CN110569939B - Desktop type label and ticket dual-purpose detection code writing equipment - Google Patents

Abstract

The utility model discloses a dual-purpose detection code-writing device for desktop labels and tickets, which can be arranged on a desktop to work, and comprises a card issuing mechanism for issuing ticket sheets, a card collecting mechanism for collecting the ticket sheets, a conveyor belt for connecting the card issuing mechanism and the card collecting mechanism, and a unreeling shaft and a reeling shaft for coiling and tensioning a label stock belt, wherein a driving mechanism for drawing the label stock belt to transmit is arranged between the unreeling shaft and the reeling shaft. The desktop type label and ticket dual-purpose type detection and code writing device can be suitable for labels in a material belt form and tickets in a single form, can complete writing and/or detection and verification of the labels and the tickets, is small in size, can be placed on a desktop for working, is convenient to use and has a wide application range.

Description

Desktop type label and ticket dual-purpose detection code writing equipment

Technical Field

The utility model belongs to the technical field of RFID electronic tag equipment, and particularly relates to detection and code writing equipment for an RFID electronic tag and an electronic ticket card.

Background

Labels may be used to mark or sort products, labels known in the printing industry, commonly referred to as "stickers". The self-adhesive label is usually used in a material tape (material tray) form during production or labeling, and the RFID electronic label in the patent refers to a rolled self-adhesive label with an RFID function on the material tape, and is hereinafter referred to as a label; the RFID electronic ticket card in the patent refers to a single label object with a certain thickness and an RFID function, such as a tag, a card, a woven label and the like which are used in the field of clothing retail and have an RFID identification function, and is hereinafter called as the ticket card for short. In the prior art, different equipment is required to be used for finishing the processing aiming at the label and the ticket, so that the cost is high and the time and the labor are wasted;

in addition, in the test device for the tray label in the prior art, the tension of the material belt of the unfolding part after the tray is tensioned is the same, for example, the publication number is: the Chinese patent of CN 209141710U discloses a reel label code spraying system, which discloses a label conveying device comprising a driving conveying roller and a driven conveying roller which are in elastic contact, wherein the driving conveying roller is driven to rotate by a first motor so as to drive labels clamped between the driving conveying roller and the driven conveying roller to move forwards; the whole material belt has the same tension, but when the Internet of things is vigorously developed, many tags contain RFID chips capable of storing many data information, so that the RFID chips cannot be too tightly wound and unwound (particularly wound) and are easily damaged;

if the stacked ticket cards are required to be processed singly or subjected to performance detection, data reading, writing and detection verification, the stacked ticket cards are required to be separated singly and conveyed orderly, in the prior art, the situation that a plurality of cards are sent out simultaneously often occurs when the cards are issued, and at the moment, RFID reading errors are caused, and the situation of code writing or detection failure is caused; such as bulletin numbers: the Chinese patent of CN 208449921U discloses a ticket card detection and transmission device, which improves the abnormality of code writing caused by double sheets in the production of single Zhang Piao cards, senses the double sheets by adding a thickness sensor, and when the detection is carried out by the thickness sensor, if the detection is double sheets, the thickness sensor sends a signal to a PLC (programmable logic controller) which controls a motor to stop processing; if the distance sensor detects two sheets, the distance sensor sends a signal to the PLC, the PLC sends a waste rejecting instruction, and the upper blowing device rejects the two sheets of ticket cards, so that the waste rejecting of the device can generate a plurality of ticket cards needing to be stacked again, and the device is inconvenient to use; the ticket card classification collection after the test is finished by a manipulator in the prior art, the cost is high, and the code writing or the test equipment of the ticket card in the prior art is huge in size and inconvenient to install and debug.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the desktop type label and ticket dual-purpose type detection and code writing equipment which can be suitable for labels in a material belt form and ticket cards in a single form, can finish writing and/or detection and verification of the labels and the ticket cards, is small in size, can be placed on a desktop for working, is convenient to use and has a wide application range.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a desktop type label and ticket dual-purpose detection code writing device is characterized in that: the detection code-writing equipment can be arranged on a desktop to work and comprises a card issuing mechanism for issuing stacked ticket sheets, a card collecting mechanism for collecting the ticket sheets, a conveyor belt for connecting the card issuing mechanism and the card collecting mechanism, and a unreeling shaft and a reeling shaft for winding and tensioning a label stock belt, wherein the reeling shaft is provided with a driving piece for driving the reeling shaft to rotate;

the label stock belt and the ticket card are the same in transmission direction, an upstream and a downstream are defined by the movement direction of the ticket card, the card issuing mechanism is positioned at the upstream end part of the conveyor belt, the card collecting mechanism is positioned at the downstream end part of the conveyor belt, the ticket card is transmitted on the conveyor belt, the unwinding shaft is positioned at the upstream of the card issuing mechanism, the winding shaft is positioned at the downstream of the card collecting mechanism, the unwinding part of the label stock belt is transmitted above the conveyor belt, and a driving mechanism for pulling the label stock belt to be transmitted is arranged between the unwinding shaft and the winding shaft;

at least 1 group of read-write devices are arranged between the card issuing mechanism and the card receiving mechanism, the read-write devices are used for detecting and writing codes on the single ticket cards or the labels on the material belt, the read-write devices are positioned above or below the conveyor belt, and the read-write devices comprise a code scanner and/or an RFID read-write device;

the card collecting mechanism comprises a first card collecting bin for collecting good-quality tickets and forming a stack, a second card collecting bin for collecting bad-quality tickets and a ticket distributing mechanism for sending the tickets into the first card collecting bin or the second card collecting bin.

