a communicating manner, a connecting shaft is arranged in the rotating cavity in a bilaterally symmetrical and rotatable manner, rotating wheels are fixedly arranged on the connecting shaft, the rotating wheels are in power connection through a conveying belt, a driving device is arranged on the rear side of the through cavity, the driving device is in power connection with the connecting shaft on the right side through a conveying belt, a printing oil cavity is arranged in the upper end wall of the through cavity in a communicating manner, a rotating rod is rotatably arranged in the printing oil cavity, a rotating spring is fixedly arranged between the rear end of the rotating rod and the printing oil cavity, printing oil is arranged at the lower end of the rotating rod, a rotating gear with a quarter tooth form is in a meshing connection with the rear end of the rotating rod, the rotating gear is in power connection with the driving device, and the lower end of the rotating gear is in a meshing connection with a connecting gear, the right end face of the connecting gear is connected with a first bevel gear in a meshing manner, the rear end of the first bevel gear is fixedly provided with a fixed shaft, a torsion spring is fixedly arranged on the fixed shaft, the upper side of the stamp-pad ink cavity is communicated with a rotary groove, a rotary disc is rotatably arranged in the rotary groove, the front end of the rotary disc is connected with a dial wheel in a meshing manner, six hollow grooves (the hollow grooves are in a shape of three cubes and three columns in a crossed distribution manner) are uniformly distributed on the rotary disc, a stamp is connected in the hollow grooves in a magnetic manner (the stamp is matched with the hollow grooves in shape), a sliding cavity is communicated with the upper end wall of the rotary groove, a sliding rod with the lower end magnetically attracted by the stamp is arranged in the sliding cavity in a sliding manner, the sliding rod is abutted against the driving device, a rotating device is arranged on the left side of the sliding rod and is rotationally connected with the sliding rod, and the other end of the rotating device is connected with the fixed shaft through belt power, the stamp-pad ink chamber left side is equipped with the wind chamber, the adversion in wind chamber is equipped with the pivot, the pivot with drive arrangement passes through cog belt power and connects, pivot lower extreme bilateral symmetry has set firmly the flabellum.

In a further technical scheme, the driving device comprises a motor, the upper end of the motor is in power connection with a motor shaft, a connecting groove is arranged on the upper side of the motor, the upper end of the motor shaft extends into the connecting groove and is fixedly provided with a second bevel gear, the left end of the second bevel gear is engaged with a third bevel gear, the third bevel gear is in power connection with the rotating gear through a synchronous belt, the lower end of the motor is dynamically connected with a spline shaft, the spline shaft is dynamically connected with the rotating shaft through the toothed belt, a cavity is arranged at the lower side of the motor, a spline sleeve connected with the spline shaft spline is rotationally arranged in the cavity, a linkage device is arranged at the rear side of the motor and is rotationally connected with the spline housing, a fourth bevel gear is fixedly arranged at the lower end of the spline housing, the front end of the fourth bevel gear is connected with a fifth bevel gear in a meshed mode, and the fifth bevel gear is in power connection with the connecting shaft on the right side through the transmission belt.

According to a further technical scheme, the linkage device comprises a pushing groove communicated with the cavity, a push rod is arranged in the pushing groove in a sliding mode, a connecting block rotationally connected with the spline sleeve is fixedly arranged at the lower end of the push rod, a reset combination used for resetting the push rod is fixedly arranged on the rear end face of the push rod, a moving groove is formed between the pushing groove and the sliding cavity in a communicating mode, a moving rod is arranged in the moving groove in a sliding mode, and a reset component used for resetting the moving rod is fixedly arranged at the lower end of the moving rod.

According to the technical scheme, the rotating device comprises a connecting cavity communicated with the sliding cavity, a connecting rod is arranged in the connecting cavity in a rotating mode, a sliding groove is formed in the left side of the connecting cavity in a communicating mode, a frame is arranged in the sliding groove in a sliding mode, the left end and the right end of the connecting rod are respectively connected with the frame and the sliding rod in a rotating mode, a pressure spring is fixedly arranged between the upper end of the frame and the sliding groove, a cam is arranged in the frame in a rotating mode through a mandrel, and the mandrel is connected with the fixed shaft through a belt in a power connection mode.

The invention has the beneficial effects that: the automatic seal-stamping machine is simple in structure, convenient to operate, capable of automatically stamping and drying, replaceable in seal, wide in application range and high in authentication efficiency.

