CN109532272B - System for rapidly manufacturing temporary identity card - Google Patents

Abstract

A system for effecting rapid production of temporary identity cards, comprising: the printer, be used for card alignment align mechanism, be used for the mechanism of moulding and go out the card passageway of crossing of hot pressing card, all parts are all arranged in the shell, align mechanism, mould mechanism and go out the card passageway setting in the front side of printer, align mechanism includes: the card pushing device comprises an alignment platform, an X-axis assembly and a Y-axis assembly which are respectively arranged on two adjacent lateral sides of the alignment platform, and a card pushing assembly for pushing a card to a laminator. The certificate making system has high certificate making speed, and continuous and smooth actions from printing, alignment, hot pressing to card discharging, and greatly shortens the alignment time compared with the prior device due to the improved alignment mode; the invention improves the vertical alignment mode into a planar two-dimensional alignment mode, and realizes the alignment by two mutually perpendicular directions of an X axis and a Y axis on the same plane, so that a card can be abutted against the reference end face of the alignment platform, and the accurate alignment effect is achieved.

Description

System for rapidly manufacturing temporary identity card

Technical Field

The invention relates to a certificate making system device which is mainly used for making temporary identity cards and used in household registration rooms of various places.

Background

At present, the temporary identity card making machine used in the market is relatively slow in making speed, generally more than 3 minutes are needed, and when more queuing staff are needed, the use requirement cannot be met at all. In addition, the alignment mechanism used before pressing the card is generally in an up-down alignment mode, static electricity is possibly generated on the surface of the card in the up-down alignment friction process, the card is slightly sticky, the action of the layer of material is inflexible, and the alignment is not accurate.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects in the prior art, and provide a certificate making system for quickly making temporary identity cards.

The technical scheme adopted for solving the technical problems is as follows: a system for effecting rapid production of temporary identity cards, comprising: the printer, be used for card alignment align mechanism, be used for the mechanism of moulding and go out the card passageway of crossing of hot pressing card, all parts are all arranged in the shell, align mechanism, mould mechanism and go out the card passageway setting in the front side of printer, align mechanism includes: the card pushing device comprises an alignment platform, an X-axis assembly and a Y-axis assembly which are respectively arranged on two adjacent side edges of the alignment platform, and a card pushing assembly for pushing a card to the laminator;

the alignment platform is fixedly installed through main installation plates at two sides, the side surface of the alignment platform opposite to the X-axis assembly is an X-axis reference end surface, and the side surface of the alignment platform opposite to the Y-axis assembly is a Y-axis reference end surface;

the X-axis assembly includes: the X-axis motor drives the X-axis sheet to rotate through the transmission piece, so that the X-axis sheet applies a thrust force to the direction of the alignment platform, and the card is aligned with the X-axis reference end face;

the Y-axis assembly includes: the Y-axis motor drives the Y-axis sheet to rotate through a transmission piece, so that the Y-axis sheet applies a thrust force to the alignment platform direction, and the card is aligned with the Y-axis reference end face;

and a conveyor belt is arranged between the Y mounting plates, and the conveyor belt conveys products at the outlet of the printer to the alignment platform.

A feeding platform higher than the alignment platform is arranged on one side of the X-axis reference end surface of the alignment platform, and parallel sliding grooves which are communicated left and right are formed in the table tops of the alignment platform and the feeding platform;

the card pushing assembly comprises: the card pushing motor drives the card pushing screw to drive the card pushing block to move left and right along the parallel sliding groove, the card pushing motor is divided into two steps of movement, the card on the feeding platform is pushed to the alignment platform in the first step, and the card on the alignment platform is pushed to the plastic mechanism in the second step.

The card outlet channel comprises: the first swash plate of slope about, the second swash plate of back-and-forth slope, end flat board and surrounding edge board, first swash plate top is provided with the position of accepting of butt joint overmoulding mechanism, and second swash plate and horizontal contained angle are less than first swash plate contained angle, and the butt joint is on the face of first swash plate about the second swash plate, and end flat board connects the bottommost edge of first swash plate and second swash plate, and surrounding edge board connects on the peripheral side edge of second swash plate and end flat board, is provided with the exit at end flat board's foremost end.