Further, the driving mechanism comprises a first driving mechanism, the first driving mechanism is located at the tail end of the conveyor belt, and the first driving mechanism comprises a driving roller and a driven roller which are mutually abutted.

Further, the driving mechanism includes a belt roller, which is located upstream of the first driving mechanism and located at a feeding end of the conveyor belt, and is configured to press the label stock belt so that the label stock belt approaches the conveyor belt.

Further, the belt pressing roller is close to the tensioning roller of the conveyor belt, the tensioning roller can drive the belt pressing roller to rotate, and the belt pressing roller and the tensioning roller form a second driving mechanism.

Further, the driving roller is a driving roller for driving the conveyor belt to move, and the driving roller can drive and pull the label stock belt and can drive the conveyor belt.

Further, the card issuing mechanism comprises a bin for stacking and placing ticket cards, a card issuing conveyer belt for outputting ticket cards is arranged below the bin, a driving piece for driving the card issuing conveyer belt to move is arranged on the card issuing conveyer belt, a striker plate is arranged on the downstream of the bin, the striker plate is located above the card issuing conveyer belt, a first gap is formed between the striker plate and the card issuing conveyer belt, a reversing wheel is arranged on the downstream of the striker plate, the reversing wheel is located above the card issuing conveyer belt, a second gap is formed between the reversing wheel and the card issuing conveyer belt, a driving piece for driving the reversing wheel to rotate is arranged on the reversing wheel, and the rotating direction of the reversing wheel is as follows: and the tangential direction of the motion track of the point of the reversing wheel closest to the hairpin conveyer belt is opposite to the conveying direction of the hairpin conveyer belt.

Further, the ticket distributing mechanism comprises a turning plate, the second card collecting bin is arranged below the turning plate, the first card collecting bin is arranged at the downstream of the turning plate, the turning plate can be turned over, and the ticket can fall into the first card collecting bin or the second card collecting bin through a channel formed by turning over.

Further, the ticket distributing mechanism comprises a receiving conveyer belt and a pressing roller arranged above the receiving conveyer belt, the receiving conveyer belt is arranged at the downstream of the turning plate, the first receiving clamping bin is arranged at the downstream of the receiving conveyer belt, the turning of the turning plate is provided with a first state and a second state, the first state is that the turning plate is parallel to the conveyer belt, and the second state is that the turning plate is provided with an included angle with the conveyer belt.

Further, the first card collecting bin comprises a material receiving platform and three material collecting limiting plates, the three material collecting limiting plates are arranged to form a blanking area in a surrounding mode, when a card is collected, a ticket card falls into the blanking area, and the three material collecting limiting plates can adjust the size of the surrounding area according to the size of the ticket card.

Further, the read-write device comprises a code scanner and an RFID read-write device, and the read-write device is provided with 2 groups, wherein 1 group of read-write devices positioned at the upstream are used for writing data into the ticket card or the label, and 1 group of read-write devices positioned at the downstream are used for detecting and checking the data of the ticket card or the label.

The utility model has the beneficial effects that:

1. the desktop type label and ticket dual-purpose type detection code-writing equipment is suitable for labels in a material belt form and tickets in a single sheet form, the tickets are sent to a conveyor belt singly through a card issuing mechanism, the card issuing mechanism can prevent the tickets from being sent out repeatedly, the tickets circulate on the conveyor belt, the detection code-writing work is completed through a read-write device during circulation, and the tickets are respectively sent into a first card receiving bin or a second card receiving bin through a separating mechanism according to the detection code-writing result; the label stock belt is transmitted in a traction way through a winding and unwinding reel and a driving mechanism, labels attached to the label stock belt are detected and coded through a coding device, and when bad products are checked, the machine stops to mark the bad products manually or stops to mark the bad products automatically through equipment; the writing and/or detection verification of the label and the ticket card can be completed by one device, the device can be arranged on a desktop for working, the use is convenient, and the application range is wider.

2. The label stock belt is driven through the clamping traction of the driving roller and the driven roller, and the rolling shaft is provided with power, so that tensioning transmission of the stock belt can be completed, but due to the existence of rolling tension, unreeling damping and rolling material rotational inertia, the tension of the label stock belt cannot be uniformly controlled by single rolling shaft traction, so that the transmission of the label stock belt is unstable, the first driving mechanism is arranged to separate the stock belt tension of a section of the stock belt, which is positioned above the conveying belt and used for testing, from the stock belt tension of the rolling section, and smoothness and stability of the stock belt transmission can be better controlled.

3. The utility model is also provided with a second driving mechanism, the label material belt is driven by clamping traction of the second driving mechanism, at the moment, the tension of the label material belt can be divided into three sections, namely an unreeling section between the unreeling shaft and the belt pressing roller, a testing section between the belt pressing roller and the first driving mechanism, and a reeling section between the first driving mechanism and the reeling shaft, wherein the second driving mechanism can block the influence of the material belt tension of the unreeling section on the material belt tension of the testing section (the influence of damping and the like of the unreeling shaft) and is matched with the first driving mechanism to ensure that the material belt transmission of the testing section is more stable at a constant speed;

4. the first driving mechanism and the conveyor belt share one driving roller, the same driving roller can realize the conveying synchronization of the conveyor belt and the label material belt, play a role in stabilizing feeding and blocking uneven material belt tension, and can prevent the label material belt from being stained due to friction when the label material belt contacts with the surface of the conveyor belt; in addition, the shared driving roller can simplify the equipment structure, so that the size of the desktop detection and code writing equipment is smaller.