Drawings

FIG. 1 is a schematic diagram of the internal overall structure of a device used in an authentication method and apparatus of the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of "B" in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of "C" in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the structure in the direction "D-D" in FIG. 2 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up-down, front-back, left-right directions described below correspond to the up-down, front-back, left-right directions in the projection relation of fig. 1 itself.

Referring to fig. 1-5, according to an authentication method and apparatus of an embodiment of the present invention, a device used in the method includes a machine body 10, a through cavity 11 is disposed in the machine body 10, a rotation cavity 12 is disposed in a lower end wall of the through cavity 11 in a communicating manner, a connecting shaft 13 is disposed in the rotation cavity 12 in a bilaterally symmetric and rotatable manner, a rotating wheel 14 is fixedly disposed on the connecting shaft 13, the rotating wheels 14 are in power connection through a conveying belt 15, a driving device 100 is disposed at a rear side of the through cavity 11, the driving device 100 is in power connection with the connecting shaft 13 at a right side through a conveying belt 63, a printing oil cavity 16 is disposed in an upper end wall of the through cavity 11 in a communicating manner, a rotating rod 17 is rotatably disposed in the printing oil cavity 16, a rotating spring 64 is fixedly disposed between a rear end of the rotating rod 17 and the printing oil cavity 16, a printing oil 18 is disposed at a lower end of the rotating rod 17, a rotating gear 19 with a quarter tooth form is engaged with a rear end of the rotating rod 17, the rotating gear 19 is in power connection with the driving device 100, the lower end of the rotating gear 19 is in meshing connection with a connecting gear 20, the right end face of the connecting gear 20 is in meshing connection with a first bevel gear 21, the rear end of the first bevel gear 21 is fixedly provided with a fixed shaft 22, a torsion spring 24 is fixedly arranged on the fixed shaft 22, the upper side of the printing oil cavity 16 is communicated with a rotary groove 39, a rotary disc 40 is rotatably arranged in the rotary groove 39, the front end of the rotary disc 40 is in meshing connection with a shifting wheel 43, six hollow grooves 41 (the hollow grooves 41 are in a shape of three cubes and three columns in cross distribution) are uniformly distributed on the rotary disc 40, a seal 42 is in magnetic connection with the hollow grooves 41 (the seal 42 is matched with the hollow grooves 41 in shape), a sliding cavity 50 is communicated with the upper end wall of the rotary groove 39, a sliding rod 51 with the lower end magnetically attracted to the seal 42 is arranged in the sliding cavity 50, and the sliding rod 51 is abutted to the driving device 100, a rotating device 200 is arranged on the left side of the sliding rod 51, the rotating device 200 is rotatably connected with the sliding rod 51, the other end of the rotating device 200 is in power connection with the fixed shaft 22 through a belt 23, an air cavity 59 is arranged on the left side of the printing oil cavity 16, a rotating shaft 60 is rotatably arranged in the air cavity 59, the rotating shaft 60 is in power connection with the driving device 100 through a toothed belt 31, and fan blades 61 are symmetrically and fixedly arranged at the lower end of the rotating shaft 60 in a left-right mode;

the using method comprises the following steps: the certificate or paper to be authenticated is placed in the through cavity 11, and after being stamped by the stamp 42, the fan blades 61 rotate to dry.

Advantageously, the driving device 100 includes a motor 26, a motor shaft 30 is dynamically connected to an upper end of the motor 26, a connecting groove 27 is arranged on an upper side of the motor 26, an upper end of the motor shaft 30 extends into the connecting groove 27 and is fixedly provided with a second bevel gear 29, a left end of the second bevel gear 29 is connected with a third bevel gear 28 in a meshing manner, the third bevel gear 28 is connected with the rotating gear 19 in a dynamic manner through a synchronous belt 25, a spline shaft 32 is dynamically connected to a lower end of the motor 26, the spline shaft 32 is connected with the rotating shaft 60 through the toothed belt 31 in a dynamic manner, a cavity 33 is arranged on a lower side of the motor 26, a spline housing 35 in spline connection with the spline shaft 32 is rotatably arranged in the cavity 33, a linkage device 300 is arranged on a rear side of the motor 26, the linkage device 300 is rotatably connected with the spline housing 35, and a fourth bevel gear 38 is fixedly arranged on a lower end of the spline housing 35, the front end of the fourth bevel gear 38 is connected with a fifth bevel gear 37 in a meshing manner, and the fifth bevel gear 37 is in power connection with the connecting shaft 13 on the right side through the transmission belt 63;

in use, the motor 26 is operated to drive the third bevel gear 28 to rotate and the connecting shaft 13 to rotate.