The bottom of going out the evidence mouth is provided with keeps off the cardboard, keeps off the cardboard highly to be higher than the end flat board, keeps off the middle part of cardboard and is formed with U type breach, opens at the end flat board of end and has the bayonet socket of getting that corresponds to U type breach.

The laminator comprises: portal, a pair of roller, the motor of moulding and the heating piece of setting from top to bottom, the both ends of roller pass through the bearing and rotate and install between the riser of portal, and the motor drive of moulding is connected in roller one end, and is rotated by this pair of roller of motor drive of moulding, and the heating piece sets up in the roller, and the heating piece is including the heating rod of taking the thermocouple.

And a temperature control display screen is arranged at the rear side of the card outlet channel and is connected with a thermocouple.

The transmission member includes: the driving wheel is connected to the motor transmission shaft in a transmission way, the driven wheel is meshed with the driving wheel, the rotating shaft is inserted on the driven wheel and synchronously rotates, and the supporting bearing is inserted in the middle of the rotating shaft, the supporting bearing is arranged on the bearing seat, the bearing seat is fixedly connected to the bottom of the alignment platform, the rotating shaft is driven by the motor to rotate, the fixed blocks are symmetrically inserted on two sides of the bearing seat on the rotating shaft, and the X, Y shaft thin sheet is fixedly connected to one face of the fixed block facing the alignment platform.

One end of the rotating shaft is connected with an in-situ baffle, and an original point sensor is arranged on the main mounting plate or the Y mounting plate corresponding to the in-situ baffle.

A plastic coating sensor is arranged on one side, close to the plastic coating mechanism, of the alignment platform, and the plastic coating sensor detects whether a card is sent to the plastic coating mechanism; the plate surfaces of the alignment platform and the feeding platform are provided with small holes, and an in-place detection sensor is arranged below each small hole.

The X-axis sheet and the Y-axis sheet are made of PVC or PET, and the thickness is 0.1-0.15mm.

Compared with the prior art, the invention has the beneficial effects that:

the system for preparing the certificate of the invention has higher certificate preparing speed, can prepare the certificate in 1-2 minutes generally, and has continuous and smooth actions from printing, aligning, hot pressing to card discharging, high speed and high efficiency; meanwhile, the invention improves the alignment mode and greatly shortens the alignment time compared with the prior device. The invention improves the vertical alignment mode into a planar two-dimensional alignment mode, and realizes the alignment by two mutually perpendicular directions of an X axis and a Y axis on the same plane, so that the opposite side of the card can be abutted against the reference end face of the alignment platform, thereby achieving the accurate alignment effect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the description of the embodiments will be briefly described below, in which:

FIG. 1 is an assembly view of a complete machine according to a preferred embodiment of the present invention;

FIG. 2 is a diagram showing the appearance of the whole machine according to the preferred embodiment of the present invention;

FIG. 3 is a block diagram of the alignment mechanism, laminator and exit card of the preferred embodiment of the invention;

FIG. 4 is a block diagram of an alignment mechanism X-axis assembly according to a preferred embodiment of the present invention;

FIG. 5 is a block diagram of the Y-axis assembly of the alignment mechanism according to the preferred embodiment of the present invention;

FIG. 6 is a view showing the internal structure of the alignment mechanism according to the preferred embodiment of the present invention;

FIG. 7 is a block diagram of a laminator mechanism according to a preferred embodiment of the invention;

fig. 8 is a block diagram of the exit card according to the preferred embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the drawings and detailed description. The terms such as "upper", "lower", "left", "right", "middle" and "a" in the preferred embodiments are merely descriptive, but are not intended to limit the scope of the invention, as the relative relationship changes or modifications may be otherwise deemed to be within the scope of the invention without substantial modification to the technical context.