5. The card issuing mechanism is provided with a stop plate and a reversing wheel at a discharge hole of the stock bin, the stop plate and the reversing wheel are matched for use, the first clearance of the stop plate is adjusted to control the number of ticket cards issued each time to be 1-2, the first clearance can be increased to the greatest extent, the adjustment difficulty is reduced, and the card issuing smoothness is improved; the reversing wheel has elasticity, the friction force between the reversing wheel and the ticket is small, the friction force between the Yu Faka conveyer belt and the ticket is small, when a single ticket passes through a second gap between the reversing wheel and the card sending conveyer belt, even if the single ticket contacts the reversing wheel, the transmission of the single ticket cannot be blocked, when two tickets are sent out simultaneously, the reversing wheel can block the ticket positioned above to be output because the friction force between the reversing wheel and the ticket is larger than the friction force between the ticket, and meanwhile, the ticket positioned below can be smoothly transmitted and output through the card sending conveyer belt, and the rigid baffle plate and the flexible reversing wheel are combined to be used, so that the applicability of the card sending mechanism to tickets with different thicknesses and flatness can be enhanced, the adjustment difficulty of the baffle plate can be reduced, the success rate of sending out the ticket can be improved, and the situation that the ticket is sent out again can be prevented;

6. the ticket distributing mechanism comprises a turnover plate which can be turned over, and a channel formed by turning over the turnover plate enables the ticket to fall into the first card collecting bin or the second card collecting bin; the structure is simplified, and the ticket dividing action is rapid and accurate; still including being located receipts material conveyer belt and the pressure material roller of turning over the board low reaches, the ticket card passes through the face of turning over the board is transmitted to receive the material conveyer belt, falls into again receive the card storehouse, can enlarge the position through receiving the material conveyer belt and can establish the scope (give more setting installation space in first receipts card storehouse), the pressure material roller can ensure that the ticket card obtains comparatively stable (fly into the power in first receipts card storehouse), reduces the position deviation when falling into first receipts card storehouse and predetermine the region.

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of the working placement state of a dual-purpose detection code writing device of the present utility model;

FIG. 2.1 is a schematic diagram of the overall structure of the detection and coding device of the present utility model (hidden take-up and pay-off reels);

FIG. 2.2 is a schematic diagram of the overall structure of the detection and writing device (hidden card issuing mechanism) of the present utility model;

FIG. 3.1 is a schematic diagram of the internal structure of the detection and coding device of the present utility model (hidden take-up and pay-off reels);

FIG. 3.2 is a schematic diagram of the internal structure of the detection code writing apparatus (hidden card issuing mechanism) of the present utility model;

FIG. 3.3 is a schematic view of the first drive mechanism of the present utility model;

fig. 4.1 is a partial view of the a-direction of fig. 3.1 (first card-receiving mechanism card-receiving schematic);

fig. 4.2 is a partial view of the a-direction of fig. 3.1 (second card-receiving mechanism card-receiving schematic);

fig. 5 is a schematic structural view of the flap of the present utility model;

FIG. 6 is a schematic diagram of the overall structure of the card issuing authority of the present utility model;

FIG. 7 is a schematic diagram of the overall structure of the card issuing authority of the present utility model (another view);

FIG. 8 is a schematic diagram of a bin of the card issuing authority of the present utility model;

FIG. 9 is a schematic view of the structure of a silo of the card issuing mechanism of the present utility model (another view);

FIG. 10 is a cross-sectional view of the card dispensing mechanism of the present utility model;

fig. 11 is an enlarged view of a portion B of fig. 10;

FIG. 12.1 is a schematic view of the first card hopper of the present utility model (there are tickets in the card hopper);

FIG. 12.2 is a schematic view of the structure of the first card hopper of the present utility model (no ticket in the card hopper);

fig. 13 is a schematic structural view of a receiving limiting plate of the first receiving bin;

the parts in the drawings are marked as follows:

the clamping device comprises a card issuing mechanism 1, a storage bin 11, a card issuing conveying belt 12, a tensioning roller 121, a reversing wheel 13, an adjusting plate 14, an adjusting screw 15, a baffle plate 16, a baffle plate fixing block 161, an adjusting block 162, an adjusting bolt 163, a storage bin bottom plate 171, a storage bin side plate 172 and an adjusting guide post 173;

the card collecting mechanism 2, a first card collecting bin 21, a material receiving platform 211, a notch 2111, a sliding rail 212, material collecting limiting plates 213, 214 and 215, a limiting part 2151, a column 2152, a mounting part 2153, a driving piece 216, a photoelectric sensor 217, a second card collecting bin 22, a ticket distributing mechanism 23, a turning plate 231, a first state 2311, a second state 2312, a cambered surface 2313, a conveying belt 232, a guide plate 233, a rotating shaft 234, a material pressing roller 235 and an included angle alpha;

conveyor belt 3, drive roller 31;

a read-write device 4, a code scanner 41, an RFID read-write device 42 and a drawing board 43;

a unreeling shaft 51, a reeling shaft 52;

the driving mechanism 6, the first driving mechanism 61, the driving roller 611, the driven roller 612, the belt roller 62, the slider 641, the mounting seat 642, the positioning rod 643, and the pressure spring 644;

a stand 7;

a work table 8;