Beneficially, the linkage 300 includes a push groove 44 communicated with the cavity 33, a push rod 45 is slidably disposed in the push groove 44, a connecting block 34 rotatably connected with the spline housing 35 is fixedly disposed at the lower end of the push rod 45, a reset assembly 46 for resetting the push rod 45 is fixedly disposed at the rear end face of the push rod 45, a moving groove 47 is communicatively disposed between the push groove 44 and the sliding cavity 50, a moving rod 48 is slidably disposed in the moving groove 47, and a reset component 49 for resetting the moving rod 48 is fixedly disposed at the lower end of the moving rod 48;

when the device is used, the conveying belt 15 intermittently rotates through the lifting of the sliding rod 51.

Beneficially, the rotating device 200 includes a connecting cavity 54 communicated with the sliding cavity 50, a connecting rod 55 is rotatably disposed in the connecting cavity 54, a sliding chute 52 is disposed at the left side of the connecting cavity 54 in a communicating manner, a frame 53 is slidably disposed in the sliding chute 52, the left end and the right end of the connecting rod 55 are respectively rotatably connected with the frame 53 and the sliding rod 51, a pressure spring 58 is fixedly disposed between the upper end of the frame 53 and the sliding chute 52, a cam 57 is rotatably disposed inside the frame 53 through a mandrel 56, and the mandrel 56 is in power connection with the fixed shaft 22 through the belt 23;

when in use, the cam 57 intermittently rotates to enable the sliding rod 51 to slide up and down.

In the initial state, the rotating gear 19, the rotating rod 17 and the connecting gear 20 are not meshed, the fourth bevel gear 38 and the fifth bevel gear 37 are meshed, the pressure spring 58 is in a stretching state, and the reset component 49 and the reset combination 46 are in a compressing state.