Referring to fig. 1 and 2, a certification system for quickly manufacturing a temporary identity card according to a preferred embodiment of the present invention mainly includes: the printer 10, the alignment mechanism 20, the laminator 30 and the card discharging channel 40 are all arranged in the housing 50, the printer 10 is arranged at the rear side in the housing through the guide rail, an access hole is formed in the rear side of the housing 50, the printer 10 is conveniently pulled out from the rear to be maintained, the alignment mechanism 20, the laminator 30 and the card discharging channel 40 are arranged at the front side of the printer 10 and are fixedly arranged on the bottom plate 501 of the housing, and the components and the connection relation are specifically described below.

The alignment mechanism includes: alignment platform 110, and X-axis assembly, Y-axis assembly and push card assembly respectively disposed on side edges of alignment platform 110.

Referring to fig. 4 and 6, the alignment platform 110 is fixedly installed by the main installation plates 111 on both sides, and the main installation plates 111 stand on the bottom plate 501. The side of the alignment platform opposite to the X-axis assembly is the X-axis reference end face 112, and the side opposite to the Y-axis assembly is the Y-axis reference end face. The board surface of the alignment platform 110 is provided with a small hole, and an in-place detection sensor 113 is arranged below the small hole and used for judging whether a card is put into the alignment platform, wherein the in-place detection sensor 113 can be a light sensing sensor or other sensors capable of detecting the card. The X-axis reference end face 112 side of the alignment platform is also provided with a feeding platform 114 higher than the alignment platform, the feeding platform 114 is also provided with an in-place detection sensor, the feeding platform 114 is used for placing a clamping core, and the table tops of the alignment platform 110 and the feeding platform 114 are provided with parallel sliding grooves 115 which are penetrated left and right.

The X-axis assembly is mounted directly through the main mounting plate 111, and includes: an X-axis motor 121, a transmission member, and an X-axis sheet 122, the X-axis motor 121 being positionally mounted on the one-side main mounting plate 111 with its transmission shaft facing inward, the transmission member including: the X-axis thin sheet 122 is fixedly connected to one surface of the X-axis fixed block 124 facing the alignment platform 110, and the rotating shaft drives the X-axis thin sheet 122 to synchronously rotate when rotating, so that the X-axis thin sheet 122 applies a thrust force to the alignment platform 110.

Referring to fig. 5 and 6, the Y-axis assembly is disposed outside the main mounting plate 111, and the Y-axis assembly includes: the Y-axis motor 131, a transmission part and a Y-axis sheet 132, wherein the opposite Y-axis mounting plate 133 is arranged on the bottom plate 501 perpendicular to the outer side of the main mounting plate 111, the Y-axis motor 131 is positioned and arranged on one side of the Y-mounting plate 133, the transmission shaft faces to the inner side, the Y-axis assembly and the X-axis assembly use the transmission part with the same structure, the support bearing 144 is arranged on the Y-bearing seat 134, one end of the Y-bearing seat 134 penetrates through the main mounting plate 111 to extend into the bottom of the alignment platform 110 and is fixedly connected, the Y-axis motor 131 drives the rotating shaft to rotate, the Y-axis sheet 132 is symmetrically inserted with the Y-fixing blocks 135 on the two sides of the Y-bearing seat 134 in the rotating shaft, the Y-axis sheet 132 is fixedly connected to one side of the Y-fixing blocks 135 facing to the alignment platform 110, and the Y-axis sheet 132 is upwards protruded to the alignment platform 110 when the rotating shaft drives the Y-axis sheet 132 to synchronously rotate, so that the Y-axis sheet 132 applies a thrust force to the direction of the alignment platform 110.

A conveyor belt 136 is further provided between the Y mounting plates 133, and is driven to rotate by a motor, one end of the conveyor belt 136 rearward receives the outlet of the printer 10, the printing film falls onto the conveyor belt 136 by its own weight, and the printing film is conveyed forward by the conveyor belt 136 to the alignment stage 110 at the front end.

After the thin sheet rotates to beat the material, the thin sheet needs to be reset to the original position, so that one end of the rotating shaft is connected with an original position baffle 145, an original position sensor 143 is arranged on the main mounting plate 111 or the Y mounting plate 133 corresponding to the original position baffle 145, when the thin sheet rotates, the original position baffle 145 can block the original position sensor 143, and at the moment, the original position sensor 143 sends out a signal, and the motor drives the thin sheet to return to the original position.