a ticket 91 and a strip of label stock 92.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Examples: a dual-purpose type detection and writing device for desktop labels and tickets, as shown in fig. 1, 2.1 and 2.2: the detection code writing equipment can be arranged on the tabletop of the workbench 8 to work, and comprises a card issuing mechanism 1 for issuing single ticket cards 91, a card collecting mechanism 2 for collecting the ticket cards, a conveyor belt 3 for connecting the card issuing mechanism and the card collecting mechanism, and a unreeling shaft 51 and a reeling shaft 52 for reeling and tensioning a label stock belt 92, wherein the reeling shaft is provided with a driving piece for driving the ticket cards 91 to rotate and collect materials;

the label stock tape and the ticket card are arranged on the base 7 in an arrangement mode, the transmission directions of the label stock tape and the ticket card are the same, the upstream and the downstream are defined according to the movement directions of the ticket card, the card issuing mechanism is located at the upstream end part of the conveyor belt, the card collecting mechanism is located at the downstream end part of the conveyor belt, the ticket card is transmitted on the conveyor belt, the card discharging shaft is located at the upstream of the card issuing mechanism, the winding shaft is located at the downstream of the card collecting mechanism, the unfolding part of the label stock tape is transmitted above the conveyor belt, and a driving mechanism 6 for pulling the label stock tape to be transmitted is arranged between the discharging shaft and the winding shaft;

as shown in fig. 2.1: at least 1 group of read-write devices 4 used for detecting and writing codes on the single ticket card or the labels on the material belt are arranged between the card issuing mechanism and the card receiving mechanism, the read-write devices are positioned above or below the conveyor belt, and the read-write devices comprise a code scanner 41 and/or an RFID read-write device 42;

in this embodiment, the read-write device includes a code scanner 41 and an RFID reader 42, and the read-write device is provided with 2 groups, wherein 1 group of read-write devices located at the upstream is used for writing data into the ticket card or the tag, and 1 group of read-write devices located at the downstream is used for detecting and verifying the data (RFID stored data) of the ticket card or the tag.

The code scanner is located above the conveyor belt, the RFID reader-writer is located below the conveyor belt, the RFID reader-writer is installed on the drawing plate 43, the drawing plate can be stored below the conveyor belt and can be pulled out from below the conveyor belt, and the drawing type structural design is convenient for installation and debugging of the FRID reader-writer.

As shown in fig. 2.2, 3.2 and 3.3: the drive mechanism includes a first drive mechanism 61 located at the end of the conveyor belt, which includes a drive roller 611 and a driven roller 612 that are in close proximity to each other.

When the Internet of things is developed vigorously, many labels contain RFID chips capable of storing many data information, so that the RFID chips cannot be too tightly wound and unwound (particularly wound), the RFID chips are easily damaged due to the fact that the winding shaft is too tightly wound, and tensioning transmission of a material belt can be completed although the winding shaft is provided with power, but the tension of the label material belt cannot be uniformly controlled due to the fact that the winding shaft is used alone for traction, the unwinding damping and the rotational inertia of the material belt exist, and the transmission of the label material belt is unstable;

according to the utility model, the tension of the label material belt can be divided into a plurality of sections through the driving mechanism, the label material belt is driven by clamping traction of the driving roller and the driven roller, and the first driving mechanism is arranged to separate the tension of the material belt of the section, which is positioned above the conveyor belt and used for testing, from the tension of the material belt of the winding section, so that the smoothness and the stability of the material belt transmission can be better controlled.

The detection and code writing equipment can respectively finish detection and code writing of the ticket card and the label, and the ticket card comprises the following working steps: the ticket card reaches the upstream 1 group of read-write devices, one-dimensional codes or two-dimensional codes on the ticket card are scanned by a code scanner, and corresponding data are called (from a database) and written into the ticket card by an RFID reader-writer; after the completion, the ticket card passes through a downstream 1-group read-write device, and a one-dimensional code or a two-dimensional code on the ticket card is scanned by a code scanner, then data in the ticket card is read by an RFID reader-writer, the data in the server is compared and detected, and finally the ticket card is placed into a first card receiving bin or a second card receiving bin according to a test result;

the label on the coiled material belt comprises the following working steps: the label stock belt is drawn and transmitted through a winding and unwinding reel and a driving mechanism, labels attached to the label stock belt are detected and written by a code writing device, when bad products are detected, the machine is stopped, and the bad products are marked manually or automatically by equipment (an automatic marking embodiment is not shown in the figure, but a plurality of methods are available for realizing automatic marking devices for a person skilled in the art, such as a biaxial or triaxial module, or a mechanical arm and other technical means);

the method is a software operation known to those skilled in the art, and is not a content to be protected by the present utility model, and therefore, the method is not repeated here.

In this embodiment, the driving roller is a driving roller 31 for driving the conveyor belt to move, and the driving roller can drive and pull the label stock belt and can drive the conveyor belt, that is, the first driving mechanism and the conveyor belt share one driving roller, the same driving roller can realize the conveying synchronization of the conveyor belt and the label stock belt, play the roles of stabilizing feeding and blocking uneven tension of the material belt, and can prevent the label stock belt from being stained due to friction generated when the label stock belt contacts with the surface of the conveyor belt; in addition, the shared driving roller can simplify the equipment structure, so that the size of the desktop detection and code writing equipment is smaller.

In order to bring the web of material closer to the conveyor belt than the section above the conveyor belt, the drive mechanism includes a platen roller 62 located upstream of the first drive mechanism and at the feed end of the conveyor belt, the platen roller being adapted to compress the web of label stock so that the web of label stock is adjacent the conveyor belt, the feed end being the end of the ticket entering the conveyor belt.