When the device is required to work, the dial wheel 43 is rotated to rotate the rotary disc 40, the required stamp 42 is adjusted to rotate to the lower side of the sliding rod 51, the certificate to be stamped and authenticated is placed on the conveying belt 15, the motor 26 works, the driving spline sleeve 35 drives the fifth bevel gear 37 to rotate, the conveying belt 15 rotates to drive the certificate to move leftwards, the motor shaft 30 rotates to drive the rotating gear 19 to rotate through the third bevel gear 28, when the rotating gear 19 is meshed with the rotating rod 17, the rotating rod 17 rotates clockwise (right view) to enable the stamp-pad ink 18 to be abutted against the stamp 42, the lower end face of the stamp 42 is coated with the stamp-pad ink, when the rotating gear 19 is separated from the rotating rod 17, the rotating rod 17 rotates to the initial position under the action of the rotating spring 64, when the rotating gear 19 is meshed with the connecting gear 20, the rotating gear 19 drives the first bevel gear 21 to rotate, the cam 57 rotates clockwise through the belt 23, the frame 53 ascends under the action of the pressure spring 58, the slide rod 51 is descended through the connecting rod 55, in the descending process of the slide rod 51, the moving rod 48 moves forwards, the push rod 45 drives the connecting block 34 to move upwards, the fourth bevel gear 38 is disconnected from the fifth bevel gear 37, the conveying belt 15 drives the certificate on the conveying belt to stop moving, the slide rod 51 drives the stamp 42 to descend to perform stamping authentication on the certificate, when the rotating gear 19 is disengaged from the connecting gear 20, the cam 57 rotates anticlockwise under the action of the torsion spring 24, the frame 53 descends, the slide rod 51 drives the stamp 42 to ascend, the push rod 45 descends to enable the fourth bevel gear 38 to be engaged with the fifth bevel gear 37, the conveying belt 15 rotates to drive the certificate to move, in the working process of the motor 26, the fan blades 61 continuously rotate through the rotating shaft 60, the certificate moves to the lower side of the air cavity 59 to be dried, and the certificate is taken out.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The authentication equipment is characterized by comprising an equipment body, wherein a through cavity is arranged in the equipment body, a rotating cavity is communicated and arranged in the lower end wall of the through cavity, connecting shafts are symmetrically arranged in the rotating cavity in a bilateral mode and can rotate, rotating wheels are fixedly arranged on the connecting shafts and are in power connection with each other through a conveying belt, a driving device is arranged on the rear side of the through cavity and is in power connection with the connecting shafts on the right side through a conveying belt, a printing oil cavity is communicated and arranged in the upper end wall of the through cavity, a rotating rod is rotatably arranged in the printing oil cavity, a rotating spring is fixedly arranged between the rear end of the rotating rod and the printing oil cavity, printing oil is arranged at the lower end of the rotating rod, a rotating gear with a quarter tooth shape is in meshed connection with the rear end of the rotating rod, the rotating gear is in power connection with the driving device, a connecting gear is in meshed connection with the lower end of the rotating gear, and a first bevel gear is in meshed connection with the right end face of the connecting gear, the rear end of the first bevel gear is fixedly provided with a fixed shaft, the fixed shaft is fixedly provided with a torsional spring, the upper side of the stamp-pad ink cavity is communicated with a rotary groove, a rotary disc is rotatably arranged in the rotary groove, the front end of the rotary disc is connected with a dial wheel in a meshing manner, six hollow grooves are uniformly distributed on the rotary disc, the hollow grooves are in the shape of three cubes and three columns in a crossed manner, magnetic force in the hollow grooves is connected with stamps, the stamps are matched with the hollow grooves in shape, the upper end wall of the rotary groove is internally communicated with a sliding cavity, a sliding rod with the lower end magnetically attracted by the stamps is arranged in the sliding cavity in a sliding manner, the sliding rod is abutted against the driving device, the left side of the sliding rod is provided with a rotating device, the rotating device is rotationally connected with the sliding rod, the other end of the rotating device is connected with the fixed shaft through belt power, the left side of the stamp-pad ink cavity is provided with a wind cavity, and a rotating shaft is arranged in the wind cavity in a rotating manner, the rotating shaft is in power connection with the driving device through a toothed belt, and fan blades are symmetrically and fixedly arranged at the lower end of the rotating shaft in the left-right direction.

2. An authentication device according to claim 1, wherein the driving device comprises a motor, a motor shaft is connected to the upper end of the motor in a power manner, a connecting groove is formed in the upper side of the motor, a second bevel gear is fixedly arranged at the upper end of the motor shaft and extends into the connecting groove, a third bevel gear is connected to the left end of the second bevel gear in a meshing manner, the third bevel gear is connected to the rotating gear in a power manner through a synchronous belt, a spline shaft is connected to the lower end of the motor in a power manner, the spline shaft is connected to the rotating shaft in a power manner through the toothed belt, a cavity is formed in the lower side of the motor, a spline housing connected to the spline shaft is arranged in the cavity in a rotating manner, a linkage device is arranged at the rear side of the motor and is connected to the spline housing in a rotating manner, a fourth bevel gear is fixedly arranged at the lower end of the spline housing, and a fifth bevel gear is connected to the front end of the fourth bevel gear in a meshing manner, and the fifth bevel gear is in power connection with the connecting shaft on the right side through the transmission belt.

3. An authentication device according to claim 2, wherein the linkage device comprises a push groove communicated with the cavity, a push rod is arranged in the push groove in a sliding manner, a connecting block rotationally connected with the spline housing is fixedly arranged at the lower end of the push rod, a reset combination for resetting the push rod is fixedly arranged on the rear end face of the push rod, a moving groove is arranged between the push groove and the sliding cavity in a communicating manner, a moving rod is arranged in the moving groove in a sliding manner, and a reset component for resetting the moving rod is fixedly arranged at the lower end of the moving rod.

4. The authentication device according to claim 1, wherein the rotating device comprises a connecting cavity communicated with the sliding cavity, a connecting rod is rotatably arranged in the connecting cavity, a sliding groove is formed in the left side of the connecting cavity in a communicating manner, a frame is slidably arranged in the sliding groove, the left end and the right end of the connecting rod are respectively rotatably connected with the frame and the sliding rod, a pressure spring is fixedly arranged between the upper end of the frame and the sliding groove, a cam is rotatably arranged in the frame through a mandrel, and the mandrel is in power connection with the fixed shaft through a belt.