The X-axis sheet 122 and the Y-axis sheet 132 are made of PVC or PET, and the thickness is between 0.1 and 0.15mm, so that the X-axis sheet and the Y-axis sheet meet the requirement of softness and cannot deform the materials. Otherwise, if the material is too hard, the alignment process will elastically deform the material so that the material bounces off the alignment position after the sheet has been removed from the origin of the material.

Referring to fig. 3, the card pushing assembly includes: the card pushing motor 151, the card pushing screw 152 and the pushing block 153, the card pushing motor 151 is connected with one end of the card pushing screw 152 in a transmission mode, the card pushing screw 152 is installed on one side of the main installation plate 111 and is opposite to the Y-axis assembly, the card pushing screw 152 slides along the X-axis direction, the connecting plate 154 is fixedly connected to the sliding piece of the card pushing screw 152, the connecting plate 154 extends to the upper portion of the alignment platform, two opposite pushing blocks 153 are fixedly installed on the bottom face of the connecting plate 154, the card pushing motor 151 drives the sliding piece of the card pushing screw 152 to move left and right along the parallel sliding grooves 115 through the connecting plate 154, the pushing block 153 can push a card on the platform to move, the card on the feeding platform 114 is pushed to the alignment platform 110 in two steps, and the card core and the printing film on the alignment platform 110 are pushed to the roller of the laminator 30 in the first step.

Referring to fig. 7, the laminator comprises: a gantry 301, a pair of rollers 302 arranged up and down, a laminator motor 303 and a heating element. The gantry 301 is composed of opposite risers and a cross plate connected to the risers, and the gantry 301 is mounted on the bottom plate 501. The two ends of the roller 302 are rotatably arranged between vertical plates of the portal 301 through bearings, the laminator motor 303 is also arranged on the inner sides of the vertical plates, the laminator motor 303 is connected to one end of the roller 302 through a multistage gear set 304 in a transmission mode, the multistage gear set 304 is arranged on the vertical plates of the portal, and the laminator motor 303 drives the pair of rollers 302 to rotate. A heating element is disposed within the bowl 302, the heating element comprising a heating rod with a thermocouple, through which a high temperature environment is provided to the bowl.

Referring to fig. 3, a temperature control display screen 305 is further disposed at the rear side of the outlet channel 10, and the temperature control display screen 305 is connected with a thermocouple. The temperature of the laminator realizes: the heating rod heats the roller, the temperature is set through the temperature control display screen (in principle, the temperature can be set to 120 ℃), when the heating rod heats, the thermocouple feeds back the current temperature in real time, the current temperature value is embodied on the temperature control display screen through the temperature control component, when the temperature reaches the set temperature, the temperature control component cuts off the power supply, stops heating, when the temperature is reduced to the lowest value (in principle, the temperature control component is set to 110 ℃), the temperature control component conducts the power supply, and the heating rod starts heating. So reciprocating, realize the heating control to the mechanism that superposes.

Referring to fig. 4, a laminator sensor 306 is disposed on the alignment platform 110 near the laminator 30 for detecting whether a card is fed to the laminator, and when a card is detected, the card pushing assembly pushes the card between the rollers at a slower speed (average 3 mm/s) to ensure the quality of hot pressing.

Referring to fig. 8, the outgoing channel includes: the first inclined plate 410, the second inclined plate 420, the bottom flat plate 430, the surrounding plate 440 and the certificate outlet 450. The first inclined plate 410 is inclined left and right, and has the largest included angle with the horizontal plane, and the top end of the first inclined plate 410 is provided with a receiving position 411, and the receiving position 411 is used for receiving the card coming out from the laminator 30. The second inclined plate 420 is inclined forwards and backwards, the included angle between the second inclined plate 420 and the horizontal plane is smaller than the included angle between the first inclined plate 410, the left side and the right side of the second inclined plate 420 are butted on the plate surface of the first inclined plate 410, the first inclined plate 410 is flush with the bottommost edge of the second inclined plate 420, and the bottom flat plate 430 is connected with the bottommost edges of the first inclined plate 410 and the second inclined plate 420. The peripheral plate 440 is vertically connected to the peripheral side edges of the second inclined plate 420 and the bottom plate 430. The above structure constitutes a card-discharging movement path, and the card moves to the card-discharging port 450 via the first inclined plate 410, the second inclined plate 420, and the bottom plate 430. The first inclined plate 410, the second inclined plate 420, the bottom flat plate 430 and the surrounding plate 440 are all made of sheet metal parts.