In order to further improve the conveying stability of the label stock, the belt pressing roller is close to the tensioning roller 121 of the conveying belt, the tensioning roller can drive the belt pressing roller to rotate, and the belt pressing roller and the tensioning roller form a second driving mechanism;

the label stock area passes through the centre gripping traction drive of second actuating mechanism, the tension of label stock area can divide into three sections, and firstly unreels the section between spool and the pinch roller, secondly is the test section between pinch roller and the first actuating mechanism, thirdly is the rolling section between first actuating mechanism and the rolling axle, second actuating mechanism can block the material area tension of unreel the section and to the tensile influence (influence such as the damping of unreel spool) of test section material area, and cooperation first actuating mechanism makes the material area transmission of test section more stable at uniform velocity.

As shown in fig. 3.2 and 3.3: the sleeve is worn in the slider 641 at the both ends of driven voller, slider sliding connection is in mount pad 642, just the slider can drive the driven voller is close to or keeps away from drive roller 31, the slider with still be equipped with locating lever 643 and compression spring 644 between the mount pad, vertical upwards pull up the locating lever, then rotatory 90 degrees can lift up the driven voller makes it keep away from drive roller 31 and locking lift-up state, the material operation of being convenient for, compression spring is used for providing the pressure between driven voller and the drive roller, can obtain different pressures through changing the spring.

The card collecting mechanism is as shown in fig. 3.1, 4.1 and 4.2: the system comprises a first card collecting bin 21 for collecting good-quality tickets, a second card collecting bin 22 for collecting bad-quality tickets and a ticket distributing mechanism 23 for sending the tickets into the first card collecting bin or the second card collecting bin, wherein the tickets are sent to a conveyor belt through a card issuing mechanism, the tickets circulate on the conveyor belt, the detection and code writing work is completed through a read-write device during circulation, and then the tickets are sent into the first card collecting bin or the second card collecting bin through the ticket distributing mechanism according to the detection and code writing result.

The ticket distributing mechanism comprises a turning plate 231, the second card collecting bin is arranged below the turning plate, the first card collecting bin is arranged at the downstream of the turning plate, the turning plate can be turned over, and the ticket can fall into the first card collecting bin or the second card collecting bin through a channel formed by the turning;

the turning plate in the embodiment can also be of a telescopic structure (not shown), and the positions of the turning plate are changed through telescopic operation, so that different channels are formed to realize the classified placement of the tickets.

In the embodiment, in order to adjust the position of the first card receiving bin (to provide a certain installation space for the first card receiving bin), the ticket separating mechanism includes a receiving conveyer belt 232 and a pressing roller 235, where the receiving conveyer belt is located at the downstream of the turning plate, the first card receiving bin is located at the downstream of the receiving conveyer belt, the turning of the turning plate has a first state 2311 and a second state 2312, the first state is that the turning plate is parallel to the conveyer belt and is on the same plane or slightly lower, and the second state is that the turning plate has an included angle α with the conveyer belt;

in this embodiment, as shown in fig. 4.1: the three pressing rollers 235 are respectively positioned at the ticket inlet end, the ticket outlet end and the middle section of the ticket collecting conveyor belt, and the pressing rollers are used for ensuring stable transmission of the ticket card on the ticket collecting conveyor belt, especially the pressing rollers positioned at the ticket outlet end, and are used for ensuring that the ticket card obtains relatively stable power (flying into the first card collecting bin) so as to reduce the position deviation when falling into a preset area of the first card collecting bin, and the number of the actual pressing rollers 235 is not limited as long as at least one pressing roller can be realized;

the nip roll works when used for detecting and writing codes of ticket cards and needs to be lifted (separated from the conveyor belt) or detached when used for detecting and writing codes of material belt type labels.

As shown in fig. 4.1: in a first state, the ticket card is transmitted to the material receiving conveyer belt through the plate surface of the turning plate and falls into the first card receiving bin;

as shown in fig. 4.2: in the second state, as the turning plate is turned up, the ticket card falls into the second card collecting bin from a gap between the tail end of the conveying belt and the turning plate.

In the implementation of the embodiment, in order to enable the ticket card to accurately fall into the second card collecting bin, a guide plate 233 which is obliquely arranged is arranged above the second card collecting bin, the guide plate is positioned below the turning plate, one end of the guide plate is close to the turning plate, and the other end of the guide plate faces the second card collecting bin; the ticket leaves the conveyer belt and falls into the second card collecting bin, and the ticket flies out easily due to the effect of inertia, and can be guided to fall into the second card collecting bin through the guide plate.

In this embodiment, the turning plate is shown in fig. 5: the two ends of the turning plate 231 are fixedly connected with rotating shafts 234, the turning plate and the rotating shafts can integrally and reciprocally rotate along the axis of the rotating shafts, the rotating shafts are connected with driving pieces for driving the turning plate to move, and the lower surface of the turning plate is a cambered surface 2313.

The card issuing entity, as shown in figures 6 and 7: a hopper 11 for stacking and placing ticket cards, a ticket card issuing conveyor belt 12 for outputting the ticket cards 91 is arranged below the hopper, and a driving piece (not shown) for driving the ticket card issuing conveyor belt to move is arranged on the ticket card issuing conveyor belt;

the feed bin is equipped with striker plate 16, the striker plate is located hairpin conveyer belt top, the striker plate with first clearance has between the hairpin conveyer belt, just the striker plate can reciprocate, with the direction of transmission definition of hairpin conveyer belt the downstream of striker plate is equipped with the counter-rotating wheel 13, the counter-rotating wheel is located hairpin conveyer belt's top, just the counter-rotating wheel with have the second clearance between the hairpin conveyer belt, the counter-rotating wheel is equipped with the driving piece (not shown) that drives its rotation, the direction of rotation of counter-rotating wheel is: the tangential direction of the motion track of the point of the reversing wheel closest to the hairpin conveyer belt is opposite to the transmission direction of the hairpin conveyer belt;

briefly, as shown in fig. 10 and 11: the reversing wheel 13 is matched with the striker plate 16 to prevent the situation of re-tensioning card sending, the card is transmitted and sent through the card sending conveyor belt, the first step blocking is carried out on the card by adjusting the first gap of the striker plate, the number of the sent cards is controlled between 1 and 2, and then the re-tensioning is blocked through the reversing wheel;

because the rotation direction of the reversing wheel is opposite to the transmission direction of the card issuing conveyer belt, the reversing wheel is elastic, a second gap is formed between the card issuing conveyer belt and the reversing wheel, the friction force between the ticket and the card issuing conveyer belt is larger than that between the ticket and the reversing wheel, if a single ticket passes through the second gap, even if the single ticket contacts the reversing wheel, the transmission of the single ticket cannot be blocked, and if two tickets are issued simultaneously, the reversing wheel can block the ticket positioned above to be output because the friction force between the reversing wheel and the ticket is larger than that between the tickets, and meanwhile the ticket positioned below can be smoothly transmitted and output through the card issuing conveyer belt, so that the situation of preventing the ticket from being issued repeatedly is realized, the applicability of the card issuing mechanism to tickets with different thicknesses and flatness is enhanced by combining the rigid baffle plate and the flexible reversing wheel, the adjustment difficulty of the baffle plate is reduced, and the success rate of issuing the ticket is improved.

As shown in fig. 8 and 9: the feed bin includes regulating plate 14 and adjusting screw 15, the regulating plate is equipped with 2 and subtend setting, adjusting screw's both ends have the screw thread of opposite direction, two the regulating plate connect respectively in adjusting screw's both ends, rotate adjusting screw can drive two the regulating plate moves towards opposite direction respectively, can adjust the interval (the width of adjusting the feed bin) of two regulating plates to this makes it can adapt to the ticket card of equidimension not, and this regulation can not change the central point of feed bin.

In this embodiment, the feed bin still includes feed bin bottom plate 171 and two feed bin curb plates 172, two the feed bin curb plates are parallel and opposite direction sets up, two fixedly connected with adjusts guide pillar 173 between the feed bin curb plates, two adjusting plate slidable mounting in adjust the guide pillar and can follow adjust the guide pillar slip, the rethread adjusting screw can be smooth and easy the regulation distance between the adjusting plate.

As shown in fig. 8 and 9: in this embodiment, the structure of the up-and-down movement of the striker plate is: including baffle fixed block 161 and regulating block 162, baffle fixed block's both ends fixed connection in the feed bin curb plate, striker plate fixed connection and regulating block, the regulating block connect in baffle fixed block, and adjust the upper and lower position of regulating block through adjusting bolt 163, specific regulation structure is: the head of the adjusting bolt is rotationally connected with the baffle fixing block, the adjusting bolt can rotate along the axis of the baffle fixing block, the adjusting bolt is in threaded connection with the adjusting block, the adjusting bolt is screwed, and the upper and lower positions of the adjusting block are adjusted through threads, so that the upper and lower positions of the striker plate (namely the size of the first gap) are adjusted;

the first gap is adjusted to be larger than Shan Zhangsuo and slightly smaller than the thicknesses of two tickets, so that smooth card issuing is ensured preferentially, and the situation that the tickets are re-issued occasionally is allowed under the condition that a reversing wheel is not used.

In this embodiment, the striker plate is the rigid material, in order to make the ticket card before reaching the discharge gate of feed bin stagger the position in the direction of transmission, avoid the condition of card ticket, the striker plate be close to the one end of sending out the card conveyer belt is the arc structure, the arc structure be towards the direction of transmission of card conveyer belt is crooked.

The distance between the reversing wheel and the card-issuing conveying belt is adjustable, and the adjustment size of the second gap is slightly larger than the thickness of the Shan Zhangsuo ticket cards and smaller than the thickness of two ticket cards.

The periphery of the reversing wheel is coated with silica gel.

The hairpin conveyer belt is a high-conductivity rubber belt.

As shown in fig. 12.1 and 12.2: the first card receiving bin 21 comprises a receiving platform 211 and three receiving limiting plates 213, 214 and 215, wherein the three receiving limiting plates are arranged around to form a blanking area, when a card is received, a ticket falls into the blanking area, and the three receiving limiting plates can adjust the size of the area around according to the size of the ticket;

in this embodiment, three receiving limiting plates are detachably connected to the bottom plate or the side plate of the base 7, the detachable magnets are in adsorption connection or buckling connection, the receiving platform 211 has a notch 2111 avoiding the receiving limiting plates, the receiving platform moves up and down to receive materials, and the receiving limiting plates are fixed;

as shown in fig. 13: wherein limiting plate 215 includes spacing portion 2151, stand 2152 and installation department 2153, the installation department is located the one end of stand, just limiting plate passes through the installation department can dismantle connect in the frame, spacing portion is located the other end of stand, spacing portion is for following the stand extends to the horizontal direction and constitutes, extending direction is one or 2 directions, and the size of breach on the reduction receiving platform that can furthest through the structure of stand to prevent that the breach is too big to cause the receiving platform to go up ticket card to pile up unstably.

Further, the first card receiving bin is provided with a sliding rail 212, the material receiving platform 21 can reciprocate along the sliding rail in the up-down direction, and the first card receiving bin is provided with a driving member 216 capable of driving the material receiving platform to reciprocate up and down, in this embodiment, the driving member for driving the material receiving platform to reciprocate up and down is driven by a belt, but not limited thereto.