The foremost end of the bottom plate 430 is provided with a certificate outlet 450, the certificate outlet 450 is in a rectangular frame structure, the foremost end of the bottom plate 430 is bent forward twice to form a mounting edge 431, the bottommost part of the certificate outlet 450 is fixed on the mounting edge 431, and the foremost edges of the first inclined plate 410 and the surrounding edge plate 440 are also bent to form a folded edge for connecting the certificate outlet 450. The bottom of the card outlet 450 is provided with a blocking board 460, the height of the blocking board 460 is higher than that of the bottom flat plate 430, a U-shaped notch is formed in the middle of the blocking board 460, a card taking opening 470 corresponding to the U-shaped notch is formed in the forefront end of the bottom flat plate 430, when a card slides to the forefront end of the bottom flat plate 430, the card is blocked by the blocking board 460 and is prevented from falling, and a finger can conveniently take the card through the card taking opening 470. The certificate outlet 450 and the blocking plate 460 are made of plastic parts.

In order to facilitate the fixed installation, a support plate 480 is provided at the rear end of the second inclined plate 420, and the bottom of the support plate 480 is fixedly installed on the bottom plate 501 by folding the edges thereof.

To facilitate understanding of the present solution, the following working procedure is briefly described:

the temporary identity card is generally composed of two layers of structures, namely a card core and a printing film, wherein a matching layer is attached to the upper surface of the card core in advance, and the printing film is manufactured through a printer.

1. Running the device, and starting printing by the printer;

2. after printing is finished, the printing film falls onto a conveyor belt from an outlet, and the conveyor belt rotates to convey the printing film onto an alignment platform;

3. the X-axis thin sheet of the X-axis assembly rotates to be uniformly clapped, one side of the film is abutted against the X-axis reference end face, and the Y-axis assembly is utilized in the same way, so that the other adjacent side of the film is abutted against the Y-axis reference end face;

4. the card pushing assembly horizontally pushes the card core on the feeding platform to the alignment platform, the card core covers the printing film, and the pairing layer of the card core faces upwards; the card core is taken out from the material box by the witness and placed on the platform, before that, the card core is placed in the material box, and when the witness needs to be made, the card core is taken out by the witness and placed on the platform.

5. The same X-axis component and Y-axis component sequentially perform Ji Kaxin + printing film, in the step, each time the sheet is respectively rotated twice to perform alignment, and the rotation action can be set according to specific conditions;

6. the card pushing assembly continuously translates and pushes the card core and the printing film on the alignment platform to the laminator, and the card is tightly combined through hot pressing of a pair of rollers;

7. and (3) finishing the superplastic forming, and finally, reaching the evidence outlet through the evidence outlet channel.

The above description is only of the preferred embodiments of the present invention, and is not intended to limit the invention in any way, and any modification, equivalent variation and variation made by the technical matter of the present invention according to the above embodiments will fall within the scope of the technical solution of the present invention.

Claims (8)

1. A system for realizing fast making of temporary identity card is characterized by comprising: the printer, be used for card alignment align mechanism, be used for the mechanism of moulding and go out the card passageway of crossing of hot pressing card, all parts are all arranged in the shell, align mechanism, mould mechanism and go out the card passageway setting in the front side of printer, align mechanism includes: the card pushing device comprises an alignment platform, an X-axis assembly and a Y-axis assembly which are respectively arranged on two adjacent side edges of the alignment platform, and a card pushing assembly for pushing a card to the laminator; the alignment platform is fixedly installed through main installation plates at two sides, the side surface of the alignment platform opposite to the X-axis assembly is an X-axis reference end surface, and the side surface of the alignment platform opposite to the Y-axis assembly is a Y-axis reference end surface; the X-axis assembly includes: the X-axis motor drives the X-axis sheet to rotate through the transmission piece, so that the X-axis sheet applies a thrust force to the direction of the alignment platform, and the card is aligned with the X-axis reference end face; the Y-axis assembly includes: the Y-axis motor drives the Y-axis sheet to rotate through a transmission piece, so that the Y-axis sheet applies a thrust force to the alignment platform direction, and the card is aligned with the Y-axis reference end face; a conveyor belt is arranged between the Y mounting plates, and the conveyor belt conveys products at the outlet of the printer to the alignment platform; a feeding platform higher than the alignment platform is arranged on one side of the X-axis reference end surface of the alignment platform, and parallel sliding grooves which are communicated left and right are formed in the table tops of the alignment platform and the feeding platform; the card pushing assembly comprises: the card pushing motor drives the card pushing screw to drive the card pushing block to move left and right along the parallel sliding groove, the card pushing motor is divided into two steps, the card on the feeding platform is pushed to the alignment platform in the first step, and the card on the alignment platform is pushed to the overmoulding mechanism in the second step; the card outlet channel comprises: the first swash plate of slope about, the second swash plate of back-and-forth slope, end flat board and surrounding edge board, first swash plate top is provided with the position of accepting of butt joint overmoulding mechanism, and second swash plate and horizontal contained angle are less than first swash plate contained angle, and the butt joint is on the face of first swash plate about the second swash plate, and end flat board connects the bottommost edge of first swash plate and second swash plate, and surrounding edge board connects on the peripheral side edge of second swash plate and end flat board, is provided with the exit at end flat board's foremost end.

2. The system for quickly manufacturing temporary identity cards according to claim 1, wherein a blocking board is arranged at the bottom of the card outlet, the height of the blocking board is higher than that of the bottom plate, a U-shaped notch is formed in the middle of the blocking board, and a card taking port corresponding to the U-shaped notch is formed at the foremost end of the bottom plate.

3. The authentication system for enabling rapid manufacturing of temporary identity cards of claim 1, wherein the laminator comprises: portal, a pair of roller, the motor of moulding and the heating piece of setting from top to bottom, the both ends of roller pass through the bearing and rotate and install between the riser of portal, and the motor drive of moulding is connected in roller one end, and is rotated by this pair of roller of motor drive of moulding, and the heating piece sets up in the roller, and the heating piece is including the heating rod of taking the thermocouple.

4. The system for quickly manufacturing temporary identity cards according to claim 3, wherein a temperature control display screen is arranged at the rear side of the card outlet channel and is connected with a thermocouple.

5. The identification system for realizing rapid manufacturing of temporary identity cards according to claim 1, wherein the transmission member comprises: the driving wheel is connected to the motor transmission shaft in a transmission way, the driven wheel is meshed with the driving wheel, the rotating shaft is inserted on the driven wheel and synchronously rotates, and the supporting bearing is inserted in the middle of the rotating shaft, the supporting bearing is arranged on the bearing seat, the bearing seat is fixedly connected to the bottom of the alignment platform, the rotating shaft is driven by the motor to rotate, the fixed blocks are symmetrically inserted on two sides of the bearing seat on the rotating shaft, and the X, Y shaft thin sheet is fixedly connected to one face of the fixed block facing the alignment platform.

6. The system for quickly manufacturing temporary identity cards according to claim 5, wherein one end of the rotating shaft is connected with an in-situ baffle, and an in-situ sensor is arranged on the main mounting plate or the Y mounting plate corresponding to the in-situ baffle.

7. The system for quickly manufacturing temporary identity cards according to claim 1, wherein a superplastic sensor is arranged on one side of the alignment platform, which is close to the superplastic mechanism, and the superplastic sensor detects whether a card is sent to the superplastic mechanism; the plate surfaces of the alignment platform and the feeding platform are provided with small holes, and an in-place detection sensor is arranged below each small hole.

8. The system for quickly manufacturing temporary identity cards according to claim 1, wherein the X-axis sheet and the Y-axis sheet are made of PVC or PET, and have a thickness of 0.1-0.15mm.