As shown in fig. 12.2: the mouth of the first card bin is provided with a photoelectric sensor 217 for detecting the stacking height of the ticket cards, the photoelectric sensor senses shielding generated by stacking the ticket cards, and the first card collecting bin can adjust descending displacement according to the thickness of the stacked ticket cards in the first card collecting bin, so that the fall of the stacked ticket cards and the collecting conveyor belt is always fixed, namely, the falling distance of each ticket card is fixed. The first card collecting bin is also provided with three material collecting limiting plates. The material collecting limiting plate is fixed on the bottom plate or the side plate of the equipment through a magnet arranged at the bottom, and the position of the material collecting limiting plate can be adjusted according to the size of the ticket. The three adjustable baffles and the bin wall of the card collecting bin, which is close to one side of the conveying belt, form a blanking area with limiting effects in four directions of the ticket plane above the material receiving platform, so that the stacking uniformity of the tickets can be effectively controlled. When a ticket falls into the area, a stack is formed with the previously dropped ticket.

In this embodiment, the conveyor belt used for conveying the ticket card is a vacuum adsorption conveyor belt, and the vacuum adsorption conveyor belt can ensure the stability of the ticket card when conveyed on the conveyor belt, and cannot deviate or drop out of the conveyor belt due to the influence of air flow and the like;

in addition, when the label material belt is transmitted, the vacuum function is started, the material belt is adsorbed on the conveying belt, so that the material belt has better stability, and the detection and writing code can be more reliable (the label is closer to the reader-writer) by being tightly attached to the conveying belt.

The working process and working principle of the utility model are as follows:

the detection and code writing equipment can respectively finish detection and code writing of the ticket card and the label, and the ticket card comprises the following working steps: as shown in fig. 3.1, the ticket 91 reaches the upstream 1 group of read-write devices, scans the one-dimensional code or the two-dimensional code on the ticket by the code scanner, and then retrieves the corresponding data (from the database) and writes the data into the ticket by the RFID reader; after the completion, the ticket card passes through a downstream 1-group read-write device, and a one-dimensional code or a two-dimensional code on the ticket card is scanned by a code scanner, then data in the ticket card is read by an RFID reader-writer, the data in the server is compared and detected, and finally the ticket card is placed into a first card receiving bin or a second card receiving bin according to a test result;

the label on the coiled material belt comprises the following working steps: the label stock belt is transmitted in a traction way through a winding and unwinding reel and a driving mechanism, labels attached to the label stock belt are detected and coded through a coding device, and when bad products are checked, the machine stops to mark the bad products manually or stops to mark the bad products automatically through equipment;

the working steps of the card issuing mechanism are as shown in fig. 10 and 11: the ticket 91 is stacked and placed in the feed bin, is transmitted downstream under the drive of the card issuing conveyer belt, can meet the obstruction of the striker plate 16 in the advancing process, and due to the blocking effect of the arc-shaped structure at the bottom end of the striker plate, the ticket can be staggered in the transmission direction, and the driving force received by the ticket at the lowest layer is the largest and the obstruction received by the ticket is the smallest, so that the ticket reaches the discharge hole of the feed bin first. Theoretically, as long as the first gap between the striker plate and the card issuing conveyor belt is greater than one ticket and less than the thickness of two tickets, the ticket can be taken as a sheet Zhang Fachu. However, in practice, the thickness of the ticket is not fixed, the edge flatness may be poor, and the card-issuing conveyor belt is elastic, so that the first gap is variable, and in order to avoid the ticket, the first gap is not easy to be too small, and is generally set to be larger than one ticket and slightly smaller than two tickets. The smooth card issuing is ensured preferentially, and the situation that the ticket is sent out again and again is allowed to happen occasionally under the condition that the reversing wheel is not used. The reversing wheel has the function of blocking the re-sent ticket card in the discharge hole. The rotating direction of the reversing wheel is opposite to the transmission direction of the card issuing conveyer belt, a second gap is formed between the reversing wheel and the card issuing conveyer belt, the reversing wheel is elastic, the friction force between the ticket and the card issuing conveyer belt is larger than that between the ticket and the reversing wheel, when the single Zhang Piaoka passes through the second gap, even if the single Zhang Piaoka contacts the reversing wheel, the transmission of the single Zhang Piaoka is not blocked, and when two tickets are sent out simultaneously, the reversing wheel can block the ticket positioned above and prevent the ticket from being sent out completely until the ticket below smoothly passes through the second gap because the friction force between the reversing wheel and the ticket is larger than that between the tickets. Therefore, the situation of preventing the ticket from being sent out again is realized; the second gap is slightly larger than the thickness of a single ticket card and smaller than the thickness of two ticket cards.

As shown in fig. 4.1 and 4.2: the working principle of the ticket distributing mechanism is as follows: the turning plate is turned over to have a first state 2311 and a second state 2312, wherein the first state is that the turning plate is parallel to the conveyor belt and is in the same plane or slightly lower than the conveyor belt, and the second state is that the turning plate and the conveyor belt have an included angle alpha; as shown in fig. 4.1: in a first state, the ticket card is transmitted to the material receiving conveyer belt through the plate surface of the turning plate and falls into the first card receiving bin; as shown in fig. 4.2: in the second state, as the turning plate is turned up, the ticket card falls into the second card collecting bin from a gap between the tail end of the conveying belt and the turning plate.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the present utility model and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present utility model.

Claims (10)

1. A desktop type label and ticket dual-purpose detection code writing device is characterized in that: the detection code writing equipment can be arranged on a desktop to work, and comprises a card issuing mechanism (1) for issuing stacked ticket cards (91), a card collecting mechanism (2) for collecting the ticket cards, a conveyor belt (3) for connecting the card issuing mechanism and the card collecting mechanism, and a unreeling shaft (51) and a reeling shaft (52) for reeling and tensioning a label stock belt (92), wherein the reeling shaft is provided with a driving piece for driving the rotation of the reeling shaft;

the label stock belt and the ticket card are the same in transmission direction, an upstream and a downstream are defined by the movement direction of the ticket card, the card issuing mechanism is positioned at the upstream end part of the conveyor belt, the card collecting mechanism is positioned at the downstream end part of the conveyor belt, the ticket card is transmitted on the conveyor belt, the unwinding shaft is positioned at the upstream of the card issuing mechanism, the winding shaft is positioned at the downstream of the card collecting mechanism, the unwinding part of the label stock belt is transmitted above the conveyor belt, and a driving mechanism (6) for pulling the label stock belt to be transmitted is arranged between the unwinding shaft and the winding shaft;

at least 1 group of read-write devices (4) are arranged between the card issuing mechanism and the card receiving mechanism, the read-write devices are used for detecting and writing codes on single ticket cards or labels on the material belt, the read-write devices are positioned above or below the conveyor belt, and the read-write devices comprise a code scanner (41) and/or an RFID read-write device (42);

the card collecting mechanism comprises a first card collecting bin (21) for collecting good-quality tickets and forming a stack, a second card collecting bin (22) for collecting bad-quality tickets and a ticket distributing mechanism (23) for feeding the tickets into the first card collecting bin or the second card collecting bin.

2. The dual-purpose type detection and coding device for desktop labels and tickets according to claim 1, wherein: the driving mechanism comprises a first driving mechanism (61) which is positioned at the tail end of the conveyor belt, and the first driving mechanism comprises a driving roller (611) and a driven roller (612) which are mutually abutted.

3. The dual-purpose type detection and coding device for desktop labels and tickets according to claim 2, wherein: the drive mechanism includes a pinch roller (62) located upstream of the first drive mechanism and at the feed end of the conveyor belt, the pinch roller being configured to pinch the strip of label stock such that the strip of label stock is adjacent the conveyor belt.

4. The dual-purpose type tag and ticket detecting and writing device according to claim 3, wherein: the belt pressing roller is close to a tensioning roller (121) of the conveyor belt, the tensioning roller can drive the belt pressing roller to rotate, and the belt pressing roller and the tensioning roller form a second driving mechanism.

5. The dual-purpose type detection and coding device for a desktop label and a ticket card according to claim 2, 3 or 4, wherein: the drive roller is a drive roller (31) for driving the conveyor belt in motion, the drive roller being capable of driving the label stock strip in traction and of driving the conveyor belt.

6. The dual-purpose type detection and coding device for desktop labels and tickets according to claim 1, wherein: the card issuing organization is including supplying the feed bin (11) that the ticket piles up to place, the below of feed bin is equipped with the card conveyer belt (12) of sending out ticket (91), the card conveyer belt is equipped with the driving piece that drives its motion, the low reaches of feed bin are equipped with striker plate (16), the striker plate is located card conveyer belt top, just the striker plate with have first clearance between the card conveyer belt the low reaches of striker plate is equipped with reversing wheel (13), the reversing wheel is located the top of card conveyer belt, just reversing wheel with have the second clearance between the card conveyer belt, reversing wheel is equipped with the driving piece that drives its rotation, reversing wheel's direction of rotation is: and the tangential direction of the motion track of the point of the reversing wheel closest to the hairpin conveyer belt is opposite to the conveying direction of the hairpin conveyer belt.

7. The dual-purpose type detection and coding device for desktop labels and tickets according to claim 1, wherein: the ticket distributing mechanism comprises a turning plate (231), the second card collecting bin is arranged below the turning plate, the first card collecting bin is arranged at the downstream of the turning plate, the turning plate can be turned over, and the ticket can fall into the first card collecting bin or the second card collecting bin through a channel formed by turning.

8. The dual-purpose desktop label and ticket code detection device of claim 7, wherein: the ticket distributing mechanism comprises a receiving conveyer belt (232) and a pressing roller (235) arranged above the receiving conveyer belt, the receiving conveyer belt is arranged at the downstream of the turning plate, the first receiving clamping bin is arranged at the downstream of the receiving conveyer belt, the turning of the turning plate is provided with a first state (2311) and a second state (2312), the first state is that the turning plate is parallel to the conveyer belt, and the second state is that the turning plate is provided with an included angle (alpha) with the conveyer belt.

9. The dual-purpose type detection and coding device for a desktop label and a ticket card according to claim 1 or 8, wherein: the first card receiving bin (21) comprises a material receiving platform (211) and three material receiving limiting plates (213, 214 and 215), wherein the three material receiving limiting plates are arranged to form a blanking area in a surrounding mode, and when a card is received, a ticket card falls into the blanking area, and the three material receiving limiting plates can adjust the surrounding area according to the size of the ticket card.

10. The dual-purpose type detection and coding device for desktop labels and tickets according to claim 1, wherein: the reading and writing device comprises a code scanner (41) and an RFID reader (42), and is provided with 2 groups, wherein 1 group of reading and writing devices positioned at the upstream are used for writing data into the ticket card or the label, and 1 group of reading and writing devices positioned at the downstream are used for detecting and checking the data of the ticket card or the